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WO2008038668A1 - Dispositif de prévention de perte de club de golf - Google Patents

Dispositif de prévention de perte de club de golf Download PDF

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Publication number
WO2008038668A1
WO2008038668A1 PCT/JP2007/068687 JP2007068687W WO2008038668A1 WO 2008038668 A1 WO2008038668 A1 WO 2008038668A1 JP 2007068687 W JP2007068687 W JP 2007068687W WO 2008038668 A1 WO2008038668 A1 WO 2008038668A1
Authority
WO
WIPO (PCT)
Prior art keywords
golf club
module
stored
putter
identification information
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
PCT/JP2007/068687
Other languages
English (en)
Japanese (ja)
Inventor
Akira Hara
Yoshikazu Itami
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Publication of WO2008038668A1 publication Critical patent/WO2008038668A1/fr
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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Classifications

    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63BAPPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
    • A63B55/00Bags for golf clubs; Stands for golf clubs for use on the course; Wheeled carriers specially adapted for golf bags
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63BAPPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
    • A63B53/00Golf clubs
    • A63B53/14Handles
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63BAPPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
    • A63B55/00Bags for golf clubs; Stands for golf clubs for use on the course; Wheeled carriers specially adapted for golf bags
    • A63B2055/402Warning devices for indicating missing golf clubs
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63BAPPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
    • A63B71/00Games or sports accessories not covered in groups A63B1/00 - A63B69/00
    • A63B71/06Indicating or scoring devices for games or players, or for other sports activities
    • A63B71/0619Displays, user interfaces and indicating devices, specially adapted for sport equipment, e.g. display mounted on treadmills
    • A63B71/0622Visual, audio or audio-visual systems for entertaining, instructing or motivating the user
    • A63B2071/0625Emitting sound, noise or music

