JP2004121333A - Golf cart and operation management device of golf cart - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a golf cart and an operation management device of a golf cart that is simple in structure, and makes players unerringly aware of the condition of a play when the progress of the play becomes fast or slow. <P>SOLUTION: The golf cart travels along a prescribed course 50. A a reception circuit 32a receiving a time from a contactless IC tug 51 storing a passage time of the golf cart and sending the time stored to a following golf cart is provided in the course 50. An operation management device displays the status of progress of the play corresponding to the space with respect to a preceding golf cart depending on the time received by the reception circuit 32a to the displays section of the following golf cart. When the progress of the play becomes fast or slow, the players can unerringly be aware of the condition. Since the contactless IC tag storing passage times does not require a large power source, the management device can manage the operation of the golf carts by a simple structure. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a golf cart traveling on a predetermined traveling path and an operation management device for the golf cart.
[0002]
[Prior art]
Conventionally, this kind of golf cart and a golf cart operation management device are provided with an interrogator at a predetermined position where the golf cart runs, and a golf cart is provided with a transponder which can communicate with the interrogator, as shown in Patent Document 1. When the answering device comes into a range where it can communicate with the interrogator, it starts counting time, and when a subsequent golf cart comes, the time interval with the previous golf cart is indicated by an indicator connected to the interrogator. The operation control device to be displayed in is shown.
[0003]
When the distance from the previous golf cart is longer than a predetermined time, it is judged that the progress of the play is slow, and a display indicating that the play is slow is given to the player to alert the player.
[0004]
However, with such a device, when the golf cart passes in front of the device, a warning is issued, but when the golf cart passes, the warning is not given, and even if the warning is continued after passing, the player is accompanied by the golf cart. Has a problem that it is difficult for the player to recognize that the player is late. In addition, such a device must be installed at each point on the travel path of the golf cart, and a display device and a device that constantly transmits signals must be provided. Therefore, the device becomes large-scale and power supply equipment is required. There was a problem.
[0005]
[Patent Document 1]
JP-A-2001-299981
[0006]
[Problems to be solved by the invention]
SUMMARY OF THE INVENTION It is an object of the present invention to provide a golf cart and a golf cart operation management device that have a simple configuration and that allow a player to reliably recognize the state of progress when play progresses late or early.
[0007]
[Means for Solving the Problems]
The present invention relates to a golf cart traveling along a predetermined traveling path, wherein a non-contact IC tag provided on the traveling path, stores a passing time of the golf cart, and transmits the stored time to a subsequent golf cart. A receiving circuit for receiving the time information, and a display unit for displaying the time received by the receiving circuit.
[0008]
Also, in a golf cart traveling along a predetermined traveling path, a time from a non-contact IC tag provided on the traveling path, storing a passing time of the golf cart and transmitting the stored time to a subsequent golf cart. A reception circuit for receiving information is provided, and the time received by the reception circuit is transmitted to a central control room provided at a golf course.
[0009]
Further, the golf cart is provided with timing means for measuring the time, and a transmission circuit for transmitting the time measured by the timing means to the non-contact IC tag.
[0010]
The non-contact IC tag is provided with a time keeping means for keeping time, and stores the time when the golf cart passes.
[0011]
Further, the transmission circuit transmits an identification number given to each golf cart to the non-contact IC tag.
[0012]
A non-contact IC tag that stores the time of passage based on a signal from a transmission circuit provided in the golf cart and transmits the stored time to a subsequent golf cart is provided on a traveling path on which the golf cart travels. Is provided.
[0013]
Further, the golf cart is provided with timing means for measuring the time, and a transmission circuit for transmitting the time measured by the timing means to the non-contact IC tag.
[0014]
The non-contact IC tag is provided with a time keeping means for keeping time, and stores the time when the golf cart passes.
[0015]
Further, the transmission circuit transmits an identification number given to each golf cart to the non-contact IC tag.
[0016]
BEST MODE FOR CARRYING OUT THE INVENTION
A golf cart and an operation management device for the golf cart according to an embodiment of the present invention will be described with reference to FIGS.
[0017]
First, a block diagram of a control circuit in a golf cart is shown in FIG. 1, and an overall perspective view of a golf cart main body is shown in FIG. 2. The overall configuration will be described with reference to the drawings.
