JP3243048U - golf laser rangefinder - Google Patents

Abstract

A golf laser distance measuring device that allows a golfer to concentrate on playing golf without being troublesome and does not need to be carried along with a smartphone. A golf laser rangefinder (10) is formed from a smartphone (11) and a laser irradiation unit (12) detachably installed on the smartphone (11). (pin) is reflected from the target and received by the light receiving element of the unit main body 14, the distance measuring means for measuring the distance to the target, and the measured distance measured by the distance measuring means. measured distance output means for outputting to the touch panel 29; angle measurement means for measuring the angle of the target with respect to the current position of the golfer on the golf course; and measured angle output means for outputting the measured angle measured by the angle measurement means to the touch panel 29. have [Selection drawing] Fig. 1

Description

The present invention relates to a golf laser rangefinder that uses a laser to measure the distance from a current position to a target on a golf course.

An output unit that outputs a laser beam from the main unit, a light receiving unit that receives the laser light reflected by the object, a distance calculation unit that calculates the distance to the object based on the light receiving result of the light receiving unit, and a main unit. An attachment hole for attaching to a tripod, a magnetic sensor that detects the posture of the main body, an acceleration sensor that detects the amount of movement of the main body, a detection unit that detects that the tripod is attached to the attachment hole, A laser distance measuring device is disclosed which includes a coil wound around a mounting hole, and a detection unit for detecting a change in the output of a magnetic sensor when the coil is energized before and after detection of a tripod by the detection unit. (See Patent Document 1). A golf laser range finder is used that is carried by a golfer playing on a golf course and uses a laser to measure the distance from the current position on the golf course to a target (target point).

JP 2021-117064 A

The golf laser rangefinder is owned by a golfer alone, and the golfer irradiates a laser from the golf laser rangefinder to a target (target point) while playing golf at a golf course, and measures the distance from his/her current position to the target. Measure the remaining distance of The golf laser range finder is molded into a substantially rectangular prism shape and is bulky due to its large size. Each time the remaining distance is measured, the golf laser range finder must be taken out of the housing and stored in the housing after the measurement, which is troublesome. You may not be able to concentrate on playing golf due to increased irritability. It should be noted that golfers generally hold a smart phone together with the golf laser range finder while playing golf, so they must carry both the golf laser range finder and the smart phone while playing golf.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a golf laser distance measuring device that allows a golfer to concentrate on playing golf without being troublesome, and that does not need to be carried along with a smart phone.

The premise of the present invention for solving the above problems is a golf laser distance measuring device that uses a laser to measure the distance from the current position to the target on the golf course.

The feature of the present invention on the above premise is that the golf laser distance measuring device is formed from a smartphone and a laser irradiation unit that is detachably installed on the smartphone, and the laser irradiation unit is an adapter that can be attached to and detached from the external connection terminal of the smartphone. , has a unit body connected to the smartphone with the adapter inserted into the external connection terminal, the unit body has a light-emitting element that irradiates the target with a laser through the irradiation lens, and receives the laser reflected from the target through the light-receiving lens. The smartphone measures the distance from the current position on the golf course to the target by receiving the laser beam emitted from the light emitting element toward the target and reflected from the target by the light receiving element. It has a measuring means and a measured distance output means for outputting the measured distance measured by the distance measuring means to a touch panel.

As an example of the present invention, a smart phone includes power feeding means for feeding predetermined power from its battery to a laser irradiation unit, and the laser irradiation unit to which power is fed from the smart phone by the power feeding means is transmitted from the light emitting element to the target. Shoot a laser at it.

As another example of the present invention, a smartphone includes aiming means for aiming a laser at a target output to the touch panel while outputting an image of the target to the touch panel using its digital camera function.

As another example of the present invention, a smart phone measures the angle of a target with respect to the current position on a golf course by having a laser emitted from a light-emitting element toward a target reflected from the target and received by a light-receiving element. It includes angle measuring means and measured angle output means for outputting the measured angle measured by the angle measuring means to the touch panel.

