• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention overcomes the limitations of the existing two-dimensional chest exercise equipment and supplements the various approaches of the inverted three-dimensional trajectory and the chest muscle to increase the concentration on the three-dimensional and chest muscles having the trajectory in which the chest movement is secured in the shortening concept. It is to provide a three-dimensional inverted chest anaerobic exercise equipment to provide safer and more efficient exercise for chest movement by providing three-dimensional trajectory. In particular, the present invention is approached by changing the direction of the torsion by using the characteristics of the pectoral muscle as a trajectory different from the chest and the lower chest exercise device that the inventor has filed. That is, in the present invention, the side frame 3 is fixed to both sides at the rear upper portion of the base frame 2, and the saddle pad 4 and the back pad 5 are installed on the base frame 2, and the saddle pad ( 4) Angle the handle link (6) from side to side Or The front and rear angular movement is possible on the side frame (3) by the bearing housing (19) obliquely in the up and down direction to form a, and the bearing box (7) is installed on the upper end of the handle link (6) to L type. The handle frame (8) made of rotatably installed by the handle shaft (9), when holding the handle 13 when the press link handle 6 is angular movement forward and backward, the handle 13 is also fixed In the three-dimensional chest anaerobic exercise device (1) configured to draw a three-dimensional trajectory in angular motion within a range, the three-dimensional trajectory is 60 cm by the handle link (6) b to satisfy the chest movement range a (40 cm to 75 cm). ~ 110cm, ∠ Is 0 ° ~ 40 °, ∠ Is 3 ° ~ 30 °, ∠ Is 90 ° to 60 °, ∠ Is 70 ° ~ 110 °, ∠
    公开号:KR20040015661A
    申请号:KR1020020048625
    申请日:2002-08-13
    公开日:2004-02-19
    发明作者:최윤석
    申请人:최윤석;
    IPC主号:
    专利说明:

    3-D Inverted Chest Anaerobic Exercise Equipment {3-D Reverse Chest Strength Equipment}
    [27] The present invention relates to a three-dimensional inverted chest anaerobic exercise apparatus, and more particularly, to present a three-dimensional inverted chest anaerobic exercise apparatus by using the basic mechanism of the present applicant (Application No .: 10-2002-0030449). Overcoming the limitations of two-dimensional chest exercise equipment and supplementing the three-dimensional trajectory that makes the chest movement safe in the short-term concept, three-dimensional trajectory to increase concentration on the chest muscle, and inverted three-dimensional approach to various approaches to the chest muscle. It is to provide a three-dimensional chest anaerobic exercise equipment to provide a trajectory to make a safer and more efficient exercise for the chest movement. In particular, the present invention is approached by changing the direction of the torsion by using the characteristics of the pectoral muscle as a trajectory different from the chest and the lower chest exercise device that the inventor has filed.
    [28] The concept of the uniaxial movement is as shown in Figures 6 to 8 of US Patent No. 5769757, the handle angle is dependent on the angular movement of the short axis link to expose a lot of limitations to the wrist, forearm and shoulder to apply to the simple application of the angular movement It is not possible to say that safety and diversity, which are excellent characteristics of three-dimensional trajectories, have been reached, including the risk of injury.
    [29] The inventor of the present invention has been previously filed for a three-dimensional anaerobic exercise device, and intends to devise a more specific application example.
    [30] In particular, it attempted to diversify three-dimensional accessibility by using resistive approach in various three-dimensional trajectories. Examples include independent, dependent, and mixed equations.
    [31] In addition, there is a second resistance link system that allows access to a variety of resistance patterns with three-dimensional stability even in the resistance method, thereby providing a variety of new possibilities for muscle shock, which is a growth key of human muscles, thereby preventing the growth and injury of the chest muscles. To provide.
    [32] The present invention is to provide a three-dimensional chest anaerobic exercise apparatus that can be applied to the human breast region as the application of the three-dimensional anaerobic exercise apparatus that the inventor has filed.