Definitions

  • the present invention relates to a golf club loss prevention device that can prevent a golf club stored in a golf bag from being lost.
  • a main device having an RF—ID reader is attached to the handle of the golf bag, and the IDs of RF—ID tags attached to all golf clubs stored by the main device are read and registered, and registered.
  • There is one that prevents a golf club from being lost by issuing an alarm when the ID cannot be read see, for example, Patent Document 1).
  • Patent Document 1 Specification of US Patent 6967563
  • the RF-ID tag provided in the golf club to be read stored in the golf bag and the reading from the outside of the golf bag are mainly performed.
  • Other golf clubs, particularly golf club shafts, may be interposed between the golf clubs, and many of these golf club shafts are mostly made of metal. If the RF—ID tag is interposed between the main unit and the RF—ID tag, the RF—ID tag cannot be read satisfactorily. Therefore, the golf club to be read is stored in the golf bag. In many cases, malfunctions that generate alarms occur! /, And! /.
  • the present invention has been made paying attention to such problems, and can more reliably read the RF ID tag provided in each stored golf club, thereby reducing malfunctions. It is an object of the present invention to provide a non-ray golf club loss prevention device. Means for solving the problem
  • RF—ID modules 4 and 44 which are provided in each golf club 8, 45 and 55 stored in the golf bag 5 and 5 ′ and which can transmit the stored identification information (chip ID) using electromagnetic waves.
  • RF—ID reading means reading units 22, 27 for reading identification information stored in the RF—ID modules 4 and 44;
  • Identification information storage means nonvolatile memory 21, storage club ID table
  • Identification information storage means for storing identification information of the RF ID modules 4, 44 provided in all the golf clubs 8, 45, 55 stored in the golf bag 5;
  • Collating means control microcomputer (MPU) 20, ID collating process for collating the identification information read by the RF—ID reading means with the identification information stored in the identification information storing means;
  • notification means for notifying the loss of the golf clubs 8, 45, 55;
  • a golf club loss prevention device for preventing loss of golf clubs 8, 45, 55 stored in an inverted manner in a bottomed cylindrical golf bag 5, 5 ′,
  • the RF—ID modules 4 and 44 are provided in the grip portions 9 of the golf clubs 8, 45, and 55 that are stored in an inverted manner, and the golf clubs that are stored in the grip portions 9 of the golf clubs 8, 45, and 55 that are stored in an inverted manner
  • Antennas coil antennas 31, 53, 54
  • It is characterized by providing.
  • a golf club loss prevention device is the golf club loss prevention device according to claim 1,
  • the RF-ID modules 4 and 44 are provided at the grip end of the grip portion 9, and the antennas (coil antennas 31, 53, 54) are provided at the bottom of the golf bag 5, 5 ′. It is a feature.
  • the distance between the RF—ID module 4, 44 and the antenna can be made extremely small, and the shaft of another golf club is interposed between the RF—ID module 4, 44 and the antenna. Therefore, the RF-ID module 4, 44 can be read more reliably, and a golf club loss prevention device with fewer malfunctions can be provided.
  • a golf club loss prevention device is the golf club loss prevention device according to claim 1 or 2
  • the RF-ID module 4, 44 force is characterized in that the grip part 9 is detachable.
  • the RF-ID modules 4, 44 can be easily replaced with the changed golf club.
  • a golf club loss prevention device is the golf club loss prevention device according to any one of claims;! -3.
  • the RF-ID module 4 has a convex portion 4 'that can be inserted into a vent hole 10 formed in the end surface of the drip end, and has an outer shape similar to the outer shape of the grip end. It is a feature.
  • the RF—ID module 4 can be easily attached and detached, and the use of the golf club can be prevented as much as possible from being damaged by these RF—ID modules.
  • a golf club loss prevention device is the golf club loss prevention device according to any of claims;! To 4,
  • Time measuring means for measuring a predetermined time interval, and reading by the RF ID reading means (reading units 22, 27) every time the predetermined time interval is measured by the time measuring means.
  • control means control microcomputer (MPU) 20
  • control microcomputer (MPU) 20 for controlling to perform collation by the collation means (control microcomputer (MPU) 20, ID collation processing).
  • reading power intermittently can suppress the power consumption of the apparatus and reduce the consumption of the battery 25.
  • a golf club loss prevention device is the golf club loss prevention device according to any one of claims;! -5.
  • the mode setting means for setting the storage mode and the play mode, and when the storage mode is set, the verification means (control microcomputer (MPU) 20, ID verification processing) determines that there is a mismatch.
  • the notification means sounder 26
  • Play mode control (Sp;! To Sp24) that performs notification by the notifying means when it is determined that the matching means does not match when it is determined that the putters 45 and 55 have been returned. , Sql ⁇ Sq 20), and control means (control microcomputer (MPU) 20).
  • a play mode for example, in the play where a golf club is frequently extracted from a golf bag, by setting a play mode, notification is not performed unless a predetermined matching condition is satisfied! / While it is possible to eliminate the inconvenience of being notified each time a golf club is removed, if it is not in play as in a clubhouse, a storage mode is set so that the golf club Since the notification is performed every time the sample is extracted, the golf club can be prevented from being stolen by a third party.
  • a golf club loss prevention device is the golf club loss prevention device according to claim 6,
  • the identification information storage means (non-volatile memory 21, storage club ID table) is used for identification information (chip ID) of the RF-ID modules 4 and 44 provided in the putters 45 and 55 stored in the golf bags 5 and 5 '. ) For storing the putter identification information storage section (Nol storage area of the storage club ID table)
  • control means (control microcomputer (MPU) 20) is stored in the pattern identification information storage unit.
  • the RF-ID reading means reading units 22 and 27
  • the predetermined collation condition is used as the predetermined collation condition.
  • a golf club loss prevention device according to claim 8 of the present invention is the golf club loss prevention device according to claim 7,
  • the control unit (control microcomputer (MPU) 20) is stored in the putter identification information storage unit (Nol storage area of the storage club ID table)! /, And has the identification information power RF-ID reading means ( The error notification is performed by the notification means (sounder 26) when a predetermined time (sampling elapsed time) elapses after the reading unit 22, 27) stops reading.
  • RU control microcomputer
  • a golf club loss prevention device is the golf club loss prevention device according to any of claims;! To 8,
  • the RF—ID module 44 provided in at least the putter 55 stored in the golf bag 5 ′ is an active type RF—ID module that can be operated by the built-in battery 64.
  • the RF-ID module provided in the putter has a relatively large communication distance and is active. Since it is a type RF—ID module 44, identification information (chip ID) can be read.
  • a golf club loss prevention device is the golf club loss prevention device according to any one of claims;! -5.