According to the golf laser distance measuring device according to the present invention, it is formed from a smartphone and a laser irradiation unit that is detachably installed on the smartphone, and the laser emitted from the light emitting element of the unit body toward the target is reflected from the target. The distance from the current position on the golf course to the target is measured by receiving light from the light-receiving element of the unit body. It is not necessary to carry both the large and bulky golf laser rangefinder and the smart phone, and the golfer can be relieved from the stress of playing while holding the golf laser rangefinder and the smart phone at the same time. The golf laser rangefinder allows the golfer to know the distance from the golfer's current position to the target by looking at the measured distance output (displayed) on the touch panel of the smartphone. The golf laser rangefinder frees the golfer from the trouble of taking out the bulky golf laser rangefinder from the storage location each time the remaining distance is measured and putting the golf laser rangefinder back in the storage location after the measurement. can play golf. By outputting (displaying) the distance from the current position to the target on the golf course, the golf laser range finder enables the golfer to accurately know the distance to the target and improve the golf score.

A golf laser rangefinder uses the smartphone's battery, in which the smartphone supplies a predetermined amount of power from its battery to the laser irradiation unit, and the laser irradiation unit that receives power from the smartphone emits a laser from the light-emitting element toward the target. Since power is supplied to the laser irradiation unit, there is no need to install a power supply in the laser irradiation unit, and the size of the laser irradiation unit (unit body) can be reduced. It can be made the same size as the palm of your hand. A golf laser range finder measures the distance from the golfer's current position to the target using his/her smartphone by irradiating a laser from a light-emitting element that is powered by the smartphone's battery. By looking at the measured distance output (displayed) on the touch panel of the smartphone, the golfer can know the distance from the current position on the golf course to the target.

The golf laser rangefinder uses the smartphone's touch panel to output the image of the target to the touch panel while aiming the laser at the target output to the touch panel. Since the laser is aimed at the target, the laser can be easily aimed at the target, and the laser can be reliably radiated toward the target. You can accurately measure the distance to

The laser emitted from the light-emitting element of the smartphone toward the target is reflected from the target and received by the light-receiving element, which measures the target's angle relative to its current position on the golf course, and outputs the measured angle to the touch panel. The golf laser rangefinder can measure the angle of the target relative to the golfer's current position on the golf course using his smartphone, and by looking at the measured angle output (displayed) on the touch panel of the smartphone, the golfer can can know the angle of the target with respect to the current position on the golf course. Since the golf laser range finder can know the angle of the target with respect to the current position, it can accurately know the angle of the uphill slope or the downhill slope of the downhill, and can improve the golf score. .

FIG. 2 is a perspective view of a golf laser rangefinder showing an example in which a smart phone and a laser irradiation unit are separated. FIG. 2 is a perspective view of a golf laser range finder in which a smart phone and a laser irradiation unit are connected; The figure which shows an example of the measurement system (phase difference detection system) of a golf laser range finder. FIG. 4 is a diagram showing another example of the measurement method (TOS method) of the golf laser rangefinder. FIG. 3 is a diagram showing another example of the measurement method (triangulation method) of the golf laser rangefinder. The figure which shows an example of the distance and angle measurement result output screen output (displayed) on the touch panel of the smart phone.

Details of the golf laser rangefinder according to the present invention will be described with reference to the accompanying drawings such as FIG. , as follows. 2 is a perspective view of the golf laser distance measuring device 10 connecting the smartphone and the laser irradiation unit, and FIG. 3 shows an example of the measurement method (phase difference detection method) of the golf laser distance measuring device 10. It is a diagram. FIG. 4 is a diagram showing another example of the measurement method (TOS method) of the golf laser rangefinder 10, and FIG. 5 is another example of the measurement method (triangulation method) of the golf laser rangefinder 10. It is a figure which shows.

The golf laser distance measuring device 10 uses a laser to measure the distance from the golfer's current position to the target (pin 31) on the golf course, and to measure the launch of the target (pin 31) relative to the golfer's current position on the golf course. The uphill angle or downhill downhill angle is measured, and the measured distance and angle are output (displayed).

The golf laser rangefinder 10 is composed of a smart phone 11 and a laser irradiation unit 12 detachably installed on the smart phone 11 . The smartphone 11 incorporates a physical computer that has a central processing unit (CPU or MPU) and memory (main memory and cache memory) and operates by an independent operating system (OS), and is equipped with a large-capacity hard disk. ing.

