CN112752596B

CN112752596B - Manual reverse hanging movement device capable of performing turnover movement

Info

Publication number: CN112752596B
Application number: CN201980062505.1A
Authority: CN
Inventors: 朴在俊
Original assignee: Pu Zaijun
Current assignee: Pu Zaijun
Priority date: 2018-11-14
Filing date: 2019-11-14
Publication date: 2022-03-25
Anticipated expiration: 2039-11-14
Also published as: CN112752596A; WO2020101374A1; KR102001346B1

Abstract

The present invention is characterized by comprising: the main frame is used for fixing the manual reverse hanging movement device on the ground; a lower end handle member formed at a lower end portion of the main frame and configured to be gripped by a user in order to rotate an upper body of the user downward; a driving frame including a cushion part for placing the lower body of the user, a support frame combined with a lower portion of the cushion part, and a rotation bracket formed at a lower portion of the support frame and rotatably combined with the main frame; and a fixing frame combined with the driving frame for fixing the lower body of the user.

Description

Manual reverse hanging movement device capable of performing turnover movement

Technical Field

The present invention relates to a manual reverse-hanging exercise device capable of performing a reverse exercise, and more particularly, to a manual reverse-hanging exercise device capable of performing a reverse exercise, in which a user can perform a reverse exercise while performing a reverse exercise in a safe and convenient posture.

Background

In general, an exercise device for inversion, also called an upside-down exercise device, is an exercise apparatus that assists in promoting blood circulation, correcting posture, and the like by making a user, who is carried on a stand, face upward with his or her legs and make his or her head downward to hang the body upside down.

Further, the inverted movement based on the inverted movement device can obtain a hanging effect, so that the spinal joint and the like which are normally pressed all the time are loosened, and a considerable effect of curing lumbago can be exerted.

However, in general, an inverted exerciser inverts the whole body to relax muscles, but when a patient with hypertension, an old person with weak muscle strength, or a patient exercises with a stent excessively tilted, symptoms may be further worsened, or a load may be applied to the cardiac muscle and the spine of the waist, and injuries may be caused.

In addition, in the case of a beginner, the muscles may become stiff due to a fear of rotation of the support plate, and when the head is directed downward in a state where the ankle is fixed, the muscles of the ankle may be burdened.

Thus, korean laid-open utility model No. 20-2015-0000439 (hereinafter, referred to as a prior art document) discloses a semi-inverting hanger which is composed of a frame, a lower body support rod, a thigh fixing rod, and a cushion, and which can invert only the upper body by supporting the lower body under the pelvis of a human body.

However, according to the above-mentioned prior art document, there is still a problem that an excessive burden is imposed on the waist portion when the user stands in an original state from a state in which the head portion is directed downward by the structure without a member for supporting the upper body.

In particular, since the user who is riding on the stand rotates the stand directly by manual work to hang over the body or return the body to the original position, there is a problem that it is difficult for women, old people, or the like with weak arm strength to maintain a predetermined angle or return the body to the original position while hanging over the body.

Disclosure of Invention

Technical problem

The present invention has been made in view of the above-mentioned problems, and it is an object of the present invention to provide a manual reverse-hang sport apparatus capable of performing a reverse sport by rotating 90 ° while fixing a knee and closely contacting a thigh or a stomach to enjoy a reverse sport, thereby performing a safe and convenient reverse sport.

Further, the present invention has been made in view of the above problems, and it is an object of the present invention to provide a manual inverted exercise device capable of performing a turning exercise, in which a driving frame on which a thigh or a belly of a user is placed is prevented from rotating, and which can perform a muscle strengthening exercise of a bone joint and a spine by the turning exercise of an upper body of the user.

Further, it is an object of the present invention to provide a manual inverted exercise device capable of performing an inverted exercise, in which a lower end handle is provided at a rear portion of a main frame, so that a user can hold the device before taking an inverted posture in order to perform the inverted exercise, thereby preventing a sudden rotation operation of a driving frame, and at the same time, a fear transmitted to the user when performing the inverted exercise can be minimized as the user controls a rotation range of the driving frame.

