KR20210073813A - Device for measuring an anaerobic exercise amount - Google Patents

Abstract

The present invention relates to a device for measuring an anaerobic exercise amount, which is to extract exercise information of a user performing exercise using anaerobic exercise equipment, and more particularly, to a device for measuring an anaerobic exercise amount, which is installed by attaching to the anaerobic exercise equipment, and collects the exercise information through an optical transceiver to measure the number of exercises and weigh a weight, and analyzes and displays the same.

Description

Anaerobic exercise amount measuring device {Device for measuring an anaerobic exercise amount}

The present invention relates to an anaerobic momentum measuring device for extracting exercise information of a user who performs exercise using an anaerobic exercise device, and more particularly, to an anaerobic exercise device attached to and installed, and exercise information is collected through an optical transmitter and receiver It relates to an anaerobic momentum measuring device that measures the number of workouts and weight and analyzes and displays them.

With the development of awareness of exercise, users refrain from meaningless attendance at the fitness center, and interest in customized content for individual users is increasing. Accordingly, although the fitness center provides user-customized content through coaching of a health trainer, most fitness center members are not provided with user-customized content due to a relatively high price point.

Meanwhile, the user may be provided with an exercise guide service by using an exercise device equipped with an exercise performance measurement function. While the user is exercising using the exercise equipment, the exercise equipment collects and provides the exercise performance amount of the user in real time through a built-in measurement system. However, it can act as a great burden for the existing fitness center to which the exercise equipment is already supplied to supply the above exercise equipment, and the price of the exercise equipment is not too high, which is a potential that the burden can return to the user again. There is a problem.

The present invention relates to an anaerobic momentum measuring device for extracting exercise information of a user who performs exercise using an anaerobic exercise device, and more particularly, to an anaerobic exercise device attached to and installed, and exercise information is collected through an optical transmitter and receiver It relates to an anaerobic momentum measuring device that measures the number of workouts and weight and analyzes and displays them.

In order to solve the above problems, in an embodiment of the present invention, as an anaerobic momentum measuring device, the body module; and a reflective fixing pin unit, wherein the main body module includes: a battery module for supplying power to the main body module; a measurement module for sensing a distance measurement return signal by irradiating an optical signal to the upper surface of the reflective fixing pin portion, and deriving movement information including one or more of the number of movements and the weight of the weight based on the distance measurement return signal; an attachment module fixed to the weight frame of the exercise device to attach the measurement module, and to control the distance between the measurement module and the exercise device; and a display module for displaying the exercise information derived from the measurement module; it provides an anaerobic momentum measuring device, including a.

In one embodiment of the present invention, the reflective fixing pin portion, a cylindrical shape, the fixing pin is inserted into the center of the weight of the exercise device; a reflective plate in the form of a plate accommodating the fixing pin on one side and reflecting the optical signal emitted from the measurement module; and a stationary magnet disposed on a side surface of the reflection plate, wherein the stationary magnet is attached to the front surface of the metal weight to align the angle of the plate-shaped reflection plate in the irradiation direction of the optical signal to be fixed. It provides an anaerobic momentum measuring device.

In an embodiment of the present invention, the measurement module includes: a first optical transmission/reception module for irradiating an optical signal to the upper surface of the reflective fixing pin unit at a preset period and sensing a first distance measurement return signal; and a second optical transmission/reception module that irradiates an optical signal to the upper surface of the reflective fixing pin unit at a preset period and senses a second distance measurement return signal, and includes, based on the period of the first optical transmission/reception module, the first To provide an anaerobic momentum measuring device capable of cross-sensing a distance measurement return signal by shifting the period of two optical transmission/reception modules by a preset time.

In an embodiment of the present invention, the first optical transmission/reception module includes: a transceiver board including an optical transmission unit for transmitting an optical signal, a light receiving unit for receiving an optical signal, and a substrate coupling groove; an alignment display member disposed on one side of the transceiver board; and a case coupling groove in the form of a through-hole provided at a position corresponding to the substrate coupling groove in the lower central portion, and an optical transmission/reception module case including a concave hole provided at an upper end of one side and configured to display the alignment display member to the outside; It provides an anaerobic momentum measuring device, including.

In one embodiment of the present invention, the attachment module is a semi-cylindrical shape having a through hole in the center, and a rod receiving member capable of accommodating a weight frame inside the through hole; attachment shaft; an attachment plate having a plurality of bolt holes to which bolts that can be coupled to the rod receiving member can be fastened, and an attachment shaft hole to which a part of the attachment shaft can be coupled; a first nut for fixing the attachment plate to the attachment shaft from the front surface of the attachment plate; and a second nut for fixing the attachment plate to the attachment shaft from the rear surface of the attachment plate, and by adjusting the positions of the first nut and the second nut, a gap between the measurement module and the exercise device It provides an anaerobic momentum measuring device that can control the

In one embodiment of the present invention, the exercise equipment is a device that works with a force against a weight, a press machine, a lat pull-down machine, an arm curl machine, a cable row machine, a fly peck deck machine, a triceps extension, and It provides an anaerobic momentum measuring device comprising one or more of the leg extensions.

According to an embodiment of the present invention, since the display module is provided in the main body module and the speaker is provided in the display cover, it is possible to exhibit the effect that the user can be provided with exercise information performed while using anaerobic exercise equipment.

According to an embodiment of the present invention, the fixed magnet is accommodated inside the reflector and exposes one side, thereby fixing the reflective fixing pin in parallel to the weight to achieve the effect of accurately measuring the amount of exercise according to the user's movement. have.