The smartphone 11 can connect to the Internet using a web browser, and can access and log in to an unspecified number of other servers (physical servers and virtual servers) using the Internet, and perform various searches on the Internet. You can use the engine. The smartphone 11 can use various URLs to access and log in to multiple servers, tablets, personal computers, and other smartphones, and can transmit various types of information (character data and image data) to multiple servers and to multiple servers using the Internet. It can be provided to tablets, personal computers, and other smartphones, and various information can be received from multiple servers, tablets, personal computers, and other smartphones using the Internet.

The hard disk of the smartphone 11 stores smartphone identification information (smartphone identification identifier) that identifies it. As the smartphone identification information, the IP address, MAC address, URL, email address, cookie information, individual identification number, etc. of the smartphone 11 can be used. , the generated identifier can be used as smartphone identification information.

The hard disk of the smartphone 11 stores the personal information of the golfer (owner) who has the authority to use them in association with the smartphone specifying information. Personal information includes password, ID number, golfer's (owner's) name, golfer's address, golfer's phone number and fax number, golfer's age, golfer's gender, e-mail address, golfer's face photo, golfer's possession There are smartphone identification information, URL, and the like of the smartphone 11 .

A distance/angle measurement application is stored in the main memory of the smartphone 11 . The central processing unit of the smartphone 11 activates the distance/angle measurement application stored in the memory under the control of the operating system (OS), and implements each means described below according to the distance/angle measurement application. The distance/angle measurement application directly accesses the server (not shown) that manages it, or accesses the server that manages the distance/angle measurement application from another server via a link, and then downloads (installs) from the server. )do. Alternatively, after reading a barcode (QR code (registered trademark)) and accessing a server that manages the distance/angle measurement application, the application is downloaded (installed) from the server.

The laser irradiation unit 12 has an adapter 13 (USB port) electrically connected to the smartphone 11 and a unit body 14 extending from the adapter 13 . The adapter 13 is detachably inserted into the external connection terminal 15 (USB Type-C port) of the smartphone 11 . The unit body 14 is connected to the smartphone 11 with the adapter 13 inserted into the external connection terminal 15 . By inserting the adapter 13 into the external connection terminal 15 of the smartphone 11 , the laser irradiation unit 12 is electrically connected to the smartphone 11 , and power is supplied to the laser irradiation unit 12 from the battery of the smartphone 11 .

The unit body 14 is made of plastic or aluminum alloy and shaped like a disc. The size (area) of the unit main body 14 is about 1/15 to 1/20 of the size (area) of the smartphone 11 . On the front surface 16 of the unit body 14, an irradiation lens 17 and a light receiving lens 18 are mounted vertically. In the unit main body 14 , the irradiation lens 17 is positioned above the front surface 16 of the unit main body 14 and the light receiving lens 18 is positioned below the irradiation lens 17 . Inside the unit main body 14, a light-emitting element 19 for irradiating a laser and a light-receiving element 20 for receiving the laser are incorporated. In the unit main body 14 , the light-emitting element 19 irradiates the target with laser through the irradiation lens 17 , and the light-receiving element 20 receives the laser (reflected light) reflected from the target through the light-receiving lens 18 .

In the phase difference detection method shown in FIG. 3 , an amplifier 21 , a driver 22 and a CPU 23 are built inside the unit body 14 of the laser irradiation unit 12 . In the phase difference detection method, the target is irradiated with a laser (laser light) amplitude-modulated at a fundamental frequency (e.g. 100 MHz), the phase difference with the laser reflected from the target (reflected light) is obtained, and the time is multiplied by the speed of light. to find the distance to the target. In the phase difference detection method, the reflected light modulated by the fundamental frequency is mixed with the local oscillator frequency slightly shifted to beat down, and the phase difference is expanded and measured. A semiconductor laser (visible light) is used as the light source.