It is another object of the present invention to provide a manual reverse-hang exercise device capable of performing a reverse exercise, which can prevent a load from being applied to the ankle and the hamstrings of a user when performing the reverse exercise and the reverse exercise by supporting the inner side surfaces of the lower leg, the knee, and the thigh of the user.

Technical scheme

An embodiment according to the present invention for solving the above problems is characterized by comprising: the main frame is used for fixing the manual reverse hanging movement device on the ground; a lower end handle member formed at a lower end portion of the main frame and configured to be gripped by a user in order to rotate an upper body of the user downward; a driving frame including a cushion part for placing the lower body of the user, a support frame combined with a lower portion of the cushion part, and a rotation bracket formed at a lower portion of the support frame and rotatably combined with the main frame; and a fixing frame combined with the driving frame for fixing the lower body of the user.

According to an embodiment of the present invention, the main frame includes: a first support frame including a front leg frame formed at a front lower portion thereof and having a leg connecting plate formed at one side thereof, an upper support frame coupled to both sides of an upper portion of the front leg frame, and a connection frame formed at the upper support frame and rotatably coupled to the rotation bracket; a second supporting frame coupled to a rear leg frame coupled to the leg link plate and the lower handle member; and an adjusting member coupled to the front leg frame for controlling the rotation of the rear leg frame.

According to an embodiment of the present invention, the adjusting member includes: a combination protrusion formed on one side of the rear leg frame; a guide pin penetrating the rear leg frame and the leg link plate and having one end detachably coupled to the coupling projection; a pin fixing plate formed at the other end of the guide pin; an adjusting bracket formed with a pin fixing protrusion separably combined with the upper pin fixing plate; and a reset unit formed inside the adjusting bracket for restoring the position of the guide pin.

According to an embodiment of the present invention, the supporting frame includes: an upper support frame for supporting the upper part of the lower surface of the cushion member; a lower support frame for supporting the lower part of the lower surface of the cushion member, the lower end of the lower support frame being coupled to the rotary bracket; a cushion support frame for connecting the upper support frame and the lower support frame; an upper end handle member for holding the user when the user closely contacts the cushion member; a fixed guide frame formed on the upper support frame and the lower support frame and combined with the fixed frame; and a safety member provided to the rotary bracket to control whether the driving frame is rotated.

According to an embodiment of the present invention, the safety member further includes: a rotating support shaft which combines the rotating bracket and the main frame and realizes a magnetizing plate at the end part; a magnetizing unit for forming magnetic lines according to whether a power supply is applied, and magnetizing with the magnetizing plate; a drive motor for rotating the rotary support shaft; an attachment plate for attaching the magnetizing unit to the driving motor; and a plurality of power switches formed on the lower handle part for controlling the magnetization of the magnetization unit and the driving of the driving motor.

According to an embodiment of the present invention, the fixing frame includes: a combination frame combined with the support frame; a first length adjusting frame, the upper end of which is combined with the lower part of the combining frame in a way of adjusting the length, and the lower end of which is bent; a second length adjustment frame inserted into the bent lower end portion of the first length adjustment frame in a length-adjustable manner; and a lower body fixing cushion formed at the end of the second length adjusting frame for clinging and fixing the lower body of the user.

ADVANTAGEOUS EFFECTS OF INVENTION

According to the embodiments of the present invention, the present invention has an effect that the user can enjoy the inverted exercise by rotating 90 ° while fixing the knee and closely contacting the thigh or the stomach, thereby performing the inverted exercise safely and conveniently.

Also, according to the embodiment of the present invention, the present invention has an effect that the muscular strengthening exercise of the bone joint and the spine can be performed by the tumbling exercise of the upper body of the user as the rotation of the driving frame on which the thigh or the belly of the user is placed is prevented.

Further, according to the embodiment of the present invention, the present invention has an effect that the lower end handle is provided at the rear portion of the main frame, and the user grips before taking the inverted posture in order to perform the inverted exercise, thereby preventing the abrupt rotation work of the driving frame.

