KR101200795B1 - Measuring device for putting distance and measuring method for putting distance - Google Patents

Abstract

PURPOSE: A putting distance measuring apparatus and a putting distance measuring method are provided to enable a golfer to measure a distance from a golf ball to a hole cup. CONSTITUTION: A putting distance measuring apparatus comprises an inclination sensor(10), an A/D converter(20), a display unit(30), a laser generation circuit(40), a lens(50), and a MICOM(60). The inclination sensor outputs a slope value according to inclination into an electronic signal. The A/D converter receives an electronic signal and converts electronic signal into a digital signal. The display unit receives output information from the MICOM and visually displays the information. The lens condenses a laser and forms the illumination path of the laser. The MICOM receives a digital signal from the A/D converter and converts the signal into angular information. [Reference numerals] (10) Inclination sensor; (100) USP port; (20) A/D converter; (30) Display unit; (40) Laser generation circuit; (50) Lens; (80) Constant voltage unit; (90) Buzzer

Description

MEASURING DEVICE FOR PUTTING DISTANCE AND MEASURING METHOD FOR PUTTING DISTANCE}

The present invention relates to a putting distance measuring apparatus and a putting distance measuring method, and more particularly, to a putting distance measuring apparatus and a putting distance measuring method capable of measuring a distance from a golf ball to a hole cup when a golfer is carrying while putting. .

Recently, as the population enjoying golf increases, various facilities and devices for improving their golfing ability have been released.

As a facility for improving golf skills, indoor golf courses using screens have become popular, and facilities such as screen golf courses are expanding nationwide. The practice of the screen golf course takes the form of a shot toward the screen in a narrow indoor space.

On the other hand, the conventional golfers can measure the distance between the golf ball and the hole cup at the time of putting, it is possible to know the quantification of the force how much to adjust the force when putting.

In this case, the conventional apparatus for measuring the putting distance is a device for measuring the distance using the reflected laser after firing the laser, or by measuring the distance using the reflected wave after firing the ultrasonic wave.

However, this conventional putting distance measuring method has a problem that cannot be measured when an obstacle is formed between the places to be measured because the reflected light or the reflected wave should be used.

Furthermore, the conventional putting distance measuring method has a problem in that the putting distance cannot be measured in a flat structure that cannot reflect light or radio waves because it uses reflected light or a reflecting plate.

The technical problem of the present invention is to provide a putting distance measuring apparatus and a putting distance measuring method capable of measuring the putting distance even in a place where a flat place and an obstacle are formed.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention by those skilled in the art.

Putting distance measuring apparatus of the present invention for achieving the above technical problem is an inclination sensor for outputting the inclination value according to the inclination on the basis of a predetermined value as an electronic signal; An A / D converter electrically connected to the inclination sensor and converting the electronic signal into a digital signal; A display unit; A laser generation circuit configured to receive an operation signal and generate a laser having a wavelength of visible light; A lens for condensing the laser generated by the laser generation circuit to form an irradiation path of the laser; And electrically connected to the A / D converter, the display unit, and the laser generation circuit, receives a digital signal from the A / D converter, converts the angle into angle information, and outputs an operation signal to the laser generation circuit. Micom indicating the direction of the target point by the output; The microcomputer is irradiated from the upper portion of the putter to the putting point, the microcomputer inputs the length information of the putter, and the microcomputer inputs the angle information measured by the microcomputer to the upper portion of the putter. And converting to and calculating the base length of the right triangle using the inside information and the length information of the putter, calculating a putting distance and outputting the calculated putting distance to the display unit.

On the other hand, the putting distance measuring method of the present invention for achieving the above technical problem is a putter length measuring step of measuring the length of the putter; A laser irradiation step of irradiating the laser to the target point to be put in the upper space of the putter; An angle measuring step of measuring an internal angle between a gravity direction and the laser irradiation direction during the laser irradiation; And using the putter length as the height information of the right triangle, and using the inside angle as the angle information between the height and the hypotenuse of the triangle, calculating the length of the base by Pythagorean theorem, and calculating the putting distance with the length of the base. Putting distance calculating step; .

The present invention can be manufactured in a simpler configuration than the ultrasonic oscillation method as in the prior art, there is an effect that can be supplied to the consumer at a lower price.

In addition, since the present invention does not use a reflector as in the prior art, there is an effect that the putting distance can be measured even on a flat place.

In addition, since the present invention does not use the reflector as in the prior art, there is an effect that can measure the putting distance even in the place where the obstacle is formed.

1 is a block diagram of a putting distance measuring apparatus according to an embodiment of the present invention.
FIG. 2 is a perspective view of the instrument structure of the putting distance measuring device shown in FIG. 1. FIG.
3 is a flow chart according to the golf distance measuring method using the golf distance measuring apparatus shown in FIG.
4 is a schematic diagram of a golf distance measuring principle using the golf distance measuring device and the golf distance measuring method.