  • the RF—ID module 44 on the putter 55 stored in the golf bag 5 ' A storage detection means (light sensor 65) for detecting the storage of the putter in the putter storage box 51 of the bag 5 'or the golf cart 50 is provided, and the battery 64 including the RF-ID module can be operated. Active RF—ID module 44, and the active RF—ID module 44 provided in the putter 55 transmits identification information (chip ID) based on the detection of storage by the storage detection means. And
  • the identification information storage means (non-volatile memory 21, storage club ID table) is a pattern identification information storage unit for storing identification information of the RF-ID module 44 provided in the putter 55 stored in the golf bag 5 '. (Nol storage area of the stored club ID table), and when transmission of identification information stored in the putter identification information storage unit is received from the active RF-ID module 44 provided in the putter 55
  • the RF—ID reading means (reading unit 27) reads (Sql 5) and the matching means (control microcomputer (MPU) 20, ID collation processing) performs collation.
  • a golf club loss prevention device is the golf club loss prevention device according to claim 10,
  • the storage detection means comprises an optical sensor 65, and detects the storage when the external light is not detected by the optical sensor 65.
  • FIG. 1 is a partially broken perspective view showing an overall image of a golf club loss prevention device according to a first embodiment.
  • FIG. 2 is a partially cutaway perspective view showing how the RF-ID module is attached in the first embodiment.
  • FIG. 3 is a sectional view taken along the line AA showing the positional relationship between the RF-ID module and the antenna module in the golf bag in the first embodiment.
  • FIG. 4 is a perspective view showing the appearance of the main device in the first embodiment.
  • FIG. 5 is a block diagram showing a configuration of a golf club loss prevention device according to the first embodiment.
  • FIG. 6 shows (a) a time setting table (b) showing a configuration of a storage club ID table storing IDs of RF-ID modules in the first embodiment.
  • FIG. 7 is a flowchart showing the contents of the main device of the golf club loss prevention device in the first embodiment.
  • FIG. 8 is a flowchart showing the contents of the main device of the golf club loss prevention device in the first embodiment.
  • FIG. 9 is a perspective view of a golf cart on which a golf bag to which a golf club loss prevention device according to a second embodiment is applied is mounted.
  • FIG. 10 is a partially broken perspective view showing a state of attachment of the RF-ID module 44 used in the second embodiment.
  • FIG. 11 is a cross-sectional view showing a configuration of a golf bag to which a golf club loss prevention device according to a second embodiment is applied and a putter storage box in which the putter is stored.
  • FIG. 12 is a block diagram illustrating a configuration of a golf club loss prevention device according to a second embodiment.
  • FIG. 13 is a flowchart showing the contents of the main device of the golf club loss prevention device according to the second embodiment.
  • FIG. 14 is a flowchart showing the contents of the main device of the golf club loss prevention device according to the second embodiment.
  • FIG. 15 is a cross-sectional view showing a golf bag to which a golf club loss prevention device according to another modification is applied.
  • Non-volatile memory 1
  • Reading unit 3
  • FIG. 1 is an external perspective view showing a golf bag 5 to which the golf club loss prevention device of Embodiment 1 is applied.
  • the golf club loss prevention device of Example 1 is a golf bag.
  • the antenna module 3 is mainly composed of a circular plate inserted and arranged so as to be inscribed in the bottom member 7.
  • the antenna module 3 is a circular resin plate that does not shield radio waves. Inside the antenna module 3, as shown in FIGS. 1 and 3, the golf club 8 stored in the golf bag 5 and the putter are arranged. 45 grips 9 Passive RF—ID module mounted on 9 grip ends A coil antenna 31 arranged in a concentric spiral for carrying out non-contact data communication with electromagnetic wave 4 by electromagnetic waves is incorporated, and the coil antenna 31 is connected to the main device 1 via the connection cable 2. Electrically connected to! /
  • the RF-ID module 4 used in this example has a convex portion 4 'at the center, which is very similar to a ball marker used in green, and has an outer diameter. It has a disk shape that is almost the same as the diameter of the grip end, and the RF-ID module 4 can be easily installed by inserting the convex part 4 'into the vent hole 10 formed in the grip end. It can be attached to the grip end of the grip part 9 and the RF—ID module 4 can be easily removed.
  • the RF-ID module 4 has a disk shape that combines the outer shape with the outer shape of the grip end. The outer shape force of the grip end. For example, if the shape is a square, hexagonal polygon, or ellipse, The external shape of the RF—ID module 4 may be similar to that.
  • the RF-ID module 4 is made of resin that does not block radio waves, as with the antenna module 3.
  • the RF-ID chip 42 is mounted on one side of the RF-ID module 4 as shown in FIG.
  • an inlet 40 in which a concentric spiral coil antenna 41 is formed is incorporated.
  • the RF-ID chip 42 used in this embodiment is built in the antenna module 3 and an ID storage unit (not shown) that stores a chip ID that is identification information unique to each RF-ID chip 42. It incorporates a power circuit (not shown) that rectifies the electromotive force generated in the coil antenna 41 by receiving electromagnetic waves from the coil antenna 31.
  • the chip ID stored in the ID storage unit is The passive RF—ID chip 42 can transmit using the power rectified by the circuit.
  • the RF-ID chip 42 is equipped with a random transmission circuit, and even when a plurality of RF-ID modules 4 are present in the readable area of the same reader, these random transmission circuits This makes it difficult for individual RF—ID chips 42 to transmit these chip IDs at the same time by transmitting chip IDs at the transmission timing based on random numbers generated in the random transmission circuit. By avoiding collision caused by transmission, multiple RF—ID chips 42 in the readable area The group ID can be read.
  • the RF-ID module 4 is shaped like a ball marker so that it can be attached to the grip ends of the golf clubs 8 and the putter 45. This is shown in FIG. As shown in Fig. 3, the antenna module 3 arranged on the upper surface of the bottom member 7 and the RF ID module 4 and the antenna module 3 attached to these grip ends can be made very close to each other.
  • RF Because it is possible to prevent obstacles that interfere with communication between the ID module 4 and the antenna module 3, specifically, other golf clubs 8 made of metal or the shaft of the putter 45, etc.
  • the present invention is not limited to this, usually, many of the bottom members 7 are made of a resin that does not shield electromagnetic waves, so that they are formed below the bottom member 7. The portion, it is from the outside of the golf bag 5 to be stuck the antenna module 3! /,.
  • the main device 1 used in this embodiment will be described with reference to FIG. 4 and FIG. 5.
  • the appearance of the main device 1 of this embodiment is a square box shape.
  • a display unit consisting of the liquid crystal display device 11 is provided, and the operation LED 12 is used to notify that it is in operation, and the maintenance mode and play mode are switched.
  • Mode switching switch 13 that is operated when turning on / off the power
  • 15 is a sound emitting part for outputting a notification sound to the outside
  • 16 is a battery case cover for removing the battery 25.