According to an embodiment of the present invention, the first optical transmission/reception module and the second optical transmission/reception module provided in the optical transmission/reception unit alternately sense the first distance measurement return signal and the second distance measurement return signal, so that the user performs an exercise It is possible to increase the precision of the motion information generated according to the movement and to reduce the measurement error of the anaerobic momentum measuring device.

According to an embodiment of the present invention, by mutual operation between the optical transmission and reception unit and the substrate unit, an anaerobic momentum measuring device is attached and installed, and as a user performs an exercise, exercise information can be provided in real time. can

According to an embodiment of the present invention, the fastening member is fastened through the substrate coupling groove and the case coupling groove provided in the optical transceiver, and the alignment display member provided in the transceiver board and the concave hole provided in the optical transceiver module case are fastened. By doing so, it is possible to exhibit the effect that the optical transceiver can be assembled in a correct position.

According to an embodiment of the present invention, as the rod receiving member corresponding to the thickness of the weight frame is modularized and provided, it is possible to exhibit the effect that the user can attach and install the anaerobic momentum measuring device without restriction of the exercise device.

According to an embodiment of the present invention, the position of the measurement module fixed to the attachment plate is adjusted by the attachment shaft and a plurality of nuts, thereby exhibiting the effect of realizing an anaerobic momentum measuring device with high user convenience.

1 schematically shows the configuration of an anaerobic momentum measuring device according to an embodiment of the present invention.
2 schematically shows a front view of a main body module according to an embodiment of the present invention.
3 schematically shows a plan view of a reflection fixing pin part according to an embodiment of the present invention.
4 schematically shows a right side view of a reflection fixing pin part according to an embodiment of the present invention.
5 schematically shows an exploded perspective view of a main body module according to an embodiment of the present invention.
6 schematically shows a front side of a measurement module according to an embodiment of the present invention.
7 schematically shows a bottom view in which the measurement module body is rotated 90° to the left according to an embodiment of the present invention.
8 schematically shows an operation state diagram of a substrate unit and an optical transmission/reception unit according to an embodiment of the present invention.
9 schematically shows an exploded perspective view of an optical transceiver according to an embodiment of the present invention.
10 schematically shows a right side view of an optical transceiver according to an embodiment of the present invention.
11 schematically shows a rear surface of an attachment module according to an embodiment of the present invention.
12 schematically shows an attachment plate according to an embodiment of the present invention.
13 schematically shows a plan view in which the main body module is rotated 90° to the left according to an embodiment of the present invention.
14 schematically shows a rear view of a main body module according to an embodiment of the present invention.
15 schematically shows a right side view of a main body module according to an embodiment of the present invention.
16 (A) and 16 (B) schematically show a reflection fixing pin according to an embodiment of the present invention.

Hereinafter, various embodiments and/or aspects are disclosed with reference to the drawings. In the following description, for purposes of explanation, numerous specific details are set forth to provide a thorough understanding of one or more aspects. However, it will also be recognized by one of ordinary skill in the art that such aspect(s) may be practiced without these specific details. The following description and accompanying drawings set forth in detail certain illustrative aspects of one or more aspects. These aspects are illustrative, however, and some of the various methods in principles of various aspects may be employed, and the descriptions set forth are intended to include all such aspects and their equivalents.

Also, the terms "comprises" and/or "comprising" mean that the feature and/or element is present, but excludes the presence or addition of one or more other features, elements and/or groups thereof. should be understood as not

Also, terms including an ordinal number, such as first, second, etc., may be used to describe various elements, but the elements are not limited by the terms. The above terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, a first component may be referred to as a second component, and similarly, a second component may also be referred to as a first component. and/or includes a combination of a plurality of related listed items or any of a plurality of related listed items.

In addition, in the embodiments of the present invention, unless otherwise defined, all terms used herein, including technical or scientific terms, are generally understood by those of ordinary skill in the art to which the present invention belongs. have the same meaning as Terms such as those defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in an embodiment of the present invention, an ideal or excessively formal meaning is not interpreted as

1 schematically shows the configuration of an anaerobic momentum measuring device 1000 according to an embodiment of the present invention.

Anaerobic momentum measuring device 1000 according to an embodiment of the present invention, the body module 1100; and a reflective fixing pin unit 1200; the main body module 1100 includes: a battery module 1130 for supplying power to the main body module 1100; Measurement of irradiating an optical signal to the upper surface of the reflection fixing pin unit 1200 to sense a distance measurement return signal, and deriving movement information including one or more of the number of movements and weight based on the distance measurement return signal module 1110; an attachment module 1120 fixed to the weight frame 2000 of the exercise device to attach the measurement module 1110, and to control the distance between the measurement module 1110 and the exercise device; and a display module 1113 (f) for displaying the exercise information derived from the measurement module 1110 .

Referring to FIG. 1 , the anaerobic momentum measuring device 1000 includes the battery module 1130 , the measuring module 1110 , the attachment module 1120 , and the display module 1113 (f). It may be composed of a main body module 1100 and a reflective fixing pin unit 1200 . In addition, the exercise device for the user to exercise may be composed of a weight frame 2000 , a weight weight 3000 , a pulling wire 4000 , and a weight connection unit 5000 .

The main body module 1100 may include the battery module 1130 , the measurement module 1110 , and the attachment module 1120 . The battery module 1130 may be mounted on a side portion of the measurement module 1110 , and the measurement module 1110 may be installed by being attached to the weight frame 2000 by the attachment module 1120 . Preferably, the measuring module 1110 is provided with a groove into which the battery module 1130 can be inserted on the right side, and the groove may have a rectangular shape with predetermined curvatures at four vertices. In addition, the measurement module 1110 in which the battery module 1130 is inserted and mounted may be fixed to the attachment module 1120 by a plurality of shafts and a plurality of nuts, and fixed to the attachment module 1120 . The measurement module 1110 may be installed by being attached to the weight frame 2000 . In addition, the main body module 1100 may include the display module 1113(f) on the front side of the measurement module 1110 .

