KR101770563B1 - Exerciser equipped acupuncture - Google Patents

Abstract

The present invention relates to a sports machine provided with a syringe needle capable of adjusting the torsional strength to match the strength of the exerciser and capable of exercising while performing finger pressure.
A sports exercise machine provided with a syringe needle according to the present invention includes a body, a torsion spring having one end attached to the body, a torsion spring installed along the longitudinal direction of the body, a second end of the torsion spring pivotally mounted on the body, And a control unit provided between the handle unit and the main body for adjusting the torsional strength of the torsion spring.
According to the exercise machine provided with the syringe needle of the present invention, the arm muscles can be effectively strengthened by easily carrying and adjusting the exercise intensity easily, and the whole body can be made healthier by stimulating the blood of the finger And the exercise information can be transmitted to the smart device or the information of the smart device can be received, so that the arm muscle exercise can be continuously managed for each individual.
In addition, it is paired with a smart device such as a mobile phone, and the user performs acupressure and exercise by the program of the device, thereby enhancing the exercise level as the game.

Description

[0001] Exerciser equipped acupuncture [0002]

More particularly, the present invention relates to a sports exercise machine provided with a syringe needle and having a syringe capable of exercising the wrist and arm while adjusting the torsional strength and adjusting the strength of the exerciser .

Forearm is a very important body part for people to enjoy everyday life and exercise. When the frontal muscles are exercised, the strength of the arms and the grip of the handles are strengthened, Many people feel the need to train their front muscles as they can achieve.

There are many ways to train the frontal muscles. However, there are many ways to use it, such as a "chu-chul" type exercise device that ties a rope to a rod of a certain length and hangs the rope at the end of the rope Has come. It is not easy to carry, and since it can not manage the display and exercise amount of exercise intensity and can not be interested, it has not been popularized by many people.

Korean Unexamined Patent Publication No. 2012-0006915 and Korean Unexamined Patent Publication No. 2013-0030048 are disclosed as an improved front end exerciser for training a front end. The improved anteroposterior exerciser is a trainer that removes the rope and attaches the weight or places the weight at a specific position on the rod and frictionally adjusts the weight to keep the weight or weight at a certain angle to the front or back .

FIG. 1 shows Korean Patent Laid-Open Publication No. 2013-0030048 as a conventional improved front end exerciser. As shown, the improved front-end exerciser includes a housing 10 having a hollow interior formed therein, a housing 10, a friction module 20 that frictionally generates frictional force, and a friction module 20 that is coupled to the friction module 20 A weight module 40 fixed to the housing 10 to provide a load and a display device 50 providing information on the relative rotation of the handle module 30, .

When the muscular strength is strengthened by the exercise, the weight of the weight of the weight is increased or the weight of the weight of the weight is increased or the position of the weight is changed to increase the rotation moment Increase the intensity of exercise to exercise.

However, in the former type of the winder-type front-end exerciser or the improved front-end exerciser, since the intensity of the exercise should be adjusted in accordance with the addition of the weight portion, In addition, there is a problem that it is difficult to increase the exercise effect because it is not possible to shave hands at the time of gripping the ankle exerciser or the improved ankle exerciser.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a exercise machine provided with a syringe needle capable of easily controlling the strength of movement and chiropracting the palm and fingers during exercise.

Another object of the present invention is to provide a exercise machine provided with a syringe so as to facilitate the interest of the athlete, the appearance is good, and the exercise intensity and the exercise amount can be easily managed.

In order to attain the above object, according to the present invention, there is provided a exerciser comprising a body, a torsion spring having one end attached to the body, a torsion spring installed along the longitudinal direction of the body, A handle unit including at least one finger pressure portion for pressing the finger tip when gripping with the hand, and an adjustment unit provided between the handle unit and the main body to adjust the torsional strength of the torsion spring.

The finger pressure portion includes a housing, a push button inserted into the housing and pressed by a finger, and a syringe which is attached to the push button and presses the finger when pressed by a finger.

The finger pressure portion is provided with an elastic portion for restoring the push button.

An adjuster for adjusting the protruding length of the resin needle can be connected to the resin needle.

A control unit for calculating movement data according to a sensing signal of the sensor, and a control unit for controlling the control unit to calculate the movement data calculated by the control unit, And a power generation unit generating electricity according to the rotation of the handle unit, wherein the control unit is paired with the smart device, and can display the acupressure and the exercise state on the smart device by the program of the smart device.