  • the main device 1 of the present embodiment includes the coil antenna 31 in addition to the liquid crystal display device 11, the operation LED 12, the mode switching switch 13, and the main switch 14.
  • the reading unit 22 connected by the connection cable 2 and reading each RF—ID module 4, and the ID of the RF—ID module 4 mounted on each golf club 8 and putter 45 shown in FIG. 6 are stored.
  • the storage club ID table (Fig. 6 (a)) and the time setting table (Fig. 6 (b)) are stored, and the time information at that time can be output and set externally.
  • a power supply circuit 24 having a timer count function, a power supply circuit 24 for boosting the DC power supplied from the battery 25 loaded in the main device 1 and supplying the boosted power to each part of the main device 1. Facing the club 15
  • a sounder 26 that outputs various warning sounds and a control microcomputer (MPU) 20 that controls the operation of each part by being connected to each part as shown in FIG. .
  • the control microcomputer (MPU) 20 is provided with a nonvolatile internal ROM for storing a control program in which the control contents executed by the control microcomputer (MPU) 20 are described. Work memory that can be used for processing, I / O ports for various data input / output, serial ports for data communication, etc. are provided, and the control microcomputer (MPU) 20 executes the control program. Various functions of the main device 1 are formed by controlling these connected parts.
  • the reading unit 22 used in the present embodiment operates the RF-ID module 4 with respect to the RF-ID module 4 by outputting an electromagnetic wave having a predetermined frequency from the coil antenna 31.
  • the chip ID stored in the RF-ID module 4 is read via these electromagnetic waves, and the read chip ID is output as digital data to the control microcomputer (MPU) 20.
  • MPU microcomputer
  • the storage club ID table and the time setting table stored in the non-volatile memory 21 of this embodiment will be described.
  • the storage club ID table of this embodiment has FIG. )
  • each golf club including the putter on which the RF ID module 4 of the chip ID is mounted Type data and state data are stored in association with each other.
  • the type data is data indicating that the type data 1 is a putter 45, and the type data 0 is data indicating a golf club 8 other than the putter 45.
  • the chip ID of the RF—ID module 4 attached to the putter 45, which is data 1, is stored as a No. 1 record.
  • the status data includes only the record of type data 1, that is, only the No. 1 record, and the other records are not stored.
  • state data “1” indicating the state in which the putter 45 is stored and “0” indicating the state in which the putter 45 is removed are updated and stored.
  • RF attached to 45 When the chip ID of ID module 4 is read or cannot be read. In this case, by specifying the previous storage status with the status data, it is possible to determine whether the putter has been extracted or the putter has been returned (stored), as will be described later.
  • the time setting table of this embodiment stores the time (number of seconds) set for the predetermined time A to C as each time type. Based on the time intervals stored in these time setting tables, the RF-ID module 4 is read.
  • each set time stored in the time setting table is stored in a rewritable nonvolatile memory 21, a predetermined change operation, specifically, both modes of the mode switching switch 13 are stored.
  • the setting mode that is activated by operating the mode switches at the same time by selecting the “change setting time” menu from the setting menu displayed on the LCD 11, each setting time is set in units of 5 seconds. Settings can be changed
  • the set time B is a time for determining the reading interval of the RF-ID module 4 in the storage mode as will be described later. Even if the golf club 8 or the putter 45 is extracted from the golf bag 5, the alarm is not performed until the set time B elapses at the maximum, and the theft may be overlooked.
  • the set time C is automatically set to a time that is one tenth of the predetermined time A and the fractional part is rounded down.
  • the chip ID of the RF-ID module 4 mounted on the putter 45 stored in the golf bag 5 and the golf club 8 stored in the golf bag 5 are previously mounted.
  • the chip ID power of the RF ID module 4 is read by the reading unit 22 by performing the setting process described later and stored in the storage club ID table of FIG. 6 (a). ing.
  • control microcomputer (MPU) 20 performs the activation process of S1. Specifically, in the activation process, the operation confirmation and connection confirmation of each device that is connected! Are performed, and the activation confirmation sound is output from the sounder 26.
  • step S2 the process proceeds to step S2, and a mode acceptance process is performed.
  • this mode acceptance process the operation of the mode switching switch 13 is accepted for a predetermined time.
  • step S3 When the maintenance mode switch is selected and operated in this mode acceptance process, the maintenance mode is set and the process proceeds to step S3.
  • the play mode switch When the play mode switch is selected and operated, Set the play mode and proceed to step S3.
  • the maintenance mode is set in advance, and when the mode switching switch 13 is not operated for a predetermined time, the process proceeds to step S3 as the default maintenance mode is set.
  • step S3 it is determined whether or not the mode set in step S3 is! /, And whether the mode is the maintenance mode or not. On the other hand, if the process is not in the maintenance mode, that is, if it is in the play mode, the process proceeds to A in FIG. 8 and the process of each step after Spl is performed.
  • control microcomputer (MPU) 20 is set to a predetermined time B in the time setting table. After 10 seconds is set in the RTC23 timer, the process proceeds to step S5.
  • step S5 it is determined whether the timer set in step S4 has timed up, specifically, whether or not there is a timer up output input from RTC23, and the timer is up. If there is no output input, proceed to step S6 to check if play mode is operated If there is no play mode operation, proceed to step S7 to determine whether there is a setting operation, and if there is no setting operation, return to S5 to perform steps S5 ⁇ S6 ⁇ S7 It becomes a standby state to monitor whether the timer is up, whether the play mode operation is performed, and whether the setting operation is performed.
  • step S7 When a setting operation is performed in the standby state of S5 to S7, the operation is detected in step S7 and proceeds to a setting processing routine (not shown), so that the putter 45 and other golf clubs
  • a setting processing routine not shown
  • the chip ID registration setting of the RF—ID module 4 installed in 8 and various setting time change settings can be implemented as described above.
  • step S5 if there is a timer up output input from RTC23, the occurrence of timer up due to the input is detected in step S5 and the process proceeds to step S8. Then, ID reading process is executed. Specifically, in the ID reading process, the putter 45 and the RF—ID module 4 of each golf club 8 stored in the golf bag 5 at that time are read, and each read ID is read out. Memorize temporarily.
  • step S9 the chip ID read and temporarily stored in the ID reading process in step S8 is compared with the ID stored in the storage club ID table! All IDs stored in the stored club ID table are present in the temporarily stored read IDs (chip IDs) .In other words, it is determined whether or not all IDs match. If all golf clubs 8 and putters 45 are stored! /, It is determined that the golf club 8 and putter 45 are stored, and the process returns to the step S5 to shift to the standby state of S5 to S7.