The attachment module 1120 according to an embodiment of the present invention may be attached to the upper frame of the exercise device to which the weight frame 2000 is fixed, if necessary. When the attachment module 1120 is attached to the upper frame of the exercise device, the measurement module 1110 fixed to the attachment module 1120 may also be attached to one side of the upper frame and installed. Preferably, the main body module 1100 may be installed by attaching it to the upper frame of the exercise device according to the user's needs.

On the other hand, the reflective fixing pin unit 1200 may be mounted by being inserted into a circular-shaped through hole provided in the center of the weight 3000 . Details will be described later with reference to FIGS. 3 and 4 . As the user performs the exercise, the weight connection part 5000 and the weight weight 3000 connected to the pulling wire 4000 may reciprocate up and down, and according to the reciprocation movement of the weight weight 3000 , The reflection fixing pin 1200 may reciprocate up and down together.

On the other hand, according to an embodiment of the present invention, the exercise device is a device that moves with a force to resist the weight 3000, a press machine, a lat pull-down machine, an arm curl machine, a cable row machine, a fly peck deck may include one or more of a machine, a triceps extension, and a leg extension. However, it is not limited to the above devices, and the anaerobic momentum measuring device 1000 may be attached and installed to all anaerobic exercise devices that perform exercise using weight.

2 schematically shows a front view of a main body module 1100 according to an embodiment of the present invention.

Referring to FIG. 2, the main body module 1100 may include a front case 1160, a display cover 1150, a speaker 1180, and the display module 1113(f) on the front part, A power switch 1190 may be provided on the lower surface.

The display cover 1150 is covered on the front case 1160 and can be detached, and the display cover 1150 detachable on the front case 1160 protects the internal device of the display module 1113(f). can protect In addition, the display cover 1150 may include the speaker 1180 in the center left. With the provided speaker 1180 , the display module 1113(f) may display a screen and output a voice through the speaker 1180 at the same time.

On the other hand, the main body module 1100, the power switch 1190 may be provided on the lower surface. By turning on the power switch 1190 before the user performs the exercise, the anaerobic exercise measuring device 1000 may collect, measure, and analyze the user's exercise quantity.

As described above, the display module 1113(f) is provided in the main body module 1100 and the speaker 1180 is provided in the display cover 1150, so that the user performs exercise information while using anaerobic exercise equipment. can exert the effect of being provided.

3 schematically shows a plan view of the reflection fixing pin unit 1200 according to an embodiment of the present invention, and FIG. 4 schematically shows a right side view of the reflection fixing pin unit 1200 according to an embodiment of the present invention. .

The reflective fixing pin unit 1200 according to an embodiment of the present invention has a cylindrical shape, and includes a fixing pin 1210 inserted into the center of the weight 3000 of the exercise device; a reflection plate 1220 having a plate shape accommodating the fixing pin 1210 on one side and reflecting the optical signal irradiated from the measurement module 1110; and a stationary magnet 1230 disposed on a side surface of the reflection plate 1220, wherein the stationary magnet 1230 is attached to the front surface of the metal weight 3000, and the plate-shaped reflection plate 1220 ) can be fixed by aligning the angle with the irradiation direction of the optical signal.

3 and 4 , the reflection fixing pin unit 1200 may include the fixing pin 1210 , the reflection plate 1220 , and the fixing magnet 1230 .

As described above in FIG. 1 , the reflective fixing pin unit 1200 may be mounted in the through-hole having a circular shape provided at the center of the weight 3000 . Since the reflective fixing pin part 1200 is mounted on the through-hole provided in the weight 3000, a user can select a desired load to perform an exercise. Preferably, as the fixing pin 1210 is inserted into the through hole, the reflective fixing pin part 1200 may be fixed to the weight 3000, and as the user performs an exercise, the weight 3000 When the reflective fixing pin 1200 reciprocates up and down, it may reciprocate up and down together.

On the other hand, in order to accurately measure the amount of exercise as the user performs the exercise, it is preferable that the reflector 1220 is parallel to the weight 3000 . However, when the weight 3000 reciprocates up and down as the user performs the exercise, the reflector 1220 provided on the general fixing pin 1210 by the force applied up and down does not achieve parallelism. can be tilted toward In one embodiment of the present invention, since the reflection fixing pin unit 1200 includes the fixing magnet 1230 , the reflection fixing pin unit 1200 maintains parallel with the weight 3000 even if the user performs an exercise. Therefore, it is possible to measure the exact amount of momentum. Preferably, the reflective plate 1220 can accommodate the rectangular fixed magnet 1230 therein, and the fixed magnet 1230 with one side exposed is attached to the weight 3000 to fix the reflection. The pin unit 1200 may be fixed in parallel.

In this way, the fixed magnet 1230 is accommodated inside the reflecting plate and one side is exposed, so that the reflection fixing pin 1200 is fixed in parallel to the weight 3000 to accurately measure the amount of exercise according to the user's movement. can be effective.

5 schematically shows an exploded perspective view of the main body module 1100 according to an embodiment of the present invention.

Referring to FIG. 5 , the main body module 1100 is surrounded by the display cover 1150 , the front case 1160 , and the rear case 1170 described above in FIG. 2 to remove the main body module 1100 from the external environment. can protect Preferably, the front case 1160 and the rear case 1170 can protect the measurement module 1110 and the battery module 1130 of the main body module 1100 from external environments.

6 schematically shows the front surface of the measurement module 1110 according to an embodiment of the present invention, and FIG. 7 is a bottom view in which the body of the measurement module 1110 according to an embodiment of the present invention is rotated 90° to the left. is schematically shown.