The exercise machine provided with the syringe needle according to the present invention is easy to carry and can easily strengthen the arm muscles by adjusting the exercise intensity to effectively strengthen the arm muscles and stimulate the palms and fingers to stimulate the whole body It can be healthy.

In addition, the exercise machine provided with the syringe needle according to the present invention transmits motion information to a smart device, receives information of a smart device, and is capable of continuously managing arm muscle movements individually and is paired with a smart device such as a mobile phone So that it is possible to exercise by the program of the apparatus.

FIG. 1 is a perspective view showing a conventional front end exerciser. FIG.
2 is a front view showing a sports machine provided with a syringe needle according to an embodiment of the present invention.
FIG. 3 is a rear view of a exercise machine provided with a needles according to an embodiment of the present invention.
4 is a cross-sectional view taken along the line AA in Fig.
Fig. 5 is a cross-sectional view showing a pressurizing action state in accordance with the movement of the pushbutton of arrow BB in Fig.
Fig. 6 is an exploded perspective view showing the main body of Fig. 2 and the adjustment unit separately. Fig.
7 is a detailed view showing a power generating portion provided between the main body of Fig. 2 and the handle unit.
8 is a block diagram showing a control system of the control unit according to the embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Note that, in the drawings, the same components are denoted by the same reference symbols as possible. Further, the detailed description of known functions and configurations that may obscure the gist of the present invention will be omitted. For the same reason, some of the components in the drawings are exaggerated, omitted, or schematically illustrated.

FIG. 2 is a front view showing a sports machine provided with a syringe needle according to an embodiment of the present invention, FIG. 3 is a rear view showing a sports machine provided with a syringe needle according to an embodiment of the present invention, Fig. 5 is a cross-sectional view showing a state in which the pushing button moves along the arrow BB in Fig. 2, Fig. 6 is an exploded perspective view showing the main body of Fig. 2 is a detailed view showing a power generating portion provided between the main body and the handle unit of Fig. 2; Fig.

2 to 7, the exercise machine 100 provided with a syringe needle according to an embodiment of the present invention includes a main body 110, a torsion spring 120, a handle unit 130, a pressure applying portion 140 A control unit 150, a control unit 160, and a power generation unit 170. The torsion spring 120, the handle unit 130, the adjusting unit 150 and the power generating unit 170 may be installed only on one side of the main body 110. However, in consideration of balance, strength of the torsion spring, It is preferable that they are provided on both sides of the base 110. In this embodiment, structures provided on both sides of the main body 110 will be described by way of example.

The main body 110 is formed as a cylindrical block, and the adjustment unit 150 and the handle unit 130 are sequentially installed on both sides. A concave space S surrounding the central protrusion 111a is formed on both sides of the center of the body 111 of the main body 110 and a first A spring engagement portion 112 is provided. The first spring latching part 112 is fixed to the body 111, but may be integrally formed with the body 111. The main body 110 or the handle unit 130 may include a controller 160 including a sensor, an operation switch, a wireless transmitting / receiving unit, a sound generating unit, a liquid crystal display unit, a lighting display unit, and a battery.

A setting hole 111b is formed on both sides of the body 111 so that the spring 153 and the setting member 152 of the adjustment unit 150 are inserted. The setting hole 111b forms an exposed portion 111c exposed inside the body 111 and extends to a guide portion 111d for guiding the adjusting knob 151 of the adjusting unit 150. [

The torsion spring 120 is accommodated in the recessed space S of the main body 110 so that one end of the torsion spring 120 is engaged with the first spring engagement portion 112 and the other end of the torsion spring 120 is engaged with the second spring engagement portion 133 of the handle unit 130 And is disposed along the longitudinal direction of the main body 110.

The handle unit 130 includes a handle 131 formed in a direction intersecting the center axis of the main body 110 and rotatably mounted on the other end of the torsion spring 120 aligned with the longitudinal direction of the main body 110 A connection part 132 provided in the handle 131 to guide the adjustment knob 151 and pivotally connected to the main body 110 through a bearing 181 and a torsion spring 120 And a second spring engaging portion 133 to which the other end of the second spring engaging portion 133 is attached.