    [33] In particular, the trajectory of the section 4 link (application number: 10-2001-0059147, 10-2001-0078712) concept filed by the present inventors is always shortened as in the present invention, although the handle always maintains an angle perpendicular to the direction of movement. The concept's trajectory makes it difficult for the handle to form an angle close to the direction of motion.
    [34] The reason is that the angular movement of the handle link affects the handle, and as a result, g and g 'exist as shown in FIG. 6 of US Pat. No. 5,757,757, which is a problem in the stability of the shoulder, wrist and elbow.
    [35] However, if the range of angular movement of the handle is secured to 50 ° to 60 ° or more, as shown in FIGS. 3 and 4, the shape of each handle is the same as that of the four-section link at the start point S and the end point f of the exercise. Level approach and can also be applied to chest exercises.
    [36] To this end, the handle configuration and the handle link configuration must be in harmony with the movement range of the human body, and the range of the angular movement of the handle must be congested so that the concave trajectory can be conceived. The trajectory must be a certain angle with the back pad so that the trajectory can be a chest movement, and the torsion of the chest and the lower chest 3D mechanism should be the opposite direction to be applied as a three-dimensional inverted chest anaerobic exercise equipment.
    [37] The three-dimensional torsional resistance device in the trajectory is independent, dependent and mixed, and can approach various amounts and ranges of the three-dimensional resistance according to the respective methods.
    [38] The independent type ensures that the angular movement of the handle link does not affect the angular movement of the handle. Typically, a damper of tensile force connects the bottom of the handle link with an arbitrary point of the handle frame.
    [39] Dependent equation, as in the United States patent (5769757), if the amount of the handle angular movement up to 50 ° or less it is difficult to make the three-dimensional trajectory. Therefore, in order to produce more than 120 ° of torsion, the ball joint's soccer property is similar to the direction of the angular movement of the handle link and the handle frame. In addition, the length of the handle link and the auxiliary link is similar to reduce the volume of each link configuration, the position of the handle and the angular movement lever should be configured integrally, not separated as shown in FIG.
    [40] The hybrid type moves up to a certain range like the subordinate equation, and if it exceeds a certain range, it can generate arbitrary torsion by independent resistance method. The damper with compression force is installed in the position and configuration of the subordinate ball joint instead of the auxiliary link.
    [41] In addition, the stability of the three-dimensional trajectory can be applied with various trajectories along with various trajectories, and thus aims at various impacts and growths of muscles from the basic resistive pattern of the first resistive link to the opposing resistive pattern of the second resistive link.
    [1] 1 is a perspective view of a three-dimensional inverted chest anaerobic exercise apparatus of the present invention
    [2] Figure 2 is a perspective view showing the trajectory of the three-dimensional inverted chest anaerobic exercise apparatus of the present invention
    [3] Figure 3 is a side view showing a three-dimensional trajectory disclosed in the prior application
    [4] 4 is a plan view showing a three-dimensional trajectory disclosed in the prior application
    [5] 5 is a plan and side trajectory diagram of an embodiment of a three-dimensional inverted chest anaerobic exercise apparatus of the present invention.