Also, according to the embodiments of the present invention, the present invention has an effect that as the user controls the rotation range of the driving frame, the sense of fear transmitted to the user when performing the handsowing exercise can be minimized.

Further, according to the embodiment of the present invention, the present invention has an effect that the inner side surfaces of the lower leg, the knee, and the thigh of the user are supported, thereby preventing the load from being applied to the ankle and the leg tendon of the user when the user performs the inverse hanging exercise and the turning exercise.

Drawings

Fig. 1 is a perspective view schematically showing a manual reverse-hang type exercising apparatus capable of performing a reverse exercise according to an embodiment of the present invention.

Fig. 2 is a side view schematically showing a manual reverse-hang movement device capable of performing a reverse movement according to an embodiment of the present invention.

Fig. 3 is a view showing a lower end handle part of the main frame according to an embodiment of the present invention.

Fig. 4 is a view illustrating a leg angle adjusting part of a main frame according to an embodiment of the present invention.

Fig. 5 is a view showing a rear part of a driving frame of a manual reverse hang-up motion device capable of performing a reverse motion according to an embodiment of the present invention.

Fig. 6 is a diagram illustrating a safety member of a driving frame according to an embodiment of the present invention.

Fig. 7 to 9 are views showing a use state of a manual reverse-hang motion device capable of performing reverse motion according to an embodiment of the present invention.

Detailed Description

A preferred embodiment of the present invention is characterized by comprising: the main frame is used for fixing the manual reverse hanging movement device on the ground; a lower end handle member formed at a lower end portion of the main frame and configured to be gripped by a user in order to rotate an upper body of the user downward; a driving frame including a cushion part for placing the lower body of the user, a support frame combined with a lower portion of the cushion part, and a rotation bracket formed at a lower portion of the support frame and rotatably combined with the main frame; and a fixing frame combined with the driving frame for fixing the lower body of the user.

Fig. 1 and 2 are diagrams schematically showing a manual reverse-hang sport apparatus capable of performing a reverse sport according to an embodiment of the present invention, fig. 3 and 4 are diagrams showing a main frame according to an embodiment of the present invention, fig. 5 and 6 are diagrams showing a driving frame according to an embodiment of the present invention, and fig. 7 to 9 are diagrams showing a usage state of the manual reverse-hang sport apparatus capable of performing a reverse sport according to an embodiment of the present invention.

As shown in the drawings, the manual reverse hanging exercise device capable of performing the reverse exercise of the present invention includes a main frame 100, a driving frame 200, and a fixing frame 300.

The main frame 100 is a device for fixing a manual inverted exercise device on the ground to provide a predetermined supporting force so as to realize a stable exercise of a user, and includes first and

second support frames

110 and 120, a lower handle member 130, an adjustment member 140, and a connection frame 150.

The first bolster frame 110 includes: a front leg frame 112 formed at a front lower portion of the manual reverse-hang exercise device and formed substantially in an "n" shape; and support ribs 114 connecting both sides of the lower part of the front leg frame 112 to increase the supporting force of the first supporting frame 110.

The first support frame 110 has a front support pad 116 formed at a lower end thereof to stably fix the manual inverted exercise device to the ground or to prevent the manual inverted exercise device from being moved by the exercise force of the user during the inverted exercise.

The front support pad 116 may be formed of a rubber material having excellent adhesion to the floor surface, but is not limited thereto.

The first receiving frame 110 is provided with a connecting frame 150 rotatably connected to a rotation support shaft 230 and a rotation bracket 240 of the drive frame 200, which will be described later, along the upper portion thereof.

In this case, the connecting frame 150 is integrally formed with the upper receiving frame 118, the lower end portion of the upper receiving frame 118 is formed at the upper portion of the first receiving frame 110, both side end portions are coupled to both sides of the upper portion of the front leg frame 112, respectively, and the connecting frame passes through the center of the upper end portion of the front leg frame 112, is inserted into the rotating bracket 240, and is coupled to the rotating bracket 240 via the rotating support shaft 230.