The measurement module 1110 according to an embodiment of the present invention includes a first optical transmission/reception module for irradiating an optical signal to the upper surface of the reflection fixing pin 1200 at a preset period and sensing a first distance measurement return signal ( 1112(a)); and a second optical transmission/reception module 1112(b) for irradiating an optical signal to the upper surface of the reflection fixing pin unit 1200 at a preset period and sensing a second distance measurement return signal; including, the first optical transmission/reception Based on the period of the module 1112(a), the period of the second optical transmission/reception module 1112(b) may be shifted by a preset time to cross-sense the distance measurement return signal.

Referring to FIGS. 6 and 7 , the measurement module 1110 includes a measurement module body 1111 , an optical transmission/reception unit 1112 , a first substrate 1113 (a), and a second substrate 1113 (b). ), and may include a measurement module case 1114 .

The measurement module body 1111 includes an optical transmission/reception unit 1112 provided with the first optical transmission/reception module 1112(a), the second optical transmission/reception module 1112(b), and a first substrate 1113 ( a)), and may be disposed adjacent to the second substrate 1113(b).

Meanwhile, the optical transmission/reception unit 1112 may include the first optical transmission/reception module 1112(a) and the second optical transmission/reception module 1112(b). The optical signal transmitted from the optical transceiver 1112 irradiates the upper surface of the reflection fixing pin unit 1200, and the optical signal reflected on the upper surface of the reflection fixing pin unit 1200 is received by the optical transmitting and receiving unit 1112. , the optical transceiver 1112 may sense the distance measurement return signal. Preferably, in an embodiment of the present invention, the first optical transmission/reception module 1112 (a) transmits the optical signal to a predetermined upper surface of the reflection plate 1220 provided in the reflection fixing pin 1200 . Periodically irradiated, the optical signal is reflected from the upper surface of the reflector 1220, and the first optical transmission/reception module 1112 (a) receives the reflected optical signal to sense the first distance measurement return signal can In addition, the second optical transmission/reception module 1112 (b) irradiates the optical signal to the upper surface of the reflection plate 1220 provided in the reflection fixing pin 1200 at a predetermined period, and the optical signal is transmitted to the reflection plate Reflected from the upper surface of the 1220, the second optical transmission/reception module 1112(b) may receive the reflected optical signal and sense a second distance measurement return signal. More preferably, as the user performs an exercise, the reflective fixing pin 1200 fitted in the weight 3000 may reciprocate up and down, and the first optical transmission/reception module 1112 (a) and The second optical transmission/reception module 1112(b) may receive the reflected optical signal by irradiating the optical signal to the reflection fixing pin part 1200, and the weight 3000 that is moved up and down by the user ), by sensing the first distance measurement return signal and the second distance measurement return signal, which are changed according to the position, may collect the momentum.

In one embodiment of the present invention, when the first optical transmission/reception module 1112 (a) irradiates the optical signal to the upper surface of the reflector 1220 at a predetermined period, the second optical transmission/reception module 1112 ( b)) may irradiate the optical signal to the upper surface of the reflector 1220 at a period shifted by a preset time based on the period of the first optical transmission/reception module 1112(a).

In one embodiment of the present invention, the shifted period, which is a preset period of the second optical transmission/reception module 1112(b), is one period of the preset period of the first optical transmission/reception module 1112(a). It can be shifted in the interval range. Preferably, after the first optical transmission module 1112(a) transmits the first optical signal and before transmitting the second optical signal, the second optical transmission/reception module 1112(b) transmits the first optical signal. It can transmit an optical signal. After the first optical transmission/reception module 1112(a) and the second optical transmission/reception module 1112(b) each transmit the first optical signal, the optical signal is repeatedly transmitted by a preset period of each module. can be sent and received.

In addition, all periods of the optical transmission/reception unit 1112 including the preset period of the first optical transmission/reception module 1112(a) and the shifted period of the second optical transmission/reception module 1112(b) are, An error may occur, but it is not variable and may be constantly repeated.

In this way, the first optical transmission/reception module 1112(a) and the second optical transmission/reception module 1112(b) provided in the optical transmission/reception unit 1112 transmit the first distance measurement return signal and the second By sensing the distance measurement return signal at the intersection, it is possible to increase the precision of exercise information generated as the user performs an exercise, thereby reducing the measurement error of the anaerobic momentum measuring device 1000 can be exhibited.

On the other hand, the first substrate 1113 (a) and the second substrate 1113 (b) are disposed adjacent to the measurement module body 1111, and motion information based on the received distance measurement return signal can collect, measure the number of exercises, measure the weight of the weight 3000, and analyze exercise information. An operation system between the optical transceiver 1112 and the substrate unit 1113 including the first substrate 1113(a) and the second substrate 1113(b) will be described later in detail with reference to FIG. 8 .

On the other hand, the measurement module case 1114 can protect the measurement module body 1111 from the external environment, and the measurement module case 1114 includes the front case 1160 of the main body module 1100 and the It may be protected from the external environment by the rear case 1170 .

8 schematically shows an operation state diagram of the substrate unit 1113 and the optical transmission/reception unit 1112 according to an embodiment of the present invention.

Referring to FIG. 8 , the substrate unit 1113 includes a communication module 1113(c), a power supply unit 1113(d), a control unit 1113(e), and the display module 1113(f)). may include

The communication module 1113(c) may identify device information and a user through short-range wireless communication with a user terminal mounted on the cradle 1115 . Preferably, when the user mounts the user terminal on the cradle 1115 before performing the exercise, the communication module 1113(c) can identify the user through short-range wireless communication. In this case, the short-range wireless communication may include one or more of Near Field Communication (NFC), Radio Frequency Identification (RFID), Bluetooth, and a beacon, but is not limited thereto, and may include all devices capable of short-range wireless communication. can In addition, the user terminal may include one or more of a wearable device, a smart phone, and a smart watch, but is not limited thereto, and may include any device having a function to read NFC or RFID.