In order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings. The embodiments of the present invention may be modified into various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. The present embodiments are provided to enable those skilled in the art to more fully understand the present invention. Therefore, the shapes and the like of the elements in the drawings can be exaggeratedly expressed to emphasize a clearer description. It should be noted that in the drawings, the same members are denoted by the same reference numerals. Detailed descriptions of well-known functions and constructions which may be unnecessarily obscured by the gist of the present invention are omitted.

1 is a block diagram of a putting distance measuring apparatus according to an embodiment of the present invention. FIG. 2 is a perspective view of the mechanism structure of the putting distance measuring device shown in FIG. 1. FIG.

1 and 2, the putting distance measuring apparatus according to an exemplary embodiment of the present invention includes an inclination sensor 10, an A / D converter 20, a display unit 30, a laser generation circuit 40, and a lens. 50 and a microcomputer 60, the battery 70, a constant voltage unit 80, a buzzer 90, and a USB port 100 may be further included.

The inclination sensor 10 outputs an inclination value according to inclination based on a predetermined value as an electronic signal. Here, the signal generated by the inclination sensor 10 corresponds to an analog value. In this case, the inclination sensor 10 does not output a voltage when the lower surface of the case 1 is horizontal with the ground, but according to the inclination angle when the inclination is formed between the lower surface of the case 1 and the ground. Output voltage. The inclination sensor 10 may be formed of a tilt sensor, a yaw rate sensor, or an angular velocity sensor.

The A / D converter 20 is electrically connected to the inclination sensor 10 and receives an analog electronic signal output from the inclination sensor 10 and converts it into a digital signal.

The display unit 30 is formed of a display device such as a small liquid crystal display, and receives output information from the microcomputer 60 to visually display the information. The display information displayed by the display unit 30 corresponds to a data value about an angle measured by the inclination sensor 10 or a putt distance calculated by the microcomputer 60.

The laser generation circuit 40 is a circuit that generates a laser having a wavelength of visible light when an operation signal is input from the microcomputer 60. Here, since the light source generated by the laser generation circuit 40 is a wavelength band that can be seen by the human eye, it is sufficient, and therefore, the laser wavelength band is not limited to a specific wavelength in this embodiment.

The lens 50 serves to form a laser irradiation path by condensing the laser generated by the laser generation circuit 40.

Here, the lens 50 is formed in an elliptical shape, the long direction of the oval width is preferably disposed perpendicular to the ground so that the irradiation path of the lens 50 is formed wide in the direction perpendicular to the ground. Such a lens 50 allows the laser generated through the lens 50 to emit light elongated from the upper side to the lower side due to the characteristics of the grass and the green, so that the width of the laser spreads out widely. In this case, the golfer can easily see the curvature of the green and the path of the light due to the elongated light formed from the upper side of the laser downward.

The microcomputer 60 is electrically connected to the A / D converter 20, the display unit 30, and the laser generation circuit 40. The microcomputer 60 is connected to the internal memory 61 and the external memory unit, and performs a calculation operation by a predetermined program stored in the external memory unit. In addition, a separate operation switch 61 is further connected around the microcomputer 60, and a series of operations of a program set in the internal program of the microcomputer 60 according to an input condition according to a change in the contact state of the operation switch 61. The operation signal is output to the laser generation circuit 40 and the display unit 30 according to the operation operation.

In this case, the microcomputer 60 outputs an operation signal to the laser generation circuit 40 so that the laser is output through the lens 50 to indicate the direction of the target point. In this case, the golfer can visually check the irradiation direction of the laser to determine which point the actual inclination direction is.

The microcomputer 60 may be used by irradiating the laser from the top of the putter to the putting point.

In this case, the microcomputer 60 inputs the length information of the putter, and the microcomputer converts the angle information measured at the upper portion of the putter into the cabinet information of the right triangle, and uses the cabinet information and the length information of the putter to form the right triangle. You can calculate the putting distance by calculating the base length. In this case, the calculated putting distance may be output to the display unit 30.

Therefore, it is possible to easily calculate the distance from the putter to the putting point using the putting distance measuring apparatus of the present invention, it is possible to determine how much force of their own to putt.

The battery 70 is electrically connected to the microcomputer 60 to supply power to the microcomputer 60 and the peripheral circuit.

The constant voltage unit 80 is electrically connected between the battery and the microcomputer 60 to convert the voltage of the battery into a constant voltage and supply the microcomputer to the microcomputer.

The buzzer 90 is electrically connected to the microcomputer and outputs a signal according to the computation result when the microcomputer operates.

The USB port 100 is electrically connected to the microcomputer, and communicates with the microcomputer to modify or update the internal program information of the microcomputer, or to update or exchange data.

3 is a flowchart illustrating a golf distance measuring method using the golf distance measuring apparatus shown in FIG. 1. 4 is a schematic diagram of a golf distance measuring principle using the golf distance measuring device and the golf distance measuring method.

3 and 4, the golf distance measuring method according to an embodiment of the present invention is a putter length measuring step (S1), a laser irradiation step (S2), an angle measuring step (S3) and the putting distance calculation step (S4), each step may be made by the golf distance measuring device (1).

The putter length measuring step S1 is a step of measuring the length of the putter 2. In this case, the length of the putter 2 is input to the microcomputer 60, and the height data of the putter 2 input to the microcomputer 60 may be used as calculation data for obtaining the putting distance a2.