[0018]
1 is provided with a manual mode in which the user can drive and manually travel, and an automatic mode in which the user can ride and automatically travel along a guide line 49 embedded in a travel path 50 described later. The golf cart main body 1 travels with a golf bag mounted thereon, and the golf cart main body 1 runs using the traveling motor 17 as a drive source.
[0019]
Reference numeral 2 denotes a base provided on a main frame (not shown) and provided in the front-rear direction of the main body 1. The base 2 has a seat 3 for a user to ride on and a steering wheel for steering. A front wheel 4 serving as a steering wheel and a rear wheel 5 serving as a driving wheel are provided.
[0020]
Reference numeral 6 denotes a handle provided at a position where the user can operate while sitting on the seat 3 when the manual mode is selected, and for steering the front wheel 4 by operation.
[0021]
Reference numeral 7 denotes a carrier for mounting a golf bag, which is provided at the rear of the golf cart main body 1 so that the oblique rear portion extends upward.
[0022]
Reference numeral 8 denotes a resin front cowl that covers a connecting portion between the handle 6 and the front wheel 4. The front cowl 8 has a lid 9 at the center thereof. It is a glove compartment for storing.
[0023]
Reference numeral 10 denotes a transparent resin front shield provided at an upper portion of the front cowl 8 at a front portion of the main body 1, and a resin roof 11 covering the upper portion of the seat 3 is provided from the upper portion of the front shield 10 to the rear. Is provided. Further, the rear portion of the roof 11 is supported by two columns 12 provided upward from the vicinity of the loading platform 7.
[0024]
Next, a block diagram of the control circuit (FIG. 1) will be described.
[0025]
Reference numeral 13 denotes a control circuit for controlling the traveling of the golf cart main body 1. The control circuit 13 includes a main CPU 14, which is a microcomputer, a guidance sensor processing CPU 15, and a non-contact IC tag information processing CPU 16, and the main CPU 14 And a signal for performing control for steering, control for steering, control for braking, and the like. Further, the main CPU 14 has a clock function as a time measuring means so that the current time can be known. The guidance sensor processing CPU 15 is a microcomputer for processing a signal from the guidance sensor 33 described later, and the non-contact IC tag information processing CPU 16 processes control information transmitted from a non-contact IC tag 51 described later. Microcomputer for the purpose. The main CPU 14 is connected to the guidance sensor processing CPU 15 and the non-contact IC tag information processing CPU 16 by serial communication. By configuring the control circuit 13 with a plurality of microcomputers in this way, the processing speed of the arithmetic operation is increased, and even in the case of partial damage or the like, only the damaged microcomputer needs to be replaced. This has the effect of simplifying repairs.
[0026]
Reference numeral 17 denotes a travel motor serving as a drive source for rotating and driving the rear wheel 5. The travel motor 17 is controlled by a motor controller 19 based on a signal from the main CPU 14 for driving.
[0027]
Reference numeral 18 denotes a battery which is appropriately charged by a charger 20 when one round is completed, and supplies power to a motor controller 19, a traveling motor 17, a brake motor 23, a handle motor 26, a parking brake 24, and a steering motor 25 described later. At the same time, power is supplied to the other components (the control circuit 13 and detection means such as the display unit 45 and the ultrasonic sensor 35 described later) via the step-down circuit 21. The remaining amount of power of the battery 18 is detected by the remaining amount sensor 21, and the detected value is output to the main CPU 14.
[0028]
Reference numeral 22 denotes an automatic / manual detection unit provided on the front surface of the seat 3 for detecting switching of a traveling mode by a user's switching of a switch 51. The automatic / manual detection unit 22 includes a traveling mode selected by the user. Is input to the main CPU 14.
[0029]
Reference numeral 23 denotes a brake motor for adjusting the braking force of a brake (not shown) (not shown) which is operated by hydraulic pressure provided on the front wheel 4 and the rear wheel 5. PWM control is performed by this signal.
[0030]
Numeral 24 denotes a parking brake composed of an electromagnetic brake for stopping the main body 1. When the parking brake 24 is energized, the braking force is released, and when not energized, the braking force is applied by a spring force. When the power is not supplied, a braking force is applied in the middle of the drive system near the traveling motor 17, and the rear wheel 5 is operated to be fixed.