Meanwhile, the first holding frame 110 may be combined with the second holding frame 120 along the rear direction to be orthogonal to the second holding frame 120, and may be integrally formed by a method such as welding.

However, the present invention is not limited to this, and the leg link plate 112a is further formed along one side of the front leg frame 112 so that the second receiving frame 120 is rotated by a predetermined angle from the first receiving frame 110 depending on whether the adjustment member 140 described later is operated or not.

The leg link plate 112a is formed to extend perpendicularly to the rear portion of the front leg frame 112 of the first receiving frame 110, and is inserted into the front end portion of the second receiving frame 120 to pass the guide pin 145 of the adjusting member 140 therethrough, whereby the second receiving frame 120 can be rotated by a predetermined angle from the front leg frame 112 with the axial center of the guide pin 145 as a reference.

The second support frame 120 is formed behind the first support frame 110, and includes a rear leg frame 122 and a rear support pad 124 for providing a predetermined support force to the rear portion of the manual reclining exercise device.

The rear leg frame 122 is coupled to the front leg frame 112 so as to be orthogonal thereto. In this case, a rear support pad 124 is formed at the lower distal end portion of the rear leg frame 122 so as to be closely attached to the ground.

Here, the rear support pad 124 is preferably formed of the same material as the front support pad 116.

Further, the lower end handle member 130 is formed at the lower end portion of the rear leg frame 122, so that the user can support the upper body before rotating the upper body so that the head of the user faces downward in order to perform the hanging-down motion, thereby reducing the fear generated when the user hangs the upper body upside down.

In particular, as the user holds the lower handle member 130 to perform the hanging-down exercise, the lower handle member 130 rotates the upper body downward, and the rotational speed of the upper body is adjusted to a speed required by the user.

In this case, the rotation of the upper body can be achieved by the rotation work of the driving frame 200 and the fixing frame 300, which will be described later, supporting the lower body of the user.

As shown in fig. 3, the lower handle member 130 includes: a handle fixing rod 132 vertically extending from one surface of the lower portion of the rear leg frame 122; and a handle adjustment lever 134 coupled to an upper portion of the handle fixing lever 132 and held by a user.

The handle fixing lever 132 is formed with a handle adjustment hole 132a through which a handle adjustment pin 136 passes so as to adjust the height of the handle adjustment lever 134.

The handle adjustment lever 134 is inserted into the handle fixing lever 132 at a lower end thereof, and is moved in an upward and downward direction along an outer surface of the handle fixing lever 132, and has a predetermined curvature at an upper portion thereof, so that a user can easily hold the lever.

The handle adjustment lever 134 may further be formed with a sweat absorbing sheet 135 along the outer surface to prevent sliding due to sweat generated in the user's hand.

Meanwhile, a pin fastening member 138 is formed on a lower surface of the handle adjustment lever 134, and an end of the handle adjustment pin 136 is fastened by a screw fastening method, thereby coupling the handle fixing lever 132 and the handle adjustment lever 134.

The handle adjustment pin 136 penetrates the handle fixing lever 132 and the handle adjustment lever 134, and its end is fastened to the pin fastening member 138 by a screw fastening method. In contrast, the height of the handle adjustment lever 134 is adjusted according to whether the handle adjustment pin 136 is fastened to the pin fastening member 138 or not and whether the handle adjustment pin 136 penetrates the handle fixing lever 132 and the handle adjustment lever 134 or not.

As shown in fig. 4, the adjusting member 140 is coupled to a lower portion of the front leg frame 112, and controls the rotation of the rear leg frame 122 while coupling the front leg frame 112 and the rear leg frame 122.

The above-mentioned adjusting part 140 includes: a guide pin 145 penetrating the rear leg frame 122 and the leg link plate 112a inserted into the rear leg frame 122, for controlling the rotation of the rear leg frame 122; a pin fixing plate 147 formed at an end of the guide pin 145; an adjustment bracket 141 formed with a pin fixing protrusion 143 selectively combined with the pin fixing plate 147 to control whether the guide pin 145 rotates; and a reset means 149 for restoring the position of the guide pin 145.