The knob 131 is fixed to the connection portion 132 where the gap holding ring 134 maintaining a constant gap with the adjustment unit 150 is fitted with the first fastening member 135. A finger pressure projection is formed on the surface of the handle 131 so that a movement effect and an acupressure effect can be enhanced by pressing the palm surface contacting the handle 131 when the handle 131 is gripped. The handle 131 is formed asymmetrically in the right and left directions and the liquid crystal display part 197 is provided on the protrusion protruding along the axial direction of the main body 110. The handle 131 may be formed symmetrically to the left and right, But is not limited thereto.

The connection portion 132 is formed by projecting a bearing receiving portion 132b in which the bearing 181 is received to one side of the support flange 132a on which the adjustment knob 151 of the adjustment unit 150 is circumscribed and supported, And a handle engagement portion 132c to which the handle 131 is extruded is protruded to the other side of the handle 132a. The bearing receiving portion 132b is fixed to the central projection portion 111a of the main body 110 via the bearing 181 by the second fastening member 137. [ The bearing 181 is tightened by the tightening nut member 138 to be fixed in position, and the first fastening member 135 is screwed into the tightening nut member 138.

The second spring latching part 133 is fixed to the support flange 132a of the connection part 132 but may be formed integrally with the support flange 132a.

At least one finger grip portion 140 is provided on the handle 131 to press the finger tip when the finger 131 is gripped. The finger pressure unit 140 is provided on the upper side of the handle 131 so as to press the thumb of the left hand and the right hand against the front face of the hand grip 131, A plurality of acupressure parts 140b, 140c, 140d, and 140e may be arranged so as to pressurize the substrate.

At this time, although the pressure-sensitive parts 140 arranged on the rear surface are arranged to be located on the same axis along one direction, the arrangement position of the pressure-sensitive part 140 can be changed according to the position of the finger touching the back surface, It is not.

The acupressure part 140 has a housing 141 to be inserted into a hollow part 136 formed in the handle 131, a syringe needle 142 provided inside the housing 141 and a syringe needle 142 connected to the other end of the syringe needle 142 A push button 144 and a push button 144 which are inserted into the housing 141 and in which the hole 144b is formed on the surface facing the resin syringe 142, And an elastic portion 145 for elastically moving along the inner circumferential surface of the base portion 141. The rescuer needle 142 is provided inside the push button 144 and the adjuster 143 is adjusted by screwing it with the housing 141. [

The elastic portion 145 is disposed in the step 144c formed at the end of the push button 144 and the space 144d formed in the inner peripheral surface of the housing 141. [ When the push button 144 is pressed by the user, the push button 144 is moved along the pushing direction while pressing the elastic part 145. The push button 144 is moved to the hole 144b formed in the push button 144, So that the finger of the user can be shaved. At this time, the plurality of syringe needles 142 are formed at the end of the finger tip so that a plurality of blood points distributed at the tip of the finger can be shivered by finger pressure as a whole. When the depression of the push button 144 is released, the resilient portion 145 restores the position of the push button 144 and stops the finger pressure. (See Figs. 5 (a) and 5 (b)

The adjusting unit 150 is provided between the handle unit 130 and the main body 110 and adjusts the torsional strength of the torsion spring 120. When the torsion spring 120 is rotated by being guided by the main body 110, A control knob 151 formed with a ratchet gear portion 151d for adjusting the degree of twist and a setting hole 111b formed in the body portion 111 of the main body 110 to set the rotation position of the adjustment knob 151 And a spring 153 which is inserted into the setting hole 111b together with the setting member 152 to apply an elastic force to the setting member 152. [

One side of the adjustment knob 151 is composed of a flange portion 151a on the outside of which the body portion 111 is in contact and the other side on which the support flange 132a is in contact and a web portion 151b formed in the middle of the inside of the flange portion 151a A guide hole 152c for guiding the second spring engaging portion 133 is formed in the web portion 151b in the form of a semicircular strip along the circumferential direction and the body portion 111 is formed in the flange portion 151a And a ratchet gear portion 151d is formed on the inner surface of one side abutting on the abutting portion. The outer surface of the other side of the flange portion 151a is provided with a concave / convex portion for raising frictional force when it is grasped by hand. The web portion 151b is fitted and slid on the outer surface of the friction member 182 fitted to the edge of the support flange 132a and the bearing receiving portion 132b. The other side of the adjustment knob 151 is slidably supported while circumscribing the support flange 132a of the connection portion 132. [ The ratchet gear portion 151d causes the adjusting knob 151 to rotate in only one direction according to the elastic force of the spring 153 by the latching projection portion 142b of the setting member 152. [