[0031]
Reference numeral 25 denotes a steering motor connected to the main CPU 14 and operating based on a control signal from the main CPU 14. The steering motor 25 steers the front wheels 4 with a driving force of only the steering motor 25 when the automatic mode is selected. When the manual mode is selected, the power of the steering motor 25 operates in addition to the human power for operating the steering wheel 6.
[0032]
Reference numeral 26 denotes a handle motor provided in the middle of the handle 6 for electrically connecting and disconnecting the mechanical connection between the handle 6 and the front wheel 4 when the automatic mode is selected and when the manual mode is selected. When the mode is switched to the mode, the steering wheel 6 is fixed so as not to be operated, and when the mode is switched to the manual mode, the front wheel 4 is electrically operated so as to be connected so as to be steered with the operation of the steering wheel 6.
[0033]
Reference numeral 27 denotes a brake switch configured to output a signal when a user operates a brake pedal (not shown). When a signal is output from the brake switch 27 when the automatic mode is selected, the main CPU 14 outputs a brake motor 23. Is output, and the parking brake 24 is operated after a predetermined time has elapsed.
[0034]
Reference numeral 28 denotes a brake home switch for detecting the initial operation of the operation amount of the brake motor 27. When the switch 28 is turned on, it detects that the brake is not operating.
[0035]
Reference numeral 29 denotes a brake limit switch for detecting the end of the operation of the operation amount of the brake motor 27. When the brake limit switch 29 is operating, it detects that the braking amount of the brake is operating fully. .
[0036]
Reference numeral 30 denotes brake oil detecting means for detecting whether or not the hydraulic pressure of the brake is appropriate.
[0037]
Reference numeral 31 denotes an inclination sensor provided on the golf cart body 1 for detecting an inclination angle of the golf cart body 1. The inclination sensor 31 converts the detected inclination angle into a voltage value and inputs the voltage value to the main CPU 14. The control at the time of starting or stopping is performed based on this value.
[0038]
A receiving circuit 32a is provided in the golf cart body 1, receives control information of a non-contact IC tag 51 described later via an antenna 32b, and outputs the received control information to the non-contact IC tag information processing CPU16.
[0039]
The non-contact IC tag information processing CPU 16 detects a speed instruction signal (high speed H = 10 km / h, medium speed M = 6 km / h, low speed L = 3 km / h) based on the control information, and outputs it to the main CPU 14. The normal stop signal is detected. Further, after detecting that the distance to the front golf cart body 1 is equal to or less than a predetermined distance and stopping, when the distance to the front golf cart main body 1 becomes equal to or more than the predetermined distance again, automatically. A signal of a follow-up setting for starting the golf cart body 1 or a follow-up release signal that does not start automatically is detected and output to the main CPU 14. The time information engraved by the previous golf cart is also detected by the non-contact IC tag information processing CPU 16, and the main CPU 14 calculates a time difference from the time information and the current time. The display unit 45 displays whether it is too early.
[0040]
Reference numeral 32c denotes a transmission circuit provided in the golf cart body 1, which is controlled by the non-contact IC tag information CPU 16 and transmits a transmission signal A for transmitting control information as shown in FIG. Also, a code B of the identification number given to each golf cart is transmitted after A, and then a current time signal C is output. As described above, by transmitting the signal continuously from A to C twice, the reading error of the signal is reduced. Further, the transmission circuit 32c transmits the calculation result of the difference between the time information input from the non-contact IC tag 51 and the current time to the central control room for managing the operation of the golf cart.
[0041]
Reference numeral 33 denotes a pair of guidance sensors provided on the golf cart body 1 and rotated left and right with the steering of the front wheel 4 to be steered. The guidance sensors 33 detect electromagnetic waves generated from the guidance lines 49, and The front wheels 4 are steered so that the detection levels of the guidance sensor 33 are the same. Therefore, when the front wheel 4 is steered, the guidance sensor 33 is also rotated left and right, so that the steering is performed so that the guidance line 49 is located at the center of the pair of guidance sensors 33.