  • the sounder 26 After proceeding to the step, the sounder 26 starts to output a predetermined theft alarm sound for notifying the theft of the golf club, and after performing the notification process for displaying the theft warning message on the liquid crystal display device 11, the step of S12 Go to and stop the notification To shift to the ground state.
  • step S12 In the notification stop operation waiting state of step S12, the notification stop operation, specifically, If any mode switching switch 13 is operated, it is determined that there is a notification stop operation, and the process proceeds to step S13.
  • Theft report alarm sound output and theft warning message started in step S11. After the display of is finished, the process returns to the step of S5 to shift to the standby state of S5 to S7.
  • the control microcomputer (MPU) 20 executes each step of S4-S 13 to set the predetermined time B.
  • the RF 45 of the putter 45 and all the golf clubs 8 stored in the golf bag 5 and every golf club 8 are read at every time interval, and the pattern 45 and all the golf clubs 8 to be stored are read.
  • step S3 the control microcomputer (MPU) 20 first sets the time set to the predetermined time A in the time setting table, specifically 60 seconds, to the RTC23 timer, and then proceeds to the Sp2 step. To do.
  • this Sp2 step it is determined whether or not the timer set by Spl has a timer-up force, specifically, whether or not a timer-up output is input from RTC23, and the timer-up output is output. If there is no input, proceed to the Sp3 step to determine whether there is a storage mode operation. If there is no storage mode operation, proceed to the Sp4 step to determine whether the sampling elapsed time has reached the specified time. If the predetermined time has not been reached, the process returns to Sp2, and each step of Sp2 ⁇ Sp3 ⁇ Sp4 is performed to check whether there is a timer up, whether there is a storage mode operation, and whether the sampling elapsed time has reached the predetermined time. It will be in a standby state to monitor presence / absence.
  • the ID stored as “1” as the type data in the stored club ID table in the temporarily stored ID that is, the RF—ID module 4 attached to the putter 45 Whether the chip ID of the RF—ID module 4 mounted on the putter 45 is read or not is determined.
  • the process proceeds to the step of Spl l, and the status data stored in the stored club ID table at that time That is, the state data force S of the putter 45 corresponding to the record in which “1” is stored in the type data, and the power of “0” indicating the extraction state are determined.
  • the status data is "0"
  • the note is in the extracted state at the previous reading, and the extracted state continues at the current reading.
  • the status data is ⁇ 1 '' while determining and shifting to the standby state of Sp2 to Sp4
  • it proceeds to the Spl2 step, determines that a new pattern has been extracted, and enters the Spl3 step.
  • the time setting table is set to the predetermined time C! /, And the time that is set to C /! Instead, set the timer of RTC23, and then start measuring the elapsed sampling time, specifically the elapsed timer timer count (Spl 5), and shift to the standby state of Sp2 to Sp4.
  • the reading interval time is changed to a predetermined time C that is 1/10 of the predetermined time A, so that the extracted putter is returned. And start counting the elapsed sampling time, It is possible to determine the force and the time that the elapsed time reaches the predetermined time.
  • the process proceeds to the SplO force, et al. Spl6 step, and stored at that time. It is determined whether or not the state data stored in the club ID table, that is, “1” indicating the storage state of the state data of the pattern 45 corresponding to the record having “1” stored in the type data.
  • step Spl7 a new pattern 45 is set. It is determined that a return (storage) has occurred, and the process proceeds to step Spl8, where the status data is updated from “0” to “1”, and the time measurement started in Spl 5 is terminated (Spl9).
  • the process proceeds to the step of Sp20, and the ID read and temporarily stored in the ID reading process of Sp9 is compared with the ID stored in the storage club ID table! It is determined whether all IDs stored in a single table exist in the temporarily stored read IDs, that is, whether all IDs match (Sp21). If all golf clubs 8 are stored and return to the step of Spl, after setting the timer A for a predetermined time, the system shifts to the standby state of Sp2 to Sp4.
  • the sounder 26 After proceeding to the step of Sp22, the sounder 26 starts to output a predetermined loss notification sound for notifying the loss of the golf club, and after performing the notification process for displaying the loss prevention warning message on the liquid crystal display device 11, Go to step , The process proceeds to broadcast knowledge stop operation waiting state.
  • the notification stop operation specifically, the operation of the mode switching switch 13 of any mode is performed in the Sp23 step notification stop operation waiting state, it is determined that there is a notification stop operation. Proceed to the Sp24 step, and after finishing the output of the loss alarm sound and the loss warning message started at Sp22, return to the Spl step, set the timer A for the specified time, and then change Sp2 to Sp4. Enter standby mode.
  • the main device 1 of this embodiment has a function of notifying the loss of the putter 45 itself.
  • the Spl 5 Since the elapsed time that started timing in this step reaches the predetermined time, the arrival of these elapsed times to the predetermined time is detected in Sp4, and the process proceeds to Sp5 step.
  • the Sp Proceed After starting the output of a predetermined error notification sound for notifying the non-return of the note indicating that it has not passed for a predetermined time, and performing the notification process for displaying the non-return warning message on the liquid crystal display device 11, the Sp Proceed to step 6 to shift to the notification stop operation wait state.
  • the notification stop operation specifically, the operation of the mode switching switch 13 in any mode is performed in the Sp6 step notification stop operation waiting state, it is determined that the notification stop operation is present. Proceed to the step of Sp7, and after finishing the error notification sound output and spatter non-return warning message started in Sp5, reset the timer count of the elapsed time timer and restart (Sp8), Sp2 If the putter 45 is not returned after the notification stop operation by returning to the standby state of Sp2 to Sp4, the predetermined error notification sound is output again. It becomes like this.
  • Example 1 the golf club loss prevention device of Example 2 was composed of the main device 1 that can be attached to the golf bag 5 and the antenna module 3, so that the purchased golf bag 5 was replaced with a new one. While the golf club loss prevention device can be attached to the golf bag 5 as well, the golf club loss prevention device of the second embodiment exemplifies a form incorporated in the golf bag 5 ′.
  • the same RF ID module 4 is mounted on the putter 45 and the golf club 8, whereas in the present embodiment, the RF ID module 44 mounted on the putter is installed.
  • these putters 55 can be used for playing golf other than the golf bag 5 'as shown in FIG. Putter storage box 51 of the over preparative 50 Even when stored, the chip ID of the RF ID module 44 attached to the putter stored in the putter storage box 51 can also be read. Since these are the same as those in the first embodiment, the same parts are denoted by the same reference numerals, and the description thereof will be omitted. The characteristic portions of the second embodiment, which are modifications from the first embodiment, will be described. ! / And explained below.