In this case, the rear leg frame 122 also forms a coupling protrusion 144 detachably coupled with the bottom surface of the guide pin 145. In contrast, the rear leg frame 122 performs the rotation operation only when the coupling protrusion 144 is separated from the guide pin 145. When the guide pin 145 is coupled with the coupling protrusion 144, it does not rotate.

In this case, when the bottom surface is coupled to the coupling protrusion 144, the guide pin 145 presses the rear leg frame 122 to couple the rear leg frame 122, so that the rear leg frame 122 and the leg link plate 112a have a close contact force therebetween, and the front leg frame 112 and the rear leg frame 122 are tightly fixed by the contact force.

The guide pin 145 penetrates the rear leg frame 122 and the leg link plate 112a and slides.

The pin fixing plate 147 is formed inside the adjustment bracket 141, and controls a rotation operation of the guide pin 145 according to whether or not it is coupled to the pin fixing protrusion 143. That is, in a state where the pin fixing protrusion 143 is coupled to the pin fixing plate 147, the guide pin 145 does not rotate, and in this case, the head of the guide pin 145 is coupled to the coupling protrusion 144, and therefore, the rotation of the guide pin 145 is suppressed, and the rear leg frame 122 does not rotate.

On the contrary, when the guide pin 145 and the pin fixing plate 147 are separated from the coupling protrusion 144 and the pin fixing protrusion 143, the rear leg frame 122 is rotated as the pressure applied to the rear leg frame 122 is released.

Meanwhile, the returning unit 149 may be formed by a spring, and formed inside the adjustment bracket 141 to apply a predetermined pressure to the pin fixing plate 147 side to return the guide pin 145 to the original position and to be coupled to the coupling protrusion 144 and the pin fixing protrusion 143.

The adjustment means 140 allows the height of the manual upending exercise apparatus to be adjusted according to the physical condition of the user, and allows the distance between the first bolster frame 110 and the second bolster frame 120 to be adjusted to improve the support and mobility of the user.

The driving frame 200 is formed on the upper portion of the main frame 100, is a component for realizing the hanging-over movement and the turning-over movement of the user, and includes a supporting frame 210, a cushion member 220, and a safety member 250.

The support frame 210 is connected to the main frame 100 and the fixed frame 300, respectively, and is a component for supporting a user's body load and supporting the user to perform an upside-down exercise or a turning exercise.

The support frame 210 includes an upper support frame 212 and a lower support frame 214 for supporting the upper and lower portions of the lower surface of the cushion member 220, respectively, and a cushion support frame 216 for connecting the upper support frame 212 and the lower support frame 214 to increase the support force of the cushion member 220.

In this case, the upper and lower support frames 212 and 214 provide a supporting force with respect to a lateral direction of the cushion member 220, and the cushion support frame 216 provides a supporting force with respect to a longitudinal direction of the cushion member 220.

In the upper support frame 212, upper-end handle parts 215 are formed along both sides, respectively. The user holds the upper end handle member 215 while closely contacting the upper portion of the cushion member 220, and after the exercise is completed, holds the upper end handle member 215 to stand from the driving frame 200.

Further, a fixing guide frame 218 is formed at the upper support frame 212 and the lower support frame 214, and the fixing guide frame 218 is coupled to a coupling frame 310 of a fixing frame 300, which will be described later.

When the user performs an upside-down exercise or a turning exercise, the cushion part 220 is placed on the upper leg or the lower abdomen, and the cushion part 220 has a pair of structures.

The cushion members 220 are spaced apart from each other at predetermined intervals, and a fixed guide frame 218 is formed therebetween. That is, the fixed guide frame 218 is located at the center of the upper and lower support frames 212 and 214.

Meanwhile, the lower support frame 214 includes: a rotation bracket 240 rotatably combined with the connection frame 150 of the main frame 100 along a lower portion; and a rotation support shaft 230 penetrating the rotation bracket 240 and coupling the rotation bracket 240 and the connection frame 150.