The laser irradiation step (S2) is a step of irradiating the laser to the target point to put in the upper space of the putter. Here, the laser irradiation step (S2) may be made by the laser generation circuit 40, as described above, the putter (2) is disposed in a state perpendicular to the ground. In this case, in the laser irradiation step (S2), a method of using the scale 110 and the scale 120 may be added in a case where the distance of the putting distance a2 is measured or the laser irradiated by strong sunlight cannot be identified. Can be. Here, the scale 110 and the scale 120 are disposed on the same line as the laser irradiation direction, and if the laser is not visible, the target point to be put to the naked eye can also be identified through the scale 110 and the scale 120. .

The angle measuring step S3 is a step of measuring the inner angle a1 between the gravity direction and the laser irradiation direction during laser irradiation. As described above, the measurement of the internal angle a1 may be performed by the inclination sensor 10. In this case, the measured internal angle a1 information may be converted into a digital signal and transmitted to the microcomputer 60.

The putting distance calculating step S4 uses the length of the putter a1 as the height information of the right triangle, and uses the inside angle a1 as the information of the inside angle a1 between the height and the hypotenuse of the right triangle, whereby It is a step of calculating the putting distance a2 by the length of the base by calculating the length. Here, the putting distance a2 is a distance from the golf ball 3 to the hole cup 4, and this putting distance a2 may be made by the microcomputer 60.

Referring to FIG. 3, the putting distance measuring method is described in more detail. The microcomputer 60 secures length data on the height of the putter 2 by the putter length measuring step S1.

Then, the microcomputer 60 can know the length of the side of the height of the three sides of the right triangle.

In this case, the microcomputer 60 secures the angle a1 data between the putter a2 and the laser irradiation direction by the angle measuring step.

Then, the microcomputer 60 can know one cabinet a2 of the two cabinets excluding the right angle of the right triangle, and thus can secure another cabinet data.

As a result, the microcomputer 60 knows the height of the three sides of the right triangle and knows the three angles of the right triangle, so that the length of the base side of the right triangle corresponding to the putting distance a2 can be calculated.

In this case, the calculation of the putting distance a2 can be obtained by the following equation by Pythagorean theorem.

Putting distance (a2) = putter height / tan (a1)

Here, the formula for calculating the putting distance (a2) is driven in the pre-stored state in the microcomputer (60), and when the user wants to obtain the putting distance (a2) by pressing only the operation switch 61, the putting distance (a2) easily ) Will be available.

As described above, the present invention can calculate the putting distance very easily only by the inclination angle and the length of the putter.

Therefore, the putting distance measuring apparatus and the putting distance measuring method of the present invention have an effect that the putting distance can be easily obtained without using a tape measure as in the prior art.

In this case, the putting distance measuring apparatus of the present invention can be manufactured with a simpler configuration than the laser method or the ultrasonic oscillation method using a laser reflected wave as in the prior art, it is possible to supply to the consumer at a lower price.

Furthermore, since the present invention does not use the reflecting plate as in the prior art, the putting distance can be measured even on a flat place.

In addition, since the present invention does not use the reflecting plate as in the prior art, it is possible to measure the putting distance even where the obstacle is formed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention. Therefore, it is to be understood that the present invention is not limited to the above-described embodiments. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims. It is also to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

10; Tilt sensor
20; A / D Converter
30; Display part
40; Laser generation circuit
50; lens
60; Microcomputer
70; battery
80; Constant voltage
90; Buzzer
100; USB port

Claims (2)

An inclination sensor for outputting an inclination value according to an inclination based on a preset value as an electronic signal;
An A / D converter electrically connected to the inclination sensor and converting the electronic signal into a digital signal;
A display unit;
A laser generation circuit configured to receive an operation signal and generate a laser having a wavelength of visible light;
A lens for condensing the laser generated by the laser generation circuit to form an irradiation path of the laser; And,
The A / D converter is electrically connected to the display unit and the laser generation circuit, receives a digital signal from the A / D converter, converts the angle into angle information, and outputs an operation signal to the laser generation circuit to output the laser. A microcomputer instructing the direction of the target point to be made; / RTI >
The microcomputer is irradiated with laser from the top of the putter to the putting point,
The microcomputer is pre-input of the length information of the putter,
The microcomputer converts the measured angle information of the upper part of the putter into the angle information of the right triangle, calculates the putting distance by calculating the base length of the right triangle using the angle information and the length information of the putter, and calculates the putt. Putting distance measuring device, characterized in that for outputting a distance to the display.
A putter length measuring step of measuring the length of the putter;
A laser irradiation step of irradiating the laser to the target point to be put in the upper space of the putter;
An angle measuring step of measuring an internal angle between a gravity direction and the laser irradiation direction during the laser irradiation; And,
By using the putter length as the height information of the right triangle, and using the inside angle as the angle information between the height and the hypotenuse of the triangle, the putting distance to calculate the putting distance by the length of the base by calculating the length of the base by the Pythagorean theorem Operation step; Putting distance measuring method comprising a.

Images