[0042]
Numeral 34 denotes a cart guard as a collision preventing means comprising a receiver provided at the front part of the golf cart body 1 and a transmitter provided at the rear part thereof. It receives an electromagnetic wave from the device and outputs an emergency stop signal to the main CPU 14 when the signal received by the receiver reaches a predetermined signal level. In addition, an electromagnetic wave is transmitted from the transmitter to the golf cart body 1 at the rear.
[0043]
Reference numeral 35 denotes an ultrasonic sensor as an obstacle detecting means for detecting an obstacle in front by the reflection of ultrasonic waves. The ultrasonic sensor 35 also transmits an emergency stop signal when the distance from the obstacle reaches a predetermined distance. Is output to the main CPU 14.
[0044]
The main CPU 14 performs braking by the brake motor 23 and power generation of the traveling motor 27 based on a normal stop signal detected by the non-contact IC tag information processing CPU 16 and an emergency stop signal detected by the cart guard 34 or the ultrasonic sensor 35. Perform regenerative braking.
[0045]
Reference numeral 36 denotes an encoder for detecting the rotation speed of the rear wheel 5. A signal detected by the encoder 36 is input to the main CPU 14, and the main CPU 14 calculates a traveling speed, a traveling distance, and the like. . In addition to the encoder 36, a sub-encoder 37 for detecting the rotation speed of the rear wheel 5 is also provided. The signal of the sub-encoder 37 is also input to the main CPU 14, and the encoder 36 operates normally based on this signal. It is provided to determine whether the encoder 36 is operating or to use it as a main encoder when the encoder 36 becomes abnormal.
[0046]
Reference numeral 38 denotes a torque sensor provided on the handle 6 axis for detecting an operation torque due to the operation of the handle 6. The torque sensor 38 is connected to the main CPU 14, and the operation torque is input as an electric signal. The steering motor 25 operates accordingly.
[0047]
A bumper switch 39 is attached to a bumper 40 provided at the front of the golf cart body 1 and operates when an obstacle or the like comes into contact with the bumper 40. An emergency stop signal is input to the CPU 14. Then, when the emergency stop signal is input, the main CPU 14 performs the regenerative braking of the traveling motor 17 and the braking by the brake motor 23 most strongly to stop.
[0048]
An accelerator switch 41 is provided near the accelerator and outputs a signal to the main CPU 14 when a user operates the accelerator. The accelerator switch 41 starts by a signal input from the accelerator switch 41 when the automatic driving mode is selected. It is supposed to.
[0049]
Reference numeral 42 denotes a forward / reverse switch which is provided at a position operable by the user and instructs the traveling direction by the user. The forward / backward switch 42 is connected to the main CPU 14 to determine which of forward and reverse is switched. The traveling motor 17 is driven so as to travel in the direction instructed by the input of the signal.
[0050]
Reference numeral 43 denotes a start / stop switch which is provided at a position where the user can operate and instructs the golf cart main body 1 to stop moving when the automatic mode is selected. The start / stop switch 43 is operated. Sometimes, the start signal and the normal stop signal are alternately input to the main CPU 14, and the drive of the traveling motor 17 is started and stopped based on the signal input.
[0051]
Reference numeral 44 denotes a remote control receiver for receiving a signal from a remote controller for remotely controlling the start and stop of the golf cart main body 1. The remote control receiver 44 is also connected to the main CPU 14 and is controlled to travel by the received signal. It has become. The remote control is provided with one operation button, and a signal is output when the operation button is pressed. When a signal is input while the golf cart body 1 is running, a normal stop signal is output. Is input to the main CPU 14 to control the stop, and when a signal is input during the stop, the start is controlled.
[0052]
Reference numeral 45 denotes a display unit provided at a position where the user comes to the front when the user gets on the seat 3. The display unit 45 displays the remaining battery level, the selected driving mode, and the front golf course. Whether the progress is delayed or advanced for the cart is displayed.
[0053]
Next, the operation of the above configuration will be described.
[0054]
When the automatic manual detection means 22 detects the selection of the manual mode and starts traveling, when the accelerator is operated, the traveling motor 17 is driven by a driving force according to the instruction value from the accelerator. As a result, the rear wheel 5 rotates to start traveling, and the parking brake 24 is released simultaneously with the start of traveling.