In addition, the communication module 1113(c) may transmit user information and device information through the cradle 1115 to the gateway 1116, and the user information includes the user's name, age, gender, It may include one or more of the exercise start time, but is not limited thereto, and the requested information may be transmitted to the gateway 1116 as necessary.

Meanwhile, the power supply unit 1113(d) may be provided on the substrate unit 1113 to supply power to the anaerobic momentum measuring device 1000 . The power supply unit 1113(d) may include all power sources including the battery module 1130 . The power supply unit 1113(d) is disposed on one side of the lower end surface of the main body module 1100 to control the power supply to the main body module 1100, and the control of the power supply can be controlled by the switch. have.

On the other hand, the control unit 1113(e), the exercise information collecting unit 1113(e).10, the number of movements measuring unit 1113(e).20, the weight measuring unit 1113(e).30 ), and an exercise information analysis unit 1113(e).40).

The motion information collection unit 1113(e).10, the optical transmission/reception unit 1112 including the first optical transmission/reception module 1112(a) and the second optical transmission/reception module 1112(b)) It is possible to collect the distance measurement return signal from.

The exercise frequency measurement unit 1113(e).20 may measure the number of exercises performed by the user based on the collected distance measurement return signal.

The weight measurement unit 1113(e).30 may measure the weight of the weight 3000 used when the user performs anaerobic exercise.

The exercise information analysis unit 1113(e).40 may analyze the exercise information performed by the user based on the measured number of exercises and the weight of the weight 3000. In addition, the motion information analysis unit 1113(e).40 does not analyze limited only to the number of motions and the weight of the weight 3000, but analyzes based on all information collected based on the distance measurement return signal. can

The display module 1113(f) may provide the exercise information to the user in real time by displaying the exercise information analyzed by the controller 1113(e). In addition, as described above in FIG. 2 , the display module 1113 (f) displays a screen through the display cover 1150 provided with the speaker 1180 and at the same time, through the speaker 1180 . A voice may be provided to the user.

In this way, by the mutual operation between the optical transmission and reception unit 1112 and the substrate unit 1113, the anaerobic momentum measuring device 1000 is attached and installed, and as the user performs exercise, exercise information is provided in real time. You can have the effect you can get.

9 schematically shows an exploded perspective view of the optical transceiver 1112 according to an embodiment of the present invention.

The first optical transmission/reception module 1112(a) according to an embodiment of the present invention includes an optical transmitter 1112(a).11 for transmitting an optical signal, and an optical receiver 1112(a) for receiving an optical signal. .12), and a transceiver board 1112(a).10 including a substrate coupling groove 1112(a).13; an alignment display member 1112(a).14 disposed on one side of the transceiver board 1112(a).10; and a case coupling groove 1112 (a). 21 in the form of a through hole provided at a position corresponding to the substrate coupling groove 1112 (a). 13 in the lower central portion, and provided at the upper end of one side and the alignment display member ( 1112(a).14) may include an optical transmission/reception module case 1112(a).20) including a concave hole 1112(a).22 to be displayed externally.

In an embodiment of the present invention, FIG. 9 may show the optical transmission/reception unit 1112, wherein the optical transmission/reception unit 1112 includes the first optical transmission/reception module 1112(a) or the second optical transmission/reception module. Since 1112(b) is included, it may be the first optical transmission/reception module 1112(a) or the second optical transmission/reception module 1112(b).

The optical transmission/reception unit 1112 may include the transceiver board 1112(a).10, and the optical transmission/reception module case 1112(a).20.

The transceiver board 1112(a).10 includes the light transmitting unit 1112(a).11, the light receiving unit 1112(a).12, the substrate coupling groove 1112(a).13), and an alignment display member 1112 (a).14.

The optical transmission unit 1112(a).11 includes the optical transmission/reception module case 1112(a).20 under the transceiver board 1112(a).10, the transceiver board 1112(a). 10), it is provided in a direction parallel to the insertion direction, and an optical signal can be irradiated to the upper surface of the reflection plate 1220 provided in the reflection fixing pin part 1200 .

The optical receiver 1112(a).12 is disposed adjacent to the optical transmitter/receiver 1112, and the optical transmitter/receiver module case 1112(a) is located below the transceiver board 1112(a).10. ).20) is provided in a direction parallel to the direction in which it is fitted to the transceiver board 1112(a).10, and reflected from the upper surface of the reflector 1220 provided in the reflection fixing pin unit 1200. By receiving the optical signal, the distance measurement return signal may be sensed.

The substrate coupling groove 1112(a).13 is disposed on the same axis as the case coupling groove 1112(a).21 of the optical transmission/reception module case 1112(a).20 to be described later, and the optical It can support the assembly of the sending/receiving module.

The alignment display member 1112(a).14 is coupled with the concave holes 1112(a).22 of the optical transmission/reception module case 1112(a).20 to be described later to assemble the optical transmission/reception module. can support you so that

In addition, in one embodiment of the present invention, when the user performs an exercise using an anaerobic exercise device, the reflection fixing pin unit 1200 in which the optical transmitter 1112(a).11 is reciprocated up and down by the user. ) by irradiating the optical signal, and by receiving the optical signal reflected from the reflection fixing pin part 1200 in which the optical receiver 1112(a).12 is moved up and down by the user, the user performs the exercise Sensing the distance measurement return signal that varies in real time according to, and based on the distance measurement return signal, the control unit 1113(e) provided in the substrate unit 1113 collects and analyzes the anaerobic exercise amount of the user. can Preferably, as the user performs an up-and-down reciprocating motion of the weight 3000, the optical transmitter 1112(a).11 and the light receiver 1112(a).12 operate the weight ( 3000) by irradiating the optical signal with the reflection fixing pin part 1200 inserted in the 1200) and receiving the reflected optical signal, the distance measurement return signal can be sensed to collect and analyze the user's exercise amount.