In this case, the rotation supporting shaft 230 may be composed of a rotary head portion and a rotary shaft portion, the rotary head portion being fixedly coupled with the rotary bracket 240. In contrast, the rotary bracket 240 and the lower support frame 214 coupled to the rotary bracket 240 are rotated only when the rotary support shaft 230 is rotated.

A plurality of rotary brackets 240 are formed to be closely attached to both side surfaces of the coupling frame 150, respectively, and a safety member 250 is formed at one of the plurality of rotary brackets 240, and the safety member 250 is inserted into an end of the rotary support shaft 230 to control a rotation operation of the rotary support shaft 230.

The safety member 250 is formed on one surface of the rotary bracket 240, is inserted into an end of the rotary support shaft 230, and controls the rotation of the rotary support shaft 230 according to whether power is applied.

The safety member 250 includes: a magnetized plate 258 formed at an end of the rotation supporting shaft 230; a magnetizing unit 252 for magnetizing the magnetizing plate 258 by forming magnetic lines of force according to whether or not a power is applied; a driving motor 256 for rotating the rotation supporting shaft 230; and an attachment plate 254 for attaching the magnetizing unit 252 to a rotating shaft of the driving motor 256.

Preferably, the safety member 250 further includes an insulator 260 for preventing the electric power line generated when the power is applied from moving to the manual reverse movement device, and the insulators 260 are formed on the outer circumferential surface of the rotation support shaft 230 and the outer circumferential surface of the rotation shaft of the driving motor 256, respectively.

The safety member 250 applies power according to the selection of the user, and thus, a plurality of power switches (not shown) electrically connected to the magnetizing unit 252 may be formed on one surface of the lower handle member 130.

In the safety member 250, when power is applied, the magnetizing plate 258 is coupled to the magnetizing unit 252 through a predetermined power line, the magnetizing plate 258 is formed on the rotation supporting shaft 230, the magnetizing unit 252 is coupled to the driving motor 256, and then the driving motor 256 is driven by the on/off operation of the power switch to rotate the rotation supporting shaft 230.

Thus, after the user rotates the upper body to the lower side of the driving frame 200 to perform the inverse hanging exercise, the user operates the plurality of power switches to rotate the lower body to the upper side to take the inverse posture, thereby performing the inverse hanging exercise safely and conveniently.

In this case, the driving frame 200 does not perform the rotation operation while only the coupling state of the magnetizing plate 258 and the magnetizing unit 252 is maintained.

Thereby, the user can perform the rolling motion of the upper body and achieve the muscular reinforcement of the bone joints and the spine in a state that the lower body is fixed by the fixing frame 300 connected to the driving frame 200.

The fixing frame 300 is connected with the driving frame 200 to fix the lower body of the user, and includes: a coupling frame 310 coupled at upper and lower ends thereof to the fixed guide frames 218 of the support frame 210, respectively; a first length adjusting frame 320 having an upper end combined with a lower portion of the combining frame 310 in an adjustable length manner; a second length-adjusting frame 330 inserted into the bent lower end portion of the first length-adjusting frame 320 in a length-adjustable manner; and a lower body fixing cushion 340 formed at an end of the second length adjustment frame 330 to closely and fixedly attach the lower body of the user.

The first length adjustment frame 320 is combined in such a manner as to be moved up and down from the combining frame 310, and the second length adjustment frame 330 is combined in such a manner as to achieve length adjustment from the first length adjustment frame 320 with respect to the front-rear direction, to adjust the position of the lower body fixing cushion 340 according to the physical condition of the user.

In this case, the first length-adjusting frame 320 and the second length-adjusting frame 330 are adjusted and fixed in length by the adjusting bolts 350.

Further, it is preferable that the coupling frame 310 and the second length adjustment frame 330 are stably maintained in a fixed state after the length adjustment is completed by forming a bolt fastening portion 360 for fastening the adjustment bolt 350.