[0055]
When stopping, the brake motor 23 operates with a braking amount corresponding to the operation amount of the brake, and the parking brake 24 operates when the encoder 36 detects that the vehicle speed is zero.
[0056]
As for steering during traveling, the front wheels 4 are steered according to the operation of the steering wheel 6, and at the same time, the operating torque of the steering wheel 6 is detected by the torque sensor 38. The steering motor 25 is driven in accordance with this torque, and a driving force is applied so as to assist the operating force of the steering wheel 6.
[0057]
Next, the case where the automatic mode is selected will be described.
[0058]
When the start / stop switch 43 is pressed while the vehicle is stopped, the parking brake 24 is released and the traveling motor 17 starts driving. The traveling speed at this time is set to 10 km / h for high speed H, 6 km / h for medium speed M, and 3 km / h for low speed L based on a speed instruction signal from a non-contact IC tag 51 described later. While traveling speed is detected by the encoder 36, the traveling speed is adjusted by driving the traveling motor 17 and the driving of the brake motor 23 so as to reach the set speed. Then, the front wheel 4 is steered and travels along a guide line 49 buried in the road surface by an operation of a guide sensor 33 described later.
[0059]
Next, the operation of the steering portion in the automatic mode will be described with reference to FIG.
[0060]
Reference numeral 46 denotes a guidance sensor arm having the guidance sensor 33 attached to a tip end thereof. The arm 46 is connected so as to rotate together with left and right steering of the front wheel 4. A gear 47 is provided in the middle of the arm 46, and this gear 47 is designed to be connected to a gear 48 provided on the output shaft of the steering motor 25.
[0061]
In the steering of the golf cart body 1, when the automatic mode is selected, a magnetic field from the guide wire 49 buried in the road surface is detected by the pair of guide sensors 33 while running, and the signal levels of the two guide sensors 33 are made equal. The front wheels 4 are steered so that Describing a specific signal flow, a magnetic field generated from the guide wire 49 is received by each of the guide sensors 33 and input to the guide sensor processing CPU 15. Then, the signal levels of the two guidance sensors 33 are compared to calculate which one is shifted to the left or right, and a signal is sent from the main CPU 14 to the steering motor 25 so that the center of the pair of guidance sensors 33 is on the guidance line 49. Is output, and the front wheels 4 are steered by driving of the steering motor 25. By steering the front wheel 4, control is performed such that the guide line 49 is located at the center of the two guide sensors 33.
[0062]
Next, a non-contact IC tag 51 as a travel sign embedded in the travel path 50 and a writer 58 for writing control information to the non-contact IC tag 51 will be described.
[0063]
Reference numeral 51 denotes a non-contact IC tag for transmitting control information to the golf cart body 1, near the guide line 49 of the traveling path 50 as shown in FIGS. It is buried at a more remote location. In the non-contact IC tag 51, as shown in FIG. 4, a control circuit 54 having a storage unit 53 is connected to a reception circuit 55 and a transmission circuit 56, and an antenna 57 is connected to the reception circuit 55 and the transmission circuit 56. It operates with a built-in battery 52 as a power supply.
[0064]
The control information as shown in FIG. 9 is mainly coded and stored in the storage unit 53 in a rewritable manner. The receiving circuit 55 receives a transmission signal (FIG. 6) from the golf cart main body 1 and transmits a control signal from a writer 58 to be described later. , And outputs it to the control unit 54.
[0065]
Here, the golf cart transmission signal is output as a pulse A having a predetermined width, an identification number B assigned to each golf cart, and time information C by a clock means, which is constituted by a pulse. The pulse indicates that the golf cart is approaching.
[0066]
When the golf cart transmission signal from the receiving circuit 55 is output to the control unit 54, the control unit 54 transmits the coded control information stored in the storage unit 53 to a transmission signal (here, one example (Indicating the signal A indicating the traveling speed of 3 km and the time information signal B when the preceding golf cart has passed) are transmitted from the transmission circuit 56 via the antenna 57 a plurality of times (here, twice).
[0067]
When a write instruction signal (consisting of a part A indicating a write instruction signal and a part B indicating control information) from the receiving circuit 55 is output to the control unit 54, the control unit 54 The part B of the signal is written into the storage unit 53.