In the TOS method (Time of Flight method) shown in FIG. 4, a laser driver 24 and a signal light receiving circuit 25 are built in the unit main body 14 of the laser irradiation unit 12 . In the TOS method, an ultrashort pulse with a rise time of several nanoseconds and an optical peak power of several tens of watts is irradiated toward a target, and the ultrashort pulse is reflected from the target until the light receiving element receives the reflected light, which is the time t. to measure. Assuming that the measured time is t, the distance to the target is L, and the speed of light is c, it is calculated by L=(c×t)/2. A time measurement of about 70 ps is required to obtain a distance resolution of 1 cm. Since the TOS type level sensor requires a large optical peak power, an infrared light laser is used.

In the triangulation method shown in FIG. 5, a laser driver 26, a signal processing circuit 27, and a position sensor 28 (light-receiving element) are built in the unit body 14 of the laser irradiation unit 12. FIG. In the triangulation method, the target is irradiated with a laser (laser light), and the reflected light diffusely reflected from the target is collected by the light receiving lens 18 and formed into an image on the position sensor 28 . Since the light receiving position on the position sensor 28 changes when the distance to the target changes, the distance to the target is obtained by specifying the light receiving position on the position sensor 28 .

FIG. 6 is a diagram showing an example of a distance/angle measurement result output screen 30 output (displayed) on the touch panel 29 of the smartphone 11. As shown in FIG. An example procedure for using the golf laser range finder 10 is as follows. A golfer inserts the adapter 13 (USB port) of the laser irradiation unit 12 into the external connection terminal 15 (USB Type-C port) of the smartphone 11 at the golf course to connect the smartphone 11 and the laser irradiation unit 12 .

Next, the smartphone 11 is activated by pressing the power button of the smartphone 11 . When the smartphone 11 is activated, predetermined power is supplied from the battery of the smartphone 11 to the laser irradiation unit 12 (power supply means). An icon indicating the distance/angle measurement application is output (displayed) on the touch panel 29 of the smartphone 11 . When the golfer taps the icon, the distance/angle measurement application is activated, and a distance/angle measurement menu screen (initial screen) is output (displayed) on the touch panel 29 of the smartphone 11 (not shown). The menu screen outputs (displays) a name output area that outputs (displays) the golfer's name, a face photo output area that outputs (displays) the golfer's face photo, a distance/angle measurement button, and an end button. Tap the end button to end the distance/angle measurement application (the same applies to the end button below).

After the golfer finishes hitting the first shot on the first hole of the perfect performance, the golfer himself uses the golf laser distance measuring device 10 to measure the distance and angle (launch) from the second hitting point to the pin 31 (target) ( When measuring the height difference between the golfer (golf laser rangefinder 10) and the pin 31 (target), the distance/angle measurement button on the menu screen output (displayed) on the touch panel 29 is tapped. When the distance/angle measurement button is tapped, the central processing unit of the smartphone 11 activates the digital camera function of the smartphone 11 and outputs (displays) a target shooting screen (not shown) on the touch panel 29 of the smartphone 11 .

On the target photographing screen, a target photographing message requesting photographing of the target and a shutter button (laser irradiation button) are output (displayed) together with the scenery around the golfer at the second hitting point of the first hole. A golfer holding the smartphone 11 faces the front of the smartphone 11 toward the green (subject) of the first hole. The central processing unit of the smartphone 11 aims (focuses) on the pin 31 (target) of the green on the first hole (aiming means). After aiming at pin 31, the golfer taps the shutter button. When the golfer taps the shutter button, the central processing unit of the smartphone 11 irradiates the pin 31 (target) of the first hole with a laser (laser light) via the light emitting element.

The laser irradiation unit 12, to which power is supplied from the battery of the smartphone 11 by the power supply means, irradiates the laser from the light emitting element 19 toward the pin 31 (target) of the first hole. The laser travels through the irradiation lens 17 toward the pin 31 (target) of the hole 1, hits the pin 31, and is reflected from the pin 31 toward the golf laser rangefinder 10 (unit main body 14). Reflected light (laser light) reflected from the pin 31 is received (entered) by the light receiving element 20 of the unit main body 14 through the light receiving lens 18 .