The setting member 152 is formed with a flat surface 152a on one side circumferential surface and a locking protrusion 152b for engaging with the ratchet gear portion 151d and rotating the adjusting knob 151 only in one direction is provided on the flat surface 152a. Is formed. The setting member 152 is formed with a concave groove into which the spring 153 is inserted. The adjusting protrusion 152b is formed with an inclined surface having the same inclination as the ratchet gear portion 151d so that the adjusting knob 151 is rotated in only one direction in accordance with the rotation of the adjusting knob 151, So that the adjustment knob 151 is prevented from rotating in the other direction by engaging with the ratchet gear portion 151d. The engaging protrusion 152b is exposed through the exposed portion 111c of the setting hole 111b and engaged with the surface of the ratchet gear portion 151d.

The control unit 160 calculates movement data according to a sensing signal of a sensor to be described later, and controls the exercise machine 100 provided with a syringe needle, and is installed in the body 110 in the present embodiment. The control unit 160 includes a CPU for performing overall control, and includes a voice control unit, an image control unit, a communication control unit, a timer, a detection signal processing unit, an operation unit, and a data storage unit.

The power generating portion 170 generates electricity according to the rotation of the handle unit 130 and includes a stator 171 provided at the end of the central projection portion 111 of the main body and a stator 171 provided at the end of the connecting portion 132 of the handle unit 130 And a main body 110 is provided with a battery 173 for storing electricity generated by an electromagnetic interaction between the stator 171 and the rotor 172.

A sensor 191 such as an encoder for detecting the amount of rotation of the rotor 172 and the number of rotations of the rotor 172 is installed in the central protruding portion 111a of the main body 110. A torsional force A sensor 192 such as a strain gauge for detecting the amount of rotation and the number of rotation of the adjustment knob 152 is provided and the finger pressure and the number of finger pressure according to the finger pressure of the finger pressure unit 140 A sensing sensor may be installed.

FIG. 8 is a block diagram showing a control system of a control unit of a exercise machine provided with a needles according to an embodiment of the present invention. 8, the control system of the control unit 160 includes a power generation unit 170 including the battery 173 described above and a plurality of sensors 191, 192, and 193, an operation unit 194, A sound generating unit 196, a liquid crystal display unit 197, a lighting display unit 198, and the like.

The operation unit 194 is a switch for operating the control unit 160, and may be a wireless switch or various input means. The wireless transmission / reception unit 195 detects movement information and pressure and pressure of each finger in the finger pressure unit calculated by the control unit 160 and transmits the information to the smart device H such as a smart phone or the information of the smart device H . The sound generating unit 196 generates a sound or sound such as a guidance sound or a rhythm sound in the course of exercise under the control of the controller 160, and includes a speaker for transmitting sound or sound messages. The liquid crystal display part 197 and the lighting display part 198 are parts for displaying motion data such as the intensity of the motion and the amount of exercise (calories burned) and the exercise time calculated by the controller 160, 160 for displaying letters or numbers, and the lighting display unit 198 is an LED or the like for displaying motion information by lighting a light source. The sound generating unit 196 and the liquid crystal display unit 197 are formed on the main body 110 and the lighting display unit 198 is formed on the handle 131. However,

The control unit 160 may be paired with the smart device H and may display the acupressure and the exercise state on the smart device by the program of the smart device H. [

In the exercise machine 100 provided with a syringe needle according to the embodiment of the present invention configured as described above, the user first rotates the adjustment knob 151 of the adjustment unit 150 to adjust the torsional strength corresponding to his / her own strength. At this time, when the adjustment knob 151 is rotated, the second spring latching part 133 fixed to the connection part 132 of the handle unit 130 is engaged with the guide hole 151c so that the torsion spring 120 rotates The initial torsional strength is changed.