    [6] Figure 6 is a side view showing the operating state of the prior art US patent
    [7] 7 is a plan and side trajectory diagram of a prior art US patent
    [8] 8 is a front view of a prior art US patent
    [9] 9 is a three-dimensional trajectory shape drawing principle of the present invention
    [10] 10 is a perspective view showing an independent resistance method in the three-dimensional upside down chest anaerobic exercise apparatus of the present invention
    [11] 11 is a perspective view showing a dependent resistance method in the three-dimensional upside down chest anaerobic exercise apparatus of the present invention
    [12] 12 is a perspective view showing a mixed resistance method in the three-dimensional inverted chest anaerobic exercise apparatus of the present invention
    [13] Figure 13 is a side view showing the principle of varying the resistance pattern in the three-dimensional inverted chest anaerobic exercise apparatus of the present invention
    [14] ■ Explanation of symbols used in main part of drawing ■
    [15] 1: 3-D chest anaerobic fitness equipment 2: Base frame
    [16] 3: Side frame 4: Saddle pad
    [17] 5: Back pad 6: Handle link
    [18] 6a: axis 7: bearing box
    [19] 8: Handle frame 9: Shaft
    [20] 10: damper 11: lever
    [21] 12: Secondary link 13: Handle
    [22] 13A: 2nd Handle 13B: 1st Handle
    [23] 14: Ball joint 14A: Shaft
    [24] 15: Angular movement rare 16: The first resistance link
    [25] 17: disc resistance 18: second resistance link
    [26] 19: bearing housing
    [42] 3D inverted chest anaerobic exercise device provided in the present invention is fixed to the side frame (3) on both sides of the base frame (2) with the base frame (2) of the approximately L-shaped as shown in FIG. The saddle pad 4 and the back pad 5 are installed on the base frame 2, and when the user sits on the saddle pad 4, the handle link 6 is angled to the front left and right. or The bearing housing 19 is installed at an angle to the side frame 3 so as to be able to be formed at an angle so as to form an angle. The bearing box 7 is installed at the upper end of the handle link 6 to form L. The handle frame 8 made of the handle shaft 9 is rotatably installed.
    [43] Eventually, when the press movement while holding the handle 13, the handle link (6) is an up and down angular movement, the handle (13) also within a certain range in the angular movement in the clockwise direction in the case of the right handle in Figure 2 As shown in Figure 3, we create a three-dimensional trajectory.
    [44] That is, the trajectory as shown in FIG. 2 is an example of an inverted three-dimensional trajectory for chest movement.
    [45] 5 shows the handle link (6) angle To the 10 ° angle between the handle frame (8) and the handle shaft (9). Is the trajectory from the approach of 20 ° and the handle link (6) approx. 75 cm.
    [46] The principle for laying out the three-dimensional trajectory of the handle 13 having a torsion of 50 ° or more to the human body in the short axis may be applied to the trajectory of the previously applied chest and lower chest motion. That is, as shown in FIG. 3, data dependent on a limited range (40 to 75 cm) of the human body chest movement range a is required.
    [47] That is, the human body chest movement range a is limited, but if b is too short ∠ Becomes too large ∠ at starting point S As shown in FIG. 4 for the proper wrist angle at the end point f. Must be large, which is trapezoidal close to the triangle, making it difficult to enter the proper upper arm angular range for chest movement, but if b is too long, Becomes too small ∠ at start point S Decreases so that for proper wrist angle at the end point f Must be small, which makes it difficult to enter the proper upper arm angular range for chest movement in a trapezoidal shape close to the rectangle.
    [48] As a result, the three-dimensional approach in the shortening concept depends on the angular motion of the handle link 6. Is rewarded in the 4 link concept, but Wow In order to create a stable trajectory in three dimensions. And characteristics of shortened concept Harmonized materials must be placed indispensable.
    [49] Otherwise, g and g 'will be present as shown in FIG. 6, rather, a three-dimensional inappropriate shape is formed on the wrist and elbow of the human body.
    [50] In the above shortening concept, the approach of the human body of the present invention increases the accessibility of the wrist and the elbow, but eventually has to have a concave trajectory around the human body as shown in FIG.
    [51] In the opposite case, as shown in the plane trajectory of FIG. 8, the convexity causes excessive movement of the brachial triceps, resulting in a deviation from the target muscle.
    [52] For the concave trajectory, the characteristics of the angular motion must be used as shown in FIG. 9. Therefore, if a section for haptic is set from the starting point S of the handle 13 to the ending point f, the trajectory on the plane may have a concave phenomenon.