In this way, by the mutual operation between the optical transmission and reception unit 1112 and the substrate unit 1113, the anaerobic momentum measuring device 1000 is attached and installed, and as the user performs exercise, exercise information is provided in real time. You can have the effect you can get.

Meanwhile, the optical transmission/reception module case 1112(a).20 may include case coupling grooves 1112(a).21, and concave holes 1112(a).22.

The case coupling groove 1112(a).21 may support the transceiver board 1112(a).10 and the optical transmission/reception module case 1112(a).20 to be properly coupled. Preferably, the substrate coupling groove 1112(a).13 provided in the transceiver board 1112(a).10, and the case coupling provided in the optical transmission/reception module case 1112(a).20) Align the grooves 1112(a).21 to be positioned on the same axis with each other, and fastening members to the substrate coupling grooves 1112(a).13 and the case coupling grooves 1112(a).21) can be combined.

In this way, by fastening the fastening member through the substrate coupling groove 1112(a).13 and the case coupling groove 1112(a).21 provided in the optical transmission/reception unit 1112, the optical transmission/reception unit (1112) can exert the effect that it can be assembled in the correct position.

The concave hole 1112(a).22 may be a hole provided in a rectangular shape on one side of the optical transmission/reception module case 1112(a).20, and the concave hole 1112(a).22) The alignment display member 1112(a).14 disposed on one side of the transceiver board 1112(a).10 may be coupled to the transceiver board 1112(a).14, and a right side view of the optical transmission/reception module after fastening is as shown in FIG. It will be described later in detail with reference to FIG. 10 .

10 schematically shows a right side view of the optical transceiver 1112 according to an embodiment of the present invention.

Referring to FIG. 10 , the alignment display members 1112 (a). 14 provided in the transceiver board 1112 (a). 10 are provided in the optical transmit/receive module case 1112 (a). 20. It may be coupled to the concave hole 1112(a).22. The alignment indicating member 1112(a).14 has a protruding shape and is disposed on one side of the transceiver board 1112(a).10. The alignment display member 1112(a).14 is formed when the transceiver board 1112(a).10 is coupled to the optical transceiver module case 1112(a).20, the transceiver board 1112( a).10) and the optical transmission/reception module case 1112(a).20) can be supported so that they can be properly combined.

In this way, the alignment display member 1112 (a). 14 provided in the transceiver board 1112 (a). 10 and the concave hole ( By fastening 1112(a).22), it is possible to exhibit the effect that the optical transceiver 1112 can be assembled in a correct position.

11 schematically shows a rear surface of an attachment module 1120 according to an embodiment of the present invention, and FIG. 12 schematically shows an attachment plate 1122 according to an embodiment of the present invention.

The attachment module 1120 according to an embodiment of the present invention has a semi-cylindrical shape having a through hole in the center, and a rod receiving member 1121 capable of accommodating the weight frame 2000 inside the through hole; attachment shaft (1123); A plurality of bolt holes 1122 (b) to which a bolt capable of being coupled to the rod receiving member 1121 can be fastened, and an attachment shaft hole 1312 to which a part of the attachment shaft 1123 can be coupled. The attachment plate 1122 is formed; a first nut (1125) for fixing the attachment plate (1122) to the attachment shaft (1123) from the front side of the attachment plate (1122); and a second nut 1126 for fixing the attachment plate 1122 to the attachment shaft 1123 on the rear surface of the attachment plate 1122, wherein the first nut 1125 and the second nut ( By adjusting the position of 1126), it is possible to adjust the distance between the measurement module 1110 and the exercise device.

Referring to FIG. 11 , the attachment module 1120 may include the sealing member 1121 , the attachment plate 1122 , and an attachment shaft 1123 .

The rod accommodating member 1121 may have a semi-cylindrical shape having a through hole in the center thereof, and the weight frame 2000 may be accommodated in the through hole. However, in preparation for the fact that the thickness of the weight frame 2000 may be different depending on the exercise equipment, the rod accommodating member 1121 is not composed of a single size and can accommodate all the weight frames 2000 . It can be modularized. In one embodiment of the present invention, when the weight frame 2000 is thicker than FIG. 11 , the diameter of the through-hole of the rod receiving member 1121 is increased corresponding to the thickness of the weight frame 2000 for rod sealing. The weight frame 2000 may be accommodated using the member 1121 .

As such, as the rod receiving member 1121 corresponding to the thickness of the weight frame 2000 is modularized and provided, the user can attach and install the anaerobic momentum measuring device 1000 without restriction of the exercise equipment. can be effective.

Meanwhile, the attachment plate 1122 may include a bolt hole 1122 (b) and the shaft hole 1122 (a), as shown in FIG. 12 .

The bolt holes 1122 (b) are disposed on both sides of the attachment plate 1122 to fix a plurality of rod receiving members 1121 corresponding to the thickness of the weight frame 2000 to the attachment plate 1122. can do. Preferably, the rod receiving member 1121 selected to correspond to the thickness of the weight frame 2000 receives the weight frame 2000 in the through hole, and the fixing bolt 1124 is attached to the attachment plate ( 1122) can be fixed by fastening to the plurality of bolt holes 1122 (b) disposed on both sides.