The degree of twist of the torsion spring 120 is determined such that the sensing signals of the sensors 191, 192 and 193 due to the rotation of the adjusting knob 151 are transmitted to the controller 160, the initial twist force is calculated in the controller 160, (197). The user views the twist force displayed on the liquid crystal display unit 197 and rotates the adjustment knob 151 at an appropriate twist intensity to set an initial twist force. The adjustment knob 151 is rotated only in one direction while being engaged with the ratchet gear portion 151d by the setting member 152 and the spring 153. [

Next, when the user is exercising, the user holds the handle 131 of the handle unit 130 with both hands and rotates in opposite directions with respect to the main body 110. Then, the second spring engagement portion 133 is guided by the guide holes 152c The torsion spring 120 is twisted. When the force applied to the knob 131 is removed, the initial torsional force is restored according to the restoring force of the torsion spring 120, so that the exercising of the front arm can be continued.

The motion data such as the intensity of the exercise and the exercise energy or the consumed energy during the exercising of the front end of the user are continuously inputted to the controller 160 according to the sensing signals of the sensors 191, 192 and 193, The exercise data is displayed through the sound generating unit 196, the liquid crystal display unit 197, and the lighting display unit 198 together with the exercise guidance. The exercise data and the exercise guidance stored in the data storage unit of the control unit 160 are transmitted to the smart device H such as the smartphone of each individual through the wireless transmission / reception unit 195, The exercise machine 100 can be used to exercise and manage each exercise state in cooperation with a smart device H such as a smart phone.

During the movement, electricity is generated in accordance with the rotation of the rotor 172 in the power generation unit 160 according to the rotation of the handle unit 130. The generated electricity is stored in the battery 173, And supplies power to the control system. Accordingly, it is not necessary to supply power to the exercise machine 100 provided with the syringe.

At this time, the thumb of the finger presses the pressure-sensitive portion 140 corresponding to the thumb among the pressure-sensitive portion 140, and the pressure-sensitive portions 140b, 140c, 140d, and 140e corresponding to the detection, So that the finger is pressed. At this time, the sensor 199 provided on the finger pressure unit 140 detects the finger pressure strength and the finger pressure number, and transmits the data to the external device so that the finger can be exercised effectively.

It should be noted that the embodiments of the present invention disclosed in the present specification and drawings are only illustrative of the present invention in order to facilitate the understanding of the present invention and are not intended to limit the scope of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

100: Athlete 110: Body
111: body portion 112: first spring engagement portion
120: torsion spring 130: handle unit
131: handle 132: connection
133: second spring locking portion 134: gap retaining ring
135: first fastening member 136: hollow
137: second fastening member 138: fastening nut member
140: acupressure part 141: housing
142: Reshape 143: Coordinator
144: Push button 145:
150: regulating unit 151: regulating knob
152: setting member 153: spring
160; Control unit 170:
171: stator 172: rotor
173: Battery 181: Bearing
182: friction member 191, 191, 193:
194: Operation section 195: Wireless transmission /
196: Acoustic generator 197: Liquid crystal display
198:
H: Smart device S: Lap space

Claims (5)

A body 110,
A torsion spring 120 having one end connected to the main body 110 and installed along the longitudinal direction of the main body 110,
A handle unit 130 rotatably installed on the main body 110 to receive the torsion spring 120 and having at least one finger pressure unit 140 for pressing the finger tip when the finger is gripped by the hand, ,
And a control unit (150) provided between the handle unit (130) and the main body (110) to adjust the torsional strength of the torsion spring (120)
The adjustment unit 150
An adjustment knob 151 having a ratchet gear portion 151d for adjusting the degree of twist of the torsion spring 120 as it is guided and rotated by the main body 110,
And a setting member (152) inserted into the main body (110) to set a rotation position of the adjustment knob (151). The method according to claim 1,
The pressure-
A housing,
A push button inserted into the housing and pressed by a finger,
And a needle provided on the push button to press the finger when pressed by a finger. The method of claim 2,
And a resilient portion for restoring the push button is additionally provided on the finger pressure portion. The method of claim 2,
And an adjuster for adjusting the protruding length of the resin needle is connected to the resin needle. The method of claim 2,
In the main body or the handle unit,
A sensor for sensing a turning amount of the adjusting unit and the handle unit, a number of turning times, and the push button,
A controller for calculating motion data according to a sensing signal of the sensor,
A display unit for displaying the exercise data calculated by the control unit,
A power generating unit for generating electricity according to a rotation of the handle unit,
Wherein,
Wherein the smart device is paired with the smart device, and displays the acupressure and movement state on the smart device by the program of the smart device.

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