    [53] The phenomenon as shown in FIG. 7 is a phenomenon in which the inside of the section is made from section II to III in FIG. 9 by direct connection between one side of the handle 13 and the handle shaft 9 due to limitations in the US patent.
    [54] When the angular movement of the handle 13 is 50 ° or more when rotating, the handle 13 starts to be close to horizontal in the direction of movement and sets the angle to finish the movement at an angle close to the ground. At this time, the handle 13 should be set to move from section I to section II because the angular motion should be felt as much as possible.
    [55] To this end, the handle 13 should be positioned in the opposite direction with respect to the handle shaft 9, respectively, and for this purpose, a handle frame 8 connecting the handle shaft 9 and the handle 13 should exist.
    [56] In the three-dimensional trajectory, the concept of safe three-dimensional trajectory for wrist and elbow in the short axis concept and the need for concave three-dimensional trajectory for approaching the pectoral muscle were examined. In other words, in the three-dimensional stability and the approach of the target muscles, we will now look at the three-dimensional pluralism.
    [57] The greatest feature pluralism in three dimensions is that two or more handles 13 must be set based on the physiological basis of muscle growth caused by a new impact.
    [58] That is, in the press motion as shown in FIG. 4, the first handle 13B starts at a narrow width at the start point of movement S, but the second handle 13A starts at a wider width at the start point of movement S and has different trajectories. It is.
    [59] Since the various trajectory principles act on the human chest and provide a great advantage in muscle growth, the handle 13 of the 3D chest anaerobic exercise device must have at least two handles 13 and means for connecting them, The handle frame 8 should be present.
    [60] The inverted chest three-dimensional trajectory should be configured to be close to the range a (40 cm to 75 cm) for the chest movement of the human body as shown in FIG. 2, and the back pad 5 and the trajectory are fixed to enable the chest movement. It should be set at an angle.
    [61] To this end, the three-dimensional trajectory is 60 cm to 110 cm for the handle link (6) b to satisfy the chest motion range a (40 cm to 75 cm). (-10 ° to 40 °), ∠ (3 ° to 30 °), ∠ (90 ° to 60 °) ∠ (70 ° to 110 °), ∠ The handle 13 is located at the outer corner of the handle shaft 9 and the two or more handles 13 are formed so that the inner part of the conduit is concave on the plane. Frame 8 is required so that the handle link (6) during the angular movement by the twist of the handle 13 due to the rotation of the handle shaft (9) in the inverted chest three-dimensional trajectory required by the human chest, 3 as shown in Figure 5 The tangent at the center point of the exercise section is 45 to 150 ° with the back pad 5 so that the dimensional trajectory becomes the chest motion. So it is to provide a chest movement upside down in the trajectory as shown in FIG.
    [62] To add resistance to the three-dimensional trajectory created by the handle link 6, the handle frame 8 and the handle 13 components, it is divided into three approaches, which are independent resistance, dependent resistance and mixed. .
    [63] First, in FIG. 10, the independent resistance method is not affected by the forward and backward angular movement of the handle link 6, and the damper having a tensile force by causing a resistance when the human body applies a random twisting to the handle 13 ( damper; 10).
    [64] The one end of the damper 10 is fixed to the lower end of the handle link 6 and the other side is connected to the fixed lever 11 which induces the angular motion to the handle frame 8 so that the handle 13 is in constant angular motion. In addition, a certain distance difference occurs and the resistance of the damper 10 is generated accordingly to allow the exercise performer to set an arbitrary amount of torsion.
    [65] As shown in FIG. 11, when the handle link 6 moves forward and backward as shown in FIG. 11, the handle 13 also moves in a predetermined amount dependently, and the auxiliary link 12 is moved to the ball joint 14 as a means. It is installed on the front side of the shaft (6a) of the handle link 6 and the other side is installed to be orthogonal to each other on the angular movement lever (15) fixed to the handle frame (8).