[0068]
The non-contact IC tag 51 is buried in each part of the travel path 50 as shown in FIG. 10, and specifically, stores the following control information. Here, TG in the figure is a tea ground, and G is green.
[0069]
The non-contact IC tag 51b embedded near the tee ground TG of each hole stores control information including a stop signal, a speed instruction signal (medium speed M in this case), and a time when the golf cart has passed. In the non-contact IC tag 51c provided at the middle position of the hall, control information including a stop signal and a speed instruction signal (here, high speed H is set here because a flat straight section continues). It is remembered.
[0070]
The non-contact IC tag 51d provided near the green G stores control information including a stop signal and a speed instruction signal (here, medium speed M).
[0071]
In the non-contact IC tag 51e buried at a place where a long straight line starts with good visibility, a speed instruction signal of a high speed H is stored as control information, and is provided before a sharp curve or a steep downhill. The non-contact IC tag 51f stores a low-speed L speed instruction signal as control information.
[0072]
In the non-contact IC tag 51g, a speed instruction signal indicating an intermediate speed H as a normal traveling speed is stored as control information.
[0073]
Reference numeral 58 denotes a writer for writing control information to the non-contact IC tag 51, which has a built-in battery 59 as a power source as shown in FIG. The writer 58 has a configuration in which an input circuit 61, a transmission switch 62, a transmission circuit 63, a reception circuit 64, and a display unit 65 are connected to the control unit 60, and an antenna 64 is connected to the transmission circuit 63.
[0074]
The control information can be input from the input circuit 61 with the code shown in FIG. 9. The input control information is output to the control unit 60 and displayed on the display unit 65. Then, when the transmission switch 62 is pressed, the control unit 60 controls the unit A for recognizing the write instruction signal as shown in FIG. 8 and the unit B as control information output to the control unit 60 (here, the traveling speed). 3 km) to form a write instruction signal, and this write instruction signal is transmitted from the transmission circuit 63 via the antenna 64. By operating the receiving circuit 64, the control information of the embedded non-contact IC tag 51 can be read and the content of the control information can be confirmed on the display unit 65.
[0075]
In the automatic mode, the golf cart body 1 configured as described above travels along the guide line 49 by detecting an electromagnetic wave from the guide line 49 while transmitting a transmission signal as shown in FIG. 6 at predetermined time intervals. .
[0076]
When the golf cart main body 1 reaches the vicinity of the non-contact IC tag 51 buried in various places on the traveling path 50, a transmission signal from the transmission circuit 32c of the golf cart main body 1 is received by the reception circuit 55 of the non-contact IC tag 51. Become so. When the transmission signal is received by the reception circuit 55, the control unit 54 of the non-contact IC tag 51 transmits the control information stored in the storage unit 53 from the transmission circuit 56 via the antenna 57 as a transmission signal as shown in FIG. I do. The transmission signal is received by the reception circuit 32a of the golf cart body 1, and control information is detected from the transmission signal. The traveling speed and the like are set based on the detected control information, and the vehicle travels. The control information also includes time information, and the time when the preceding golf cart has passed this location is notified to the succeeding golf cart. By calculating the time difference, the interval from the preceding golf cart is detected, and whether the vehicle is late or too early is displayed on the display unit 45.
[0077]
In the present embodiment, the golf cart is provided with a clock function, and time information is incorporated in the golf cart transmission signal and transmitted. However, the non-contact IC tag 51 is provided with a function of counting time, and the preceding golf cart is provided. It may be possible to count the time after passing through and transmit the counted time to the subsequent golf cart.
[0078]
In addition, it is desirable to use a non-contact IC tag 51 (common name: 3R tag) that stores information such as an identification number for recycling used in home electric appliances and the like as a traffic sign. Any device that transmits control information may be used.
[0079]
Although the golf cart travels with the travel motor 17 using the battery 18 as a power source, the golf cart travels with an engine.
[0080]
Further, in the present embodiment, the time counting means is provided in the main CPU 14, but the time measurement means is provided in the non-contact IC tag 51, and stores the time when the preceding golf cart passes, and stores the time when the succeeding golf cart passes. The control signal may be transmitted together with the information.