The central processing unit of the smartphone 11 detects the phase difference in FIG. The golfer (golf laser rangefinder 10 ) from the current position to the pin 31 (target) (distance measuring means). Furthermore, the central processing unit of the smartphone 11 detects the laser beam emitted from the light emitting element 19 toward the pin 31 (target) of the first hole, which is reflected from the pin 31 and received by the light receiving element 20 . ), the angle (launch angle) of the pin 31 (target) with respect to the current position of the golfer (golf laser rangefinder 10) at the second hitting point is measured (angle measuring means). Note that the central processing unit of the smartphone 11 has a camera shake correction function, corrects the measured distance by the camera shake correction function, and calculates the corrected distance. Furthermore, the measured angle is converted into a height difference.

The distance from the current position of the golfer (golf laser rangefinder 10) at the second hitting point of the first hole to the pin 31, the corrected distance, and the golfer at the second hitting point of the first hole ( The central processing unit of the smartphone 11, which measures the angle (height difference) of the pin 31 (target) with respect to the current position of the golf laser rangefinder 10), stores the measured distance, correction distance, measurement angle, and height difference as smartphone specific information and measurement. The information is stored in the hard disk of the smartphone 11 in association with the date and time (measured distance storage means, measured angle storage means).

The central processing unit of the smartphone 11 outputs (displays) a distance/angle measurement result output screen 30 shown in FIG. The distance/angle measurement result output screen 30 includes a measured distance output area 30a that outputs (displays) the measured distance (yard), a corrected distance output area 30b that outputs (displays) the corrected distance corrected by the camera shake correction function, Measurement angle output area 30c outputting (displaying) the measured angle (launch angle), elevation difference output area 30d outputting (displaying) the elevation difference converted from the angle, next measurement button 30e, measurement end button 30f, end The button 30g is output (displayed) (measured distance output means, measured angle output means).

In the golf laser rangefinder 10, power is supplied to the laser irradiation unit 12 from the battery of the smartphone 11, so there is no need to install a power supply in the laser irradiation unit 12, and the size of the laser irradiation unit 12 (unit main body 14) is reduced. , and the golf laser distance measuring device 10 can be made palm-sized, which is approximately the same size as the smartphone 11 . The golf laser distance measuring device 10 emits a laser beam from the light-emitting element 19 toward the target by power supplied from the battery of the smartphone 11, so the distance from the current position of the golfer on the golf course to the target can be determined by the smartphone 11 possessed by the golfer. (corrected distance) can be reliably measured, and the angle (elevation difference) of the target with respect to the golfer's current position on the golf course can be reliably measured using the smartphone 11 .

The golf laser rangefinder 10 uses the touch panel 29 of the smart phone 11, and the laser is aimed at the target (pin 31) output (displayed) on the touch panel 29, so the laser can be easily aimed at the target. It is possible to reliably irradiate the laser toward the target, and the distance from the golfer's current position to the target on the golf course, the corrected distance, and the angle of the target with respect to the golfer's current position on the golf course can be detected by the smartphone 11 possessed. Accurately measure height difference.

When the measurement end button 30 f is tapped, the central processing unit of the smartphone 11 outputs (displays) a menu screen on the touch panel 29 . By tapping the next measurement button 30e, the distance and angle can be measured again, and the distance (yard) from the current position of the golfer (golf laser rangefinder 10) to the pin (target) at another location Also, the angle (height difference) of the pin (target) with respect to the current position of the golfer (golf laser rangefinder 10) can be measured.

By looking at the measured distance and the corrected distance output (displayed) in the measured distance output area 30a and the corrected distance output area 30b, the golfer can determine the golfer's (golf laser distance measurement) at the second hitting point on the first hole (golf course). It is possible to know the distance (yard) from the current position of the device 10) to the pin (target), and the measured angle (launch angle) and elevation difference output (displayed) in the measurement angle output area 30c and the elevation difference output area 30d By looking at it, the angle (launch angle) of the pin (target) with respect to the current position of the golfer (golf laser rangefinder 10) at the second hitting point of the first hole (golf course) and the height difference can be known.