    [66] When the handle 13 and the angular movement lever 15 are separated around the handle link 6 in the volume of the auxiliary link 12 and the handle link 6, the handle as shown in FIGS. 6 and 8. The b of the link 6 may be reduced or the length of the auxiliary link 12 may be increased.
    [67] Therefore, the handle 13 and the angular movement lever 15 should be integrally installed in order to reduce the volume of the circular arc formation and the link configuration to go to each length similarly.
    [68] In addition, the shaft 14a of the ball joint 14 must be orthogonal, not parallel, in order for the angular movement range of the handle 13 to be 50 to 60 ° or more. That is, the effective angle of the general ball joint is up to 50 ° and because of this range, when the direction of the axis 14a of the ball joint 14 is parallel, as shown in FIG. 8, the maximum angular movement range of the handle 13 is less than 50 °. Make.
    [69] In fact, the direction of the angular movement of the handle link (6) Wow Although governed by, the ball joint (14) shaft arrangement is nearly orthogonal. Therefore, the shaft 14a of the ball joint 14 should be installed to cross each other so that the angular movement range of the handle 13 can be secured by 150 ° or more.
    [70] In the mixing method, the auxiliary link is replaced with the damper 10 or the shock absorber in the subordinate structure. The minimum length of the damper 10 is compressed to a predetermined range (60 to 70%) at a movement distance a. It is to play a role and more than the movement distance is to allow the angular movement of the handle 13 to give the load of the exercise by the resistance of the damper 10 by the arbitrary twist of the exercise performer.
    [71] This allows the dependent expression to set the resistance arbitrarily over a certain range of the difference in the amount of torsion according to the arm length, so that the angular movement allowed by the handle frame 8 is allowed regardless of the movement distance a.
    [72] 12 and 13, if the right handle 13 is the starting point of the movement, the left handle 13 is the end point of the movement. When the handle link 6 performs the circular motion, the first handle is connected to the lower portion of the handle link 6; When the link 16 is pressed forward, the resistance of the disc 17 installed in the lower portion of the first resistance link 16 is transferred to the handle by an arc motion against the power.
    [73] In this case, another second resistance link 18 is formed on the upper part of the handle link 6 to be connected to the disc resistor 19, and the first resistance link 16 draws a resistance that increases as resistance C. When the second resistance link 18 is set as a tool, and the second resistance link 18 sets the resistance link to be felt like the resistance D, and the basic resistance is C, D acts as an auxiliary resistance to diversify the pattern of the resistor. To create the desired resistance.
    [74] As described in detail above, the present invention is to perform the approach of the inverted chest movement in the present invention, the trajectory for the chest movement should be provided with the characteristic of absorbing the angular movement and the elbow angular movement of the handle link 6 You may want a three-dimensional amount of twist in the link. In particular, a variety of muscle shocks can be produced in a torsional direction different from the elected chest and lower chest movements.
    [75] Therefore, in the present invention, the arrangement of the handle 13 is appropriately made to produce a three-dimensional inverted chest movement in a shortened concept, and the three-dimensional trajectory required by the human body is made so that the human body can perform the chest movement more safely and efficiently. This can increase the development of the chest muscles of the human body.
    [76] In addition, it is possible to adopt a variety of resistance methods, that is, in the case of the independent type, the range of angular movement of the handle 13 can be arbitrarily adjusted by the exercise performer to create a perfect approach to the target muscle,
    [77] Second, in the case of the dependent expression, the trajectory is set to be determined, which is suitable for beginners because it can induce the inverted chest movement of the human body following the 3D trajectory.
    [78] Finally, the mixed equation is a subordinate concept that it is difficult to establish the trajectory in case of hyperextension, and it can aim the perfect approach of the target muscle by random twisting during contraction.
    [79] The three-dimensional inverted chest anaerobic exercise device that provides the above various characteristics to the human chest can maximize the growth and safety of the chest muscles.