  • the golf bag 5 to which the golf club loss preventing device of the second embodiment is applied and the golf cart 50 including the force putter storage box 51 are mounted.
  • the putter 55 of the second embodiment can be stored in the golf bag 5 ′ or in the putter storage box 51 even if it is! /.
  • the golf club loss prevention device of the present embodiment is built in the main device 1 ′ fixed to the outer periphery of the golf bag 5 ′ and the bottom member 7 ′ of the golf bag 5 ′.
  • the passive antenna 53 and the active antenna 54 are connected to each other, and the passive antenna 53 and the active antenna 54 are connected to the main apparatus 1 ′ by connection cables 52a and 52b.
  • the passive antenna 53 used in the second embodiment is the same as the coil antenna 31 incorporated in the antenna module 3 used in the first embodiment.
  • the RF ID mounted on the grip end of the golf club 8 other than the putter 55 is incorporated above the bottom member 7 'so that the chip ID can be read from the ID module 4, and the coil antenna As shown in Fig. 11, the chip ID transmitted from the active RF ID module 44 attached to the grip end of the putter 55 is located below the position 31 and within the diameter of the coil antenna 31.
  • the active antenna 54 in the form of a coil for receiving a transmission wave that is tuned is incorporated, and the putter 55 is connected to the golf ball by the active antenna 54. Even when stored in the grayed 5 ', even if it is stored outside of putter storage box 51, it is configured to be able to receive radio waves from active RF- I D module 44! /, Ru.
  • the active RF ID module 44 used in the second embodiment will be described with reference to FIG. 10.
  • the active RF ID module 44 in the second embodiment is shown in FIG.
  • the cap has a recess 60 that can be fitted to the grip end.
  • an active RF-ID chip 61 is mounted on one side of the same and an inlet 63 in which a concentric spiral coil antenna 62 is formed.
  • a button battery 64 for supplying operating power to the chip 61 is built in, and a cover 66 of the button battery 64 is provided at a portion corresponding to the bottom surface inside the recess 60.
  • the distance from the active antenna 54 is relatively large compared to the passive RF-ID module 4.
  • the chip ID can be read even with a few meters, and the chip ID can be transmitted arbitrarily from the RF-ID module 44 side.
  • the active RF ID module 44 of the second embodiment incorporates an optical sensor 65 for detecting external light serving as a storage detection means in the present invention.
  • an optical sensor 65 for detecting external light serving as a storage detection means in the present invention.
  • the RF—ID module 44 is configured to send (send) the chip ID itself when it is returned and returned.
  • the main device 1 ′ of the second embodiment has almost the same configuration as that of the first embodiment.
  • the main device 1 ′ is connected to the passive antenna 53 by the connection cable 52a.
  • the RF—ID module 44 connected to the active antenna 54 via the connection cable 52b and attached to the putter 55 is read. It is configured with a reading unit 27.
  • steps Sb4 and Sb5 in Fig. 13 performed in the maintenance mode are the same as the steps S4 and Sb5 in Fig. 7, that is, the predetermined time B is set in the timer in the step Sb4 and S b5 In this step, the timer up is monitored. If the timer up output is not input in step Sb5, the process proceeds to step Sb6 to determine whether there is reception on the active antenna 54. If there is no reception, the process proceeds to step Sb8 to check whether or not there is a play mode operation.
  • step Sb9 determines whether there is a setting mode operation. If there is no setting mode operation, return to Sb5, and step Sb5 ⁇ Sb6 ⁇ Sb7 ⁇ Sb8. By carrying out patrol, it enters a standby state for monitoring whether the timer is up, whether the active antenna 54 is received, whether the play mode is operated, and whether the setting mode is operated.
  • the optical sensor 65 provided in the RF-ID module 44 fitted to the grip end 9 of the putter 55 indicates that the light detection output has changed more than a predetermined value. That is, when the chip ID is transmitted (transmitted) from the RF-ID module 44 due to the force with which the putter 55 is extracted from the golf bag 5 'or the putter storage box 51 or returned, specifically, When a golf club including at least the putter 55 is stolen from a golf bag 5 ′ during storage by a third party or the like, in the step of receiving power Sb6 of the chip ID transmitted (transmitted) by the active antenna 54 Detected and goes to Sb9 step.
  • step Sb9 it is determined whether or not the chip ID received in the step Sb6 matches the ID of the pattern 55 stored in the No. 1 record of the storage club ID table of FIG. If it matches, the process returns to the step Sb5 and enters the standby state of Sb5 to Sb8. Note that the processing by each step of Sbl3 to Sbl5 is the same as the processing of each step of S11 to S13 in Example 1, and the theft is prevented by continuing the notification until the notification stop operation is performed. The occurrence will continue to be reported.
  • the RF—ID is read by the reading unit 22 via the passive antenna 53 and the RF—ID is read by the reading unit 27 via the active antenna 54 along with the reading of the ID module 4.
  • the module 44 is read to read all the clubs stored in the golf bag 5 ', and the read chip ID is temporarily stored.
  • the process proceeds to the step of Sbl l, and the chip ID temporarily stored in the ID reading process of these SblOs is compared with the ID stored in the storage club ID table! All the ID forces stored in the memory are present in the temporarily stored read IDs, i.e., whether all IDs match, and if they match, all golf clubs 8 and putters 55
  • the process shifts to the standby state of Sb5 to Sb8, but if they do not match, the process proceeds to the Sbl3 step, so that S1 in FIG. ;! ⁇ S13 steps Sbl3 to Sbl5, which are the same as the steps above, will continue to notify that theft has occurred by continuing notification until there is a notification stop operation.
  • step Sb3 determines “Yes” ⁇ and proceeds to Sql.
  • the control microcomputer (MPU) 20 first determines whether or not the active antenna 54 has received, and if there is no reception, proceeds to step Sq2. If there is no storage mode operation, proceed to step Sq3 to determine whether the sampling elapsed time has reached the specified time, and if the sampling elapsed time has not reached the specified time, return to Sql.
  • the putter 55 is extracted or stored, so that the optical sensor 65 If there is a transmission (transmission) from the RF-ID module 44 attached to the putter 55 based on the change in the light detection output beyond a predetermined value, the chip ID of the transmission (transmission) is transmitted.
  • the reception is detected in the Sql step, and the process proceeds to the Sq8 step.
  • the ID in which “1” is stored as the type data in the stored club ID table, that is, the status data of the RF—ID module 44 attached to the putter 55 Determine whether the force S is “0” indicating that it is a sampling.
  • step Sq9 If the determination is negative, that is, if the state data is "1", the pattern 55 has been returned when the chip ID was received by the active antenna 54 in the previous time, so this time It is determined in step Sq9 that the putter 55 has been extracted at the time of reception, and after proceeding to the step of S qlO, the status data and updating from ⁇ 1 '' to ⁇ 0 '', the timing of sampling elapsed time is specifically elapsed. Start the timer count of the time timer (Sql 1), and shift to the standby state of Sq;! To Sq3. That is, when the occurrence of extraction is specified, the measurement of the elapsed sampling time is started so that it is possible to determine the force that the extraction elapsed time has reached a predetermined time.