The shaft hole 1122(a) may be disposed adjacent to the bolt hole 1122(b) to fix the measurement module 1110 to the attachment plate 1122 . 11 , the attachment shaft 1123 may be inserted into the shaft hole 1122 (a) and fixed with a first nut 1125 . The attachment shaft 1123 fixed by the first nut 1125 will be described later in detail with reference to FIG. 13 .

13 schematically shows a plan view in which the main body module 1100 is rotated 90° to the left according to an embodiment of the present invention.

Referring to FIG. 13 , one end of the attachment shaft 1123 is inserted into the shaft hole 1122 (a) of the attachment plate 1122 , and the first end of the attachment shaft 1123 is on the front and rear surfaces with respect to the attachment plate 1122 . The position may be fixed with the first nut 1125 and the second nut 1126 . The other end of the attachment shaft 1123 is inserted into the hole provided in the rear case 1170 of the measurement module 1110, and a third nut 1127 and The position may be fixed with the fourth nut 1128 . Preferably, the attachment shaft 1123 is inserted into the shaft hole 1122 (a) provided in the attachment plate 1122, one end is fixed to the attachment plate 1122, and the other end is the rear case ( By being fixed to 1170 , the measurement module 1110 may be fixed to the attachment plate 1122 . More preferably, the attachment shaft 1123 may fix the attachment module 1120 and the measurement module 1110 to be connected to each other.

In an embodiment of the present invention, the position of the measurement module 1110 can be controlled by adjusting the fastening of the first nut 1125 and the second nut 1126 as shown in the double-headed arrow shown in FIG. 13 . have. At this time, the third nut 1127 and the fourth nut 1128 are fixed to the rear case 1170 into which the attachment shaft 1123 is inserted, which can be generated as the user performs an exercise. It can prevent shaking due to load. Preferably, the distance between the measuring module 1110 and the exercise device can be controlled by the first nut 1125 and the second nut 1126 for fastening the attachment shaft 1123 .

In this way, the position of the measurement module 1110 fixed to the attachment plate 1122 is adjusted by the attachment shaft 1123 and a plurality of nuts, thereby implementing the anaerobic momentum measuring device 1000 with high user convenience. possible effect can be exerted.

14 schematically shows a rear view of the main body module 1100 according to an embodiment of the present invention, and FIG. 15 schematically shows a right side view of the main body module 1100 according to an embodiment of the present invention.

14 and 15 , the measurement module 1110 constituting the main body module 1100 may be installed by being attached to the weight frame 2000 by the attachment module 1120 . Preferably, the attachment module 1120 may fix the rod receiving member 1121 to the attachment plate 1122 using the fixing bolt 1124, and using the attachment shaft 1123 The measurement module 1110 may be fixed to the attachment plate 1122 .

Meanwhile, the battery accommodating part 1131 may be disposed in the center of the right side of the front case 1160 of the main body module 1100 to connect the battery module 1130 to the measurement module 1110 . The battery module 1130 connected to the measurement module 1110 by the battery accommodating unit 1131 may measure the amount of exercise generated according to the user's exercise by supplying power to the measurement module 1110 .

16(A) and 16(B) schematically show a reflection fixing pin unit 1200 according to an embodiment of the present invention.

As shown in Fig. 16(A), the reflection fixing pin unit 1200 includes the reflection plate 1220 for reflecting the optical signal, a handle 1250 for the user to hold the reflection fixing pin unit 1200, and various other components. A fixing pin insertion groove 1240 into which various types of fixing pins (not shown) that can be applied to a weight shape can be inserted are formed.

Therefore, the user inserts a general fixing pin (not shown) suitable for the weight according to the shape of the weight into the fixing pin insertion groove 1240, and as a result, the reflective fixing pin part 1200 and the fixing pin (not shown) At the same time, while fixing the weight 3000 in such a way that the combination of the weights 3000 is interposed between the weights 3000, it is possible to measure the amount of exercise as the user performs the exercise.

Figure 16 (B) is shown in more detail with respect to the fixing pin insertion groove (1240). The fixing pin insertion groove 1240 may have a concave groove shape, and the fixing pin (not shown) may be inserted into the fixing plate insertion groove 1240 having the groove shape.

On the other hand, after the fixing pin (not shown) is inserted into the fixing pin insertion groove 1240 in FIGS. 16A and 16B , the fixing pin fixing hole formed on the upper surface of the reflective fixing pin part 1200 . By inserting a fixing pin fixing bolt (not shown) in 1260 , the fixing pin (not shown) can be firmly fixed to the fixing pin insertion groove 1240 .

According to an embodiment of the present invention, since the display module is provided in the main body module and the speaker is provided in the display cover, it is possible to exhibit the effect that the user can be provided with exercise information performed while using anaerobic exercise equipment.

According to an embodiment of the present invention, the fixed magnet is accommodated inside the reflector and exposes one side, thereby fixing the reflective fixing pin in parallel to the weight to achieve the effect of accurately measuring the amount of exercise according to the user's movement. have.

According to an embodiment of the present invention, the first optical transmission/reception module and the second optical transmission/reception module provided in the optical transmission/reception unit alternately sense the first distance measurement return signal and the second distance measurement return signal, so that the user performs an exercise It is possible to increase the precision of the motion information generated according to the movement and to reduce the measurement error of the anaerobic momentum measuring device.

According to an embodiment of the present invention, by the mutual operation between the optical transmission and reception unit and the substrate unit, an anaerobic momentum measuring device is attached and installed, and as a user performs an exercise, exercise information can be provided in real time. can

According to an embodiment of the present invention, the fastening member is fastened through the substrate coupling groove and the case coupling groove provided in the optical transceiver, and the alignment display member provided in the transceiver board and the concave hole provided in the optical transceiver module case are fastened. By doing so, it is possible to exhibit the effect that the optical transceiver can be assembled in a correct position.