On the other hand, the inverted movement in the present invention is a movement in which the lower body is fixed by the fixing frame 300 in a state in which the user lies on the upper portion of the cushion member 220, the upper body is rotated downward to hold the lower end handle member 130, the lower body of the fixed driving frame 200 is rotated upward to maintain an inverted posture, and the inverted movement is a movement in which the upper body is repeatedly rotated downward or upward to strengthen the muscles of the bone joints and the spine of the user in a state in which the lower body is fixed by the fixing frame 300.

Description of reference numerals

100: main frame 110: first supporting frame

120: second holding frame 130: lower end handle part

140: the adjusting member 150: connecting frame

200: the driving frame 210: supporting frame

220: the cushion member 230: rotary supporting shaft

240: the rotating bracket 250: safety element

260: insulator 300: fixing frame

310: the combination frame 320: first length adjusting frame

330: second length adjustment frame 340: lower body fixing soft cushion

350: adjusting the bolt 360: bolt fastening part

Claims

1. A manual reverse hanging movement device capable of performing reverse movement is characterized in that,

the method comprises the following steps:

the main frame is used for fixing the manual reverse hanging movement device on the ground;

a lower end handle member formed at a lower end portion of the main frame and configured to be gripped by a user in order to rotate an upper body of the user downward;

a driving frame including a cushion part for placing the lower body of the user, a support frame combined with a lower portion of the cushion part, and a rotation bracket formed at a lower portion of the support frame and rotatably combined with the main frame; and

a fixing frame combined with the driving frame for fixing the lower body of the user,

the main frame includes:

a first support frame including a front leg frame formed at a front lower portion thereof and having a leg connecting plate formed at one side thereof, an upper support frame coupled to both sides of an upper portion of the front leg frame, and a connection frame formed at the upper support frame and rotatably coupled to the rotation bracket; and

a second supporting frame coupled to the rear leg frame and the lower handle member, the rear leg frame being coupled to the leg link plate,

the main frame further comprises an adjusting component,

the above-mentioned regulating part includes:

a coupling protrusion coupled to the front leg frame and formed at one side of the rear leg frame to control a rotation operation of the rear leg frame;

a guide pin penetrating the rear leg frame and the leg link plate and having one end detachably coupled to the coupling projection;

a pin fixing plate formed at the other end of the guide pin;

an adjusting bracket formed with a pin fixing protrusion separably combined with the upper pin fixing plate; and

and a reset unit formed inside the adjusting bracket for restoring the position of the guide pin.

2. The manual upside down mount motion device of claim 1, wherein said support frame comprises:

an upper support frame for supporting the upper part of the lower surface of the cushion member;

a lower support frame for supporting the lower part of the lower surface of the cushion member, the lower end of the lower support frame being coupled to the rotary bracket;

a cushion support frame for connecting the upper support frame and the lower support frame;

an upper end handle member for holding the user when the user closely contacts the cushion member;

a fixed guide frame formed on the upper support frame and the lower support frame and combined with the fixed frame; and

and a safety member provided to the rotary bracket to control whether the driving frame is rotated.

3. The manual reverse hang motion device of claim 2, wherein the safety component further comprises:

a rotating support shaft which combines the rotating bracket and the main frame and realizes a magnetizing plate at the end part;

a magnetizing unit for forming magnetic lines according to whether a power supply is applied, and magnetizing with the magnetizing plate;

a drive motor for rotating the rotary support shaft;

an attachment plate for attaching the magnetizing unit to the driving motor; and

and a plurality of power switches formed on the lower handle part for controlling the magnetization of the magnetization unit and the driving of the driving motor.

4. The manual upside down mount exercise device with reversible motion as claimed in claim 1, wherein said fixed frame comprises:

a combination frame combined with the support frame;

a first length adjusting frame, the upper end of which is combined with the lower part of the combining frame in a way of adjusting the length, and the lower end of which is bent;

a second length adjustment frame inserted into the bent lower end portion of the first length adjustment frame in a length-adjustable manner; and

the lower body fixing cushion is formed at the end part of the second length adjusting frame and is used for clinging to and fixing the lower body of a user.