    权利要求:
    Claims (6)
    [1" claim-type="Currently amended] The side frame (3) is fixed to both sides of the base frame (2) rear upper front, and the saddle pad (4) and the back pad (5) is installed on the base frame (2), the user to the saddle pad (4) Angle the handle link (6) from side to side when seating Or Up and down angular movement is possible on the side frame (3) by the bearing housing (19) obliquely in the up and down direction to form a, and the bearing box (7) is installed on the upper end of the handle link (6) to L-shape The handle frame (8) made of rotatably installed by the handle shaft (9), when pressing the handle 13 while holding the handle 13, the handle link (6) is the front and rear angular movement, the handle 13 is also fixed In the three-dimensional inverted chest anaerobic exercise device (1) configured to draw a three-dimensional trajectory in the angular motion clockwise rotation in the case of the user's right handle in the range;
    The three-dimensional trajectory is 60cm ~ 110cm, 손잡이 the handle link (6) b to satisfy the chest motion range a (40cm ~ 75cm) Is 0 ° ~ 40 °, ∠ Is 3 ° ~ 30 °, ∠ Is 90 ° to 60 °, ∠ Is 70 ° ~ 110 °, ∠ Is configured to be 70 ° ~ 110 °,
    The handle 13 is located at the outer shell centered on the handle shaft 9, the two or more handles 13 are installed on the handle frame 8 so that the inside is made,
    Three-dimensional inverted chest anaerobic exercise equipment, characterized in that the three-dimensional trajectory to the tangent at the center point of the exercise section for the chest movement to form a 45 ° ~ 150 ° with the back pad (5).
    [2" claim-type="Currently amended] The method of claim 1;
    3-D inverted chest anaerobic movement, characterized in that one side of the damper 10 is fixed to the bottom of the handle link 6 and the other side is connected to a fixed lever 11 which induces angular movement to the handle frame 8. Instrument.
    [3" claim-type="Currently amended] The method of claim 1;
    The handle 13 has an angular movement lever 15 is integrally installed, one end is connected to the handle 13 by a ball joint 14 and the other end has a distance difference d in the side frame 3 and has a ball joint ( The auxiliary link 12 is connected to the 14, but the three-dimensional inverted chest anaerobic exercise equipment, characterized in that the shaft (14a) of the ball joint (14) at both ends of the auxiliary link (12) is cross-connected.
    [4" claim-type="Currently amended] The method of claim 1;
    The handle 13 has an angular movement lever 15 is integrally installed, is connected to the handle 13 to the ball joint 14, the other end has a distance difference d in the side frame 3 and the ball joint 14 To install a damper (10) connected to the shaft, the shaft 14a of the ball joint (14) at both ends of the damper 10, characterized in that the three-dimensional chest upside down anaerobic exercise equipment.
    [5" claim-type="Currently amended] The method of claim 1;
    The handle 13 has an angular movement lever 15 is integrally installed, is connected to the handle 13 to the ball joint 14, the other end has a distance difference d in the side frame 3 and the ball joint 14 Installing a shock absorber connected to, the shaft 14a of the ball joint (14) on both ends of the shock absorber, characterized in that the three-dimensional inverted chest anaerobic exercise equipment.
    [6" claim-type="Currently amended] The method of claim 1;
    A first resistance link 16 is connected below the handle link 6,
    A disk resistor 17 is installed below the first resistor link 16,
    A three-dimensional inverted chest anaerobic exercise machine, characterized in that the second resistance link (18) is formed above the wrist link (6) and connected to the disc resistor (17).
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    同族专利:
    公开号 | 公开日
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    法律状态:
    2002-08-13|Application filed by 최윤석
    2002-08-13|Priority to KR1020020048625A
    2004-02-19|Publication of KR20040015661A
    优先权:
    申请号 | 申请日 | 专利标题
    KR1020020048625A|KR20040015661A|2002-08-13|2002-08-13|3-D Reverse Chest Strength Equipment|
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