  • step Sq8 If it is determined in step Sq8 that the state data is "0”, the pattern 55 is extracted when the chip ID is received by the active antenna 54 in the previous time. It is determined in step Sq9 that the pattern 55 has been returned at the time of this reception, and after proceeding to Sql3, the status data is updated from “0” to “1”, then proceeds to the step of Sql4 and the time set in S ql 1 Exit.
  • the process proceeds to the step of Sql 5 to execute ID reading processing.
  • ID reading process an electromagnetic wave is supplied from the passive antenna 53 to the RF-ID module 4 to read all the RF-ID modules 4 stored in the golf bag 5 ', that is, The RF—ID module 4 of the golf club 8 other than the putter 55 stored in the golf bag 5 ′ at the time is read, and each read ID is temporarily stored.
  • Step Sql 6 the ID read and stored in the ID reading process of Sql 5 and the type stored in the stored club ID table are "0", that is, golf other than putter 55
  • the ID of Club 8 is checked and it is determined in Step Sql 7 whether or not all IDs match. If they match, the process returns to Sql and shifts to the standby state of Sq;! ⁇ Sq3.
  • step Sql 8 the process proceeds to step Sql 8, and each step of Sql8 to Sq20, which is the same processing as each step of Sp22 to Sp24 in FIG.
  • the loss notification sound and the loss warning message are output until the stop operation is performed, and it is continuously notified that the loss has occurred.
  • the RF-ID modules 4 and 44 and the coil antenna 31 provided in the putters 45 and 55 stored in the golf bags 5 and 5 ′ and the golf clubs 8 The possibility of interposing the shafts of putters 45 and 55 and other golf clubs 8 between them is greatly reduced, so that the stored putters 45 and 55 as well as the RF — ID module 4 provided for each golf club 8 Therefore, it is possible to provide a golf club loss prevention device with less malfunctions.
  • the upper surface or the bottom of the bottom member 7 constituting the bottom of the golf bag Since 54 is arranged, the distance between the RF—ID modules 4 and 44 and the coil antenna 31, the passive antenna 53 and the active antenna 54 can be made very small, and these RF—ID modules 4 and 44 and the coil antenna 31, passive antenna 53, active antenna 54, shafts of other golf clubs, etc. can be virtually eliminated, so RF-ID modules 4, 44 can be read more reliably. It is possible to provide a golf club loss prevention device that can be implemented and that has fewer malfunctions.
  • the RF ID module 4, 44 force, and the grip end of the S grip portion 9 are detachable. Therefore, even if the golf club is changed, the changed golf club The RF—ID modules 4 and 44 can be easily replaced.
  • the RF ID module 4 since the RF ID module 4 has the same shape as the ball marker, the RF ID module 4 can be easily attached and detached, and the golf club 8 can be used. It is possible to prevent as much as possible that the feeling of feeling is impaired by these RF—ID modules 4, that is, the RF—ID module 4 becomes an obstacle to play.
  • reading of the RF-ID modules 4 and 44 is performed intermittently, and thus power for operating the RF-ID modules 4 and 44 is generated during these readings.
  • the number of times of electromagnetic wave output can be reduced, so that the power consumption of the main devices 1 and 1 ′ can be suppressed, and the battery consumption can be reduced.
  • a play mode is set so that a predetermined matching condition, that is, If the specified time has not passed or the putters 45 and 55 have not been returned, notification based on the verification result will not be carried out. Therefore, the trouble of being notified each time the golf club 8 is removed can be eliminated. If you are not in play, such as when you are in the house, you can set a storage mode to notify you each time you remove the golf club 8, so that a third party can steal the golf club. Can be prevented.
  • the RF ID provided in the putter 55 Since the module 44 is an active RF—ID module having a relatively large communicable distance, the identification information can be read.
  • the second embodiment when a chip ID, which is identification information, is received from the active RF-ID module 44 provided in the putter 55, reading and verification may be performed. Therefore, the number of readings of the RF—ID module 4 that requires relatively large power can be reduced, so that the power consumption of the main device 1 ′ can be greatly reduced, and the consumption of the battery 25 can be greatly reduced.
  • the optical sensor 65 is provided, and the storage is detected based on the non-detection of the external light. Therefore, the putter 55 is mistakenly extracted halfway during the play. Even if it is returned as such, it is possible to avoid unintentional detection of extraction or storage, and unnecessary reading and collation are performed, and storage is not detected when putter 55 is stored halfway. It can also be avoided that reading and verification are not performed.
  • the coil antenna 31, which is the antenna, the passive antenna 53, and the active antenna 54 are positioned near the bottom of the golf bag 5, 5 ', and the top surface of the bottom member 7 or the bottom member 7 As shown in FIG. 15, a coil antenna is installed at the lower end of the cylindrical case 6 to which the bottom member 7 is attached.
  • Circular antenna unit 34 that can be wound around the outer periphery of cylindrical case 6 with built-in 33 may be arranged! /.
  • the RF ID modules 4 and 44 are attached to the grip end of the grip part 9. This is preferable because it is possible to prevent the RF-ID modules 4 and 44 from interfering during play, but the present invention is not limited to this.
  • the RF—ID module may be provided at the end position of the grip portion opposite to the grip end, or may be formed inside the elastic body of the grip portion.
  • the RF-ID modules 4 and 44 are detachably attached to the grip part 9, but the present invention is not limited to this.
  • the RF-ID modules 4 and 44 are not limited to this. It is good also as a grip built in a part.
  • the power of reading the RF-ID modules 4 and 44 intermittently based on the passage of a predetermined time.
  • the present invention is not limited to this. May be carried out continuously at all times.
  • the power for storing a unique chip ID in each RF ID chip 42 is not limited to this.
  • the chip IDs of golf clubs other than putters are the same ID.
  • the chip IDs of golf clubs other than the putter are registered along with the number of them, and when reading, the chip IDs of gonoref clubs other than the putter are sequentially read and registered in the stored club ID table. The number of times may be counted every time the chip ID of a golf club other than the putter is matched, and a notification may be given if the number does not match the registered number.
  • the passive antenna 53 and the active antenna 54 are individually provided.
  • the present invention is not limited to this, and the passive antenna 53 and the active antenna 54 are the same. It is good also as an antenna.
  • the force using the optical sensor 65 as the storage detection means is not limited to this.
  • the storage detection means may be a golf club 8 or not 45. , 55, the load of golf clubs 8 and 45, 55 is applied to the end faces of the RF ID modules 4 and 44. By detecting the presence or absence of these loads with a piezoelectric element, You may make it detect storage and extraction.
  • the active RF-ID module 44 is provided only on the putter 55. By doing this, the replacement of the battery 64 is performed only on the putter 55. This is preferable because it can reduce the work load and battery cost of replacement, and the present invention is not limited to this.
  • the RF—ID module 44 is provided in all golf clubs 8 except the putter 5 5. In addition to these putters 55, it may be attached to a wedge used for an approach or the like.