A golfer who has played the 1st hole moves to the 2nd hole of the par three, and the golfer himself uses a golf laser distance measuring device 10 on the teeing ground of the 2nd hole to measure (down) from the teeing ground to the pin (target). When measuring the distance, corrected distance, angle, or height difference, tap the distance/angle measurement button on the menu screen output (displayed) on the touch panel 29, or select the next measurement on the distance/angle measurement result output screen 30 in FIG. Tap the button 30e. When the distance/angle measurement button or the next measurement button 30e on the menu screen is tapped, the central processing unit of the smartphone 11 activates the digital camera function of the smartphone 11 and displays a target shooting screen (not shown) on the touch panel 29 of the smartphone 11. Output (display) to

On the target photographing screen, a target photographing message requesting photographing of the target and a shutter button (laser irradiation button) are output (displayed) together with the scenery around the golfer on the teeing ground of the second hole. A golfer holding the smartphone 11 faces the front of the smartphone 11 toward the green (subject) of the second hole. The central processing unit of the smartphone 11 aims (focuses) on the green pin 31 (target) of the second hole (aiming means). After aiming at pin 31, the golfer taps the shutter button. When the golfer taps the shutter button, the central processing unit of the smartphone 11 causes the pin 31 (target) of the second hole to be irradiated with a laser (laser light) via the light emitting element 19 .

The laser irradiation unit 12, to which power is supplied from the battery of the smartphone 11 by the power supply means, irradiates the laser from the light emitting element 19 toward the pin 31 (target) of the second hole. The laser travels through the illumination lens 17 toward the pin 31 (target) of hole 2, hits the pin 31, and is reflected from the pin 31 toward the golf laser rangefinder 10 (unit main body 14). Reflected light (laser light) reflected from the pin 31 is received (entered) by the light receiving element 20 of the unit main body 14 through the light receiving lens 18 .

When the laser emitted from the light emitting element 19 toward the pin 31 (target) of the second hole is reflected from the pin 31 and is received (incident) by the light receiving element 20, the central processing unit of the smartphone 11 detects the phase difference as described above. A pin 31 ( Measure the distance (yards) to the target) (distance measuring means). Furthermore, the central processing unit of the smartphone 11 detects the laser emitted from the light emitting element 19 toward the pin 31 (target) of the second hole, which is reflected from the pin 31 and received by the light receiving element 20, detects the second hole (golf course). ), the angle (launch angle) of the pin 31 (target) with respect to the current position of the golfer (golf laser rangefinder 10) on the teeing ground is measured (angle measuring means). Note that the central processing unit of the smartphone 11 has a camera shake correction function, corrects the measured distance by the camera shake correction function, and calculates the corrected distance. Furthermore, the measured angle is converted into a height difference.

Distance from the current position of the golfer (golf laser distance measuring device 10) on the tee of the second hole to the pin 31, the corrected distance, and the golfer on the tee of the second hole (golf laser distance measurement The central processing unit 11 of the smartphone that measures the angle (height difference) of the pin 31 (target) with respect to the current position of the device 10) associates the measured distance, corrected distance, measurement angle, and height difference with the smartphone specific information and the date and time of measurement. state in the hard disk of the smartphone 11 (measured distance storage means, measured angle storage means).

The central processing unit of the smartphone 11 outputs (displays) the distance/angle measurement result output screen 30 to the touch panel 29 (see FIG. 6). The distance/angle measurement result output screen 30 includes a measured distance output area 30a that outputs (displays) the measured distance (yard), a corrected distance output area 30b that outputs (displays) the corrected distance corrected by the camera shake correction function, Measurement angle output area 30c outputting (displaying) the measured angle (launch angle), elevation difference output area 30d outputting (displaying) the elevation difference converted from the angle, next measurement button 30e, measurement end button 30f, end The button 30g is output (displayed) (measured distance output means, measured angle output means).

By looking at the measured distance output (displayed) in the measured distance output area, the golfer can see the current position of the golfer (golf laser distance measuring device 10) on the teeing ground of the second hole (golf course) to the pin (target). By looking at the measured angle (launch angle) output (displayed) in the measurement angle output area, the golfer (golf laser distance measurement It is possible to know the angle (launch angle) of the pin (target) with respect to the current position of the device 10). According to the above procedure, the distance (yard) from the current position of the golfer (golf laser rangefinder 10) to the pin (target) and the golfer's (golf laser rangefinder 10) from the 3rd hole to the 18th hole You can measure the angle (launch angle) of the pin (target) with respect to the current position.