According to an embodiment of the present invention, as the rod receiving member corresponding to the thickness of the weight frame is modularized and provided, it is possible to exhibit the effect that the user can attach and install the anaerobic momentum measuring device without restriction of the exercise device.

According to an embodiment of the present invention, the position of the measurement module fixed to the attachment plate is adjusted by the attachment shaft and a plurality of nuts, thereby exhibiting the effect of realizing an anaerobic momentum measuring device with high user convenience.

As described above, although the embodiments have been described with reference to the limited embodiments and drawings, various modifications and variations are possible for those skilled in the art from the above description. For example, the described techniques are performed in a different order than the described method, and/or the described components of the system, structure, apparatus, circuit, etc. are combined or combined in a different form than the described method, or other components Or substituted or substituted by equivalents may achieve an appropriate result.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

1000: anaerobic momentum measuring device
1100: body module
1110: measurement module
1111: measurement module body 1112: optical transmission and reception unit
1112(a): first optical transmission/reception module
1112(a).10: Transceiver board
1112(a).11: optical transmitter 1112(a).12: optical receiver
1112(a).13: substrate coupling groove 1112(a).14: alignment display member
1112(a).20: optical transmit/receive module case
1112(a).21: case coupling groove 1112(a).22: concave hole
1112(b): second optical transmission/reception module
1113: substrate unit
1113(a): first substrate 1113(b): second substrate
1113(c): Communication module 1113(d): Power supply
1113(e): Controls
1113(e).10: exercise information collection unit 1113(e).20: exercise frequency measurement unit
1113(e).30: weight measurement unit 1113(e).40: motion information analysis unit
1113(f): display module
1114: measurement module case 1115: cradle
1116: gateway
1120: attachment module
1121: sealing member 1122: attachment plate
1122(a): shaft hole 1122(b): bolt hole
1123: attachment shaft 1124: fixing bolt
1125: first nut 1126: second nut
1127: third nut 1128: fourth nut
1130: battery module 1131: battery receiving unit
1140: display module 1150: display cover
1160: front case 1170: rear case
1180: speaker 1190: power switch
1200: reflection fixing pin portion
1210: fixing pin 1220: reflector
1230: fixed magnet 1240: fixed pin insertion groove
1250: handle 1260: fixing pin fixing hole
2000: weight frame
3000: weight
4000: pulling wire
5000: weight connection part

Claims (6)

As an anaerobic momentum measuring device,
body module; and a reflective fixing pin portion;
The body module is
a battery module for supplying power to the main body module;
a measuring module for sensing a distance measurement return signal by irradiating an optical signal to the upper surface of the reflective fixing pin unit, and deriving movement information including at least one of the number of movements and the weight of the weight based on the distance measurement return signal;
an attachment module fixed to the weight frame of the exercise device to attach the measurement module, and to control the distance between the measurement module and the exercise device; and
A display module for displaying the exercise information derived from the measurement module; including, anaerobic momentum measuring device.
The method according to claim 1,
The reflective fixing pin portion,
a fixing pin having a cylindrical shape and being inserted into the center of the weight of the exercise device;
a reflective plate in the form of a plate accommodating the fixing pin on one side and reflecting the optical signal emitted from the measurement module; and
Including; a stationary magnet disposed on the side surface of the reflector;
The stationary magnet is attached to the front surface of the metal weight, the anaerobic momentum measuring device that can be fixed by aligning the angle of the plate-shaped reflector in the irradiation direction of the optical signal.
The method according to claim 1,
The measurement module is
a first optical transmission/reception module for irradiating an optical signal to the upper surface of the reflective fixing pin unit at a preset period and sensing a first distance measurement return signal; and
A second optical transmission/reception module for irradiating an optical signal to the upper surface of the reflective fixing pin unit at a preset period and sensing a second distance measurement return signal;
Based on the period of the first optical transmission/reception module, the cycle of the second optical transmission/reception module is shifted by a preset time to cross-sensing the distance measurement return signal, anaerobic momentum measuring device.
4. The method according to claim 3,
The first optical transmit/receive module,
a transceiver board including an optical transmitter for transmitting an optical signal, a light receiver for receiving an optical signal, and a substrate coupling groove;
an alignment display member disposed on one side of the transceiver board; and
Including; a case coupling groove in the form of a through hole provided at a position corresponding to the substrate coupling groove in the lower central portion, and an optical transmission/reception module case provided at an upper end of one side and including a concave hole for displaying the alignment display member to the outside; An anaerobic momentum measuring device.
The method according to claim 1,
The attachment module is
a bar accommodating member having a semi-cylindrical shape having a through hole in the center, and capable of accommodating a weight frame inside the through hole;
attachment shaft;
an attachment plate having a plurality of bolt holes to which bolts that can be coupled to the sealing member can be fastened, and an attachment shaft hole to which a part of the attachment shaft can be coupled;
a first nut for fixing the attachment plate to the attachment shaft from the front surface of the attachment plate; and
a second nut for fixing the attachment plate to the attachment shaft from the rear surface of the attachment plate; and
By adjusting the positions of the first nut and the second nut, the distance between the measuring module and the exercise device can be adjusted, anaerobic momentum measuring device.
The method according to claim 1,
The exercise equipment is
An anaerobic momentum measuring device, comprising at least one of a press machine, a lat pull-down machine, an arm curl machine, a cable row machine, a fly peck deck machine, a triceps extension, and a leg extension, which is a device for exercising with a force that resists a weight .

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