[0081]
Further, in the present embodiment, the battery 52 is provided as a power source for the non-contact IC tag 51. May be used.
[0082]
【The invention's effect】
According to the present invention, the passing time of the preceding golf cart is stored by the non-contact IC tag, and the stored time is transmitted to the succeeding golf cart and displayed on the display unit provided in the golf cart. When the player is late or hastened, the player can reliably recognize the condition. Further, since a large power supply device is not required for the non-contact IC tag that stores the passing time, there is an effect that the operation management of the golf cart can be performed with a simple configuration.
In addition, in order to transmit the time received by the reception circuit provided in the golf cart to the central control room provided in the golf course, in addition to performing the operation management of the golf cart in the central control room, and to transmit information from the golf cart, There is an effect that a large power supply for the transmission device is not required on the traveling path.
[0083]
Further, since the golf cart is provided with a clocking means for clocking the time, it is only necessary to provide a power supply for operating the clocking means in the golf cart, so that there is no need to provide a large power supply device on the traveling path. Play.
[0084]
Since the non-contact IC tag is provided with a timer for measuring the time, there is no need to transmit time information from the golf cart, and there is an effect that an erroneous signal such as noise is not transmitted during transmission. .
[0085]
Further, since the transmitting circuit transmits the identification number given to each golf cart to the non-contact IC tag, it is possible to determine which golf cart is the time information from, and thus it is very effective for operation management. Has the effect of
[Brief description of the drawings]
FIG. 1 is a control block diagram showing an embodiment of the present invention.
FIG. 2 is an overall perspective view of the golf cart body.
FIG. 3 is a schematic view of a main part of the golf cart body.
FIG. 4 is a block circuit diagram of a non-contact IC tag as a travel sign of the golf cart.
FIG. 5 is a block circuit diagram of a writer for performing writing to the fourth non-contact IC tag.
FIG. 6 is a diagram showing a transmission signal transmitted from the golf cart.
FIG. 7 is a diagram showing an example of a transmission signal transmitted from a non-contact IC tag as a travel sign of the golf cart.
FIG. 8 is a diagram showing an example of a write instruction signal to a non-contact IC tag as a travel sign of the golf cart.
FIG. 9 is a view showing control signals of the golf cart.
FIG. 10 is a view showing a traveling path on which the golf cart travels.
[Explanation of symbols]
1 Golf cart body 50 Running path 51 Non-contact IC tag (running sign)
32a receiving circuit 45 display unit 32c transmitting circuit

Claims (9)

In a golf cart traveling along a predetermined traveling path, time information from a non-contact IC tag provided on the traveling path, storing a passing time of the golf cart, and transmitting the stored time to a subsequent golf cart. A golf cart comprising a receiving circuit for receiving, and a display unit for displaying the time received by the receiving circuit. In a golf cart traveling along a predetermined traveling path, time information from a non-contact IC tag provided on the traveling path, storing a passing time of the golf cart, and transmitting the stored time to a subsequent golf cart. A golf cart comprising a receiving circuit for receiving, and transmitting a time received by the receiving circuit to a central control room provided at a golf course. 3. The golf cart according to claim 1, wherein the golf cart is provided with timing means for measuring time, and a transmission circuit for transmitting the time measured by the timing means to the non-contact IC tag. 4. Golf cart. 3. The golf cart according to claim 1, wherein the non-contact IC tag is provided with a clock unit that measures time, and stores a time when the golf cart passes. 4. The golf cart according to claim 3, wherein the transmission circuit transmits an identification number assigned to each golf cart to the non-contact IC tag. A non-contact IC tag that stores the time of passage based on a signal from a transmission circuit provided in the golf cart and transmits the stored time to a subsequent golf cart is provided on a traveling path on which the golf cart travels. An operation management device for a golf cart. 7. The golf cart according to claim 6, wherein the golf cart is provided with timing means for timing the time, and a transmission circuit for transmitting the time measured by the timing means to the non-contact IC tag. Operation management device. 7. The golf cart operation management device according to claim 6, wherein the non-contact IC tag is provided with a timer for measuring time, and stores a time when the golf cart passes. The operation management device for a golf cart according to claim 6, wherein the transmission circuit transmits an identification number assigned to each golf cart to the non-contact IC tag.

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