The golf laser distance measuring device 10 emits a laser beam from the light emitting element 19 of the unit body 14 toward the target, which is reflected from the target and received by the light receiving element 20 of the unit body 14. Since the distance to the target (for example, the pin 31) is measured and the corrected distance is calculated, the distance from the current position of the golfer on the golf course to the target and the corrected distance can be measured using the smartphone 11 possessed by the golfer. By looking at the measured distance and the corrected distance output (displayed) on the touch panel 29 of the smartphone 11, the golfer can know the accurate distance from the current position on the golf course to the target.

The golf laser range finder 10 can measure the angle of a target (for example, a pin 31) with respect to the golfer's current position on the golf course and the height difference of the target with respect to the golfer's current position using the smartphone 11 possessed by the smartphone. By looking at the measured angle and height difference output (displayed) on the touch panel 29 of 11, the golfer can know the correct angle and height difference of the target with respect to the current position on the golf course.

The golf laser range finder 10 outputs (displays) the distance from the golfer's current position to the target (for example, the pin 31) on the golf course and the correction distance, and also outputs the angle and height difference of the target with respect to the golfer's current position. By (displaying), the golfer can accurately know the distance to the target, the angle and height difference of the uphill slope, and the angle and height difference of the downhill slope and can improve the golf score. .

The golf laser range finder 10 can measure the distance from the current position on the golf course to a target (for example, a pin 31) using the smartphone 11 possessed by the golfer, and the golfer can use the smartphone 11 to play golf. Since the angle and height difference of the target with respect to the current position in the field can be measured, there is no need to carry both the large and bulky golf laser rangefinder and the smartphone 11, and the golf laser rangefinder and the smartphone 11 can be used at the same time. The golfer can be relieved from the stress of playing while holding the golf ball, and the golfer can concentrate on playing golf.

10 golf laser rangefinder 11 smartphone 12 laser irradiation unit 13 adapter (USB port)
14 Unit body 15 External connection terminal (USB Type-C port)
16 front surface 17 irradiation lens 18 light receiving lens 19 light emitting element 20 light receiving element 21 amplifier 22 driver 23 CPU
24 laser driver 25 signal light receiving circuit 26 laser driver 27 signal processing circuit 28 position sensor (light receiving element)
29 touch panel 30 distance/angle measurement result output screen 31 pin (target)

Claims (4)

A golf laser distance measuring device that uses a laser to measure the distance from the current position to a target on a golf course,
The golf laser distance measuring device is formed from a smartphone and a laser irradiation unit detachably installed on the smartphone, and the laser irradiation unit is an adapter detachable to an external connection terminal of the smartphone, and the adapter is connected to the above. A unit body connected to the smartphone while being inserted into an external connection terminal, wherein the unit body has a light-emitting element that irradiates the target with the laser through an irradiation lens, and receives the laser reflected from the target. a light-receiving element that receives light through a lens, and the smart phone reflects a laser emitted from the light-emitting element toward the target and is received by the light-receiving element to detect the current position on the golf course. a distance measuring means for measuring a distance from the target to the target; and a measured distance output means for outputting the measured distance measured by the distance measuring means to a touch panel. The smartphone includes power feeding means for feeding predetermined power from the battery to the laser irradiation unit, and the laser irradiation unit supplied with power from the smart phone by the power feeding means is fed from the light emitting element to the target. 2. The golf laser rangefinder according to claim 1, wherein the laser is directed. Claim 1 or Claim 2, wherein the smartphone includes sighting means for outputting an image of the target to the touch panel using its digital camera function and aiming the laser at the target output to the touch panel. The golf laser range finder according to . Angle measurement in which the smartphone measures the angle of the target with respect to the current position on the golf course by the laser emitted from the light-emitting element toward the target and reflected from the target and received by the light-receiving element. and measured angle output means for outputting the measured angle measured by said angle measuring means to said touch panel.

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