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  • Health & Medical Sciences (AREA)
  • General Health & Medical Sciences (AREA)
  • Physical Education & Sports Medicine (AREA)
  • Golf Clubs (AREA)

Abstract

La présente invention concerne un dispositif de prévention de perte de clubs de golf avec un dysfonctionnement réduit. Un module RFID (4) est fixé sur la poignée (9) de chaque club de golf (8, 45) reçu de manière inversée dans le dispositif. Une antenne (31) reliée à une unité de lecture RFID (22) et communiquant avec les modules RFID (4) par une onde électromagnétique est installée dans un sac de golf (5) près de sa partie inférieure où se place la poignée (9) du club de golf de chaque club de golf placé de manière inversée (8).
PCT/JP2007/068687 2006-09-28 2007-09-26 Dispositif de prévention de perte de club de golf Ceased WO2008038668A1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
JP2006265409A JP2008079965A (ja) 2006-09-28 2006-09-28 ゴルフクラブ紛失防止装置
JP2006-265409 2006-09-28

Publications (1)

Publication Number Publication Date
WO2008038668A1 true WO2008038668A1 (fr) 2008-04-03

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PCT/JP2007/068687 Ceased WO2008038668A1 (fr) 2006-09-28 2007-09-26 Dispositif de prévention de perte de club de golf

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WO (1) WO2008038668A1 (fr)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2009117100A3 (fr) * 2008-03-17 2010-06-24 Radar Corporation Enregistreur de données de golf avec pense-bête pour club manquant intégré et système antivol
WO2010144863A3 (fr) * 2009-06-12 2011-02-03 Radar Corporation Appareils et procédés pour club de golf
JP2014198097A (ja) * 2013-03-29 2014-10-23 ダンロップスポーツ株式会社 ゴルフクラブ、及びこれに取付けられるセンサユニット

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Publication number Priority date Publication date Assignee Title
JPH07328154A (ja) * 1994-06-10 1995-12-19 Akira Hara ゴルフクラブ本数確認装置
JPH08131589A (ja) * 1994-11-07 1996-05-28 Daiwa Seiko Inc キャデイバック及びクラブ検出方法
JP2001022834A (ja) * 1999-07-05 2001-01-26 Fuji Xerox Co Ltd 物品持ち出し管理システム
JP2003190334A (ja) * 2001-12-21 2003-07-08 Yokohama Rubber Co Ltd:The ゴルフクラブ用エンドチップ及びゴルフクラブ
US6967563B2 (en) * 1999-06-11 2005-11-22 Ronald Bormaster Inventory control system
JP2007167195A (ja) * 2005-12-20 2007-07-05 Uchida Yoko Co Ltd ゴルフクラブ管理装置

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH07328154A (ja) * 1994-06-10 1995-12-19 Akira Hara ゴルフクラブ本数確認装置
JPH08131589A (ja) * 1994-11-07 1996-05-28 Daiwa Seiko Inc キャデイバック及びクラブ検出方法
US6967563B2 (en) * 1999-06-11 2005-11-22 Ronald Bormaster Inventory control system
JP2001022834A (ja) * 1999-07-05 2001-01-26 Fuji Xerox Co Ltd 物品持ち出し管理システム
JP2003190334A (ja) * 2001-12-21 2003-07-08 Yokohama Rubber Co Ltd:The ゴルフクラブ用エンドチップ及びゴルフクラブ
JP2007167195A (ja) * 2005-12-20 2007-07-05 Uchida Yoko Co Ltd ゴルフクラブ管理装置

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2009117100A3 (fr) * 2008-03-17 2010-06-24 Radar Corporation Enregistreur de données de golf avec pense-bête pour club manquant intégré et système antivol
US8226495B2 (en) 2008-03-17 2012-07-24 Radar Corporation Golf data recorder with integrated missing club reminder and theft prevention system
US8624738B2 (en) 2008-03-17 2014-01-07 Radar Corporation Golf club apparatuses and methods
WO2010144863A3 (fr) * 2009-06-12 2011-02-03 Radar Corporation Appareils et procédés pour club de golf
JP2014198097A (ja) * 2013-03-29 2014-10-23 ダンロップスポーツ株式会社 ゴルフクラブ、及びこれに取付けられるセンサユニット

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