CN113144508A - Body-building apparatus - Google Patents

Abstract

The invention belongs to the technical field of fitness equipment, and discloses a fitness device which comprises a fitness device body and a supporting structure, wherein the supporting structure comprises a supporting component, a leg component and a connecting component; the upper part of the supporting component is connected with the body of the body-building device, and the leg component is rotatably connected with the lower part of the supporting component through the connecting component so as to realize the expansion or the retraction of the leg component; when the leg component is unfolded, the leg component is turned over towards the direction departing from the supporting component by taking the connecting component as an axis until the leg component is laid on the ground; when the leg component is folded, the leg component still takes the connecting component as an axis and turns over to be in a vertical state towards the direction of the supporting component. The invention can effectively solve the problem that the stability and the occupied space of the existing body builder are large and cannot be balanced.

Description

Body-building apparatus

Technical Field

The invention belongs to the technical field of fitness equipment, and particularly relates to a fitness device.

Background

The size of the user's volume is one of the important considerations when choosing an exercise machine. However, some existing strength-type exercise machines are generally large in size, occupy space and are not suitable for being used in families in order to ensure stability.

Disclosure of Invention

The invention provides a body builder, aiming at solving the problem that the stability and the occupied space of the existing body builder cannot be balanced.

The body builder provided by the embodiment comprises a body builder body and a supporting structure, wherein the supporting structure comprises a supporting component, a leg component and a connecting component; the upper part of the supporting component is connected with the body of the body-building device, and the leg component is rotatably connected with the lower part of the supporting component through the connecting component so as to realize the expansion or the retraction of the leg component;

when the leg component is unfolded, the leg component is turned over towards the direction departing from the supporting component by taking the connecting component as an axis until the leg component is laid on the ground;

when the leg component is folded, the leg component still takes the connecting component as an axis and turns over to be in a vertical state towards the direction of the supporting component.

Further, coupling assembling includes pivot and spacing portion, the shank subassembly with the supporting component passes through the pivot is rotated and is connected, spacing portion is used for spacingly the shank subassembly.

Further, the limiting part comprises a limiting plate and a limiting piece, and limiting holes are formed in the upper part and the lower part of the limiting plate;

the limiting plate is arranged at the joint where the support assembly is rotatably connected with the leg assembly and is fixedly connected with the support assembly;

when the leg component is unfolded, the limiting piece is limited and inserted into a limiting hole in the lower portion of the limiting plate to connect the leg component with the limiting plate; when the leg assembly is folded, the limiting part is inserted into the limiting hole in the upper part of the limiting plate in a limiting way and used for connecting the leg assembly with the limiting plate.

Further, the support assembly comprises at least two vertical rods; the upper ends of the vertical rods are connected with the body-building device body, and the lower end of each vertical rod is provided with a horizontal mounting part to form an L-shaped structure; horizontal installation department with rotate spacing connection through coupling assembling between the shank subassembly.

Furthermore, the number of the vertical rods is two, and the two vertical rods are parallel to each other and arranged at intervals.

Further, the leg assembly comprises a first rod and a second rod;

the number of the first rod bodies is equal to that of the horizontal mounting parts, one end of each first rod body is rotatably connected with the horizontal mounting part, and the other end of each first rod body extends towards the front of the body-building device body;

the second rod body is arranged between the two vertical rods, one end of the second rod body is rotatably connected with the vertical rods, and the other end of the second rod body extends towards the back of the body builder body.

Furthermore, the second rod body comprises a U-shaped leg and a splayed leg; the small opening end of the splayed leg is connected with the opening end of the U-shaped leg, and the closed end of the U-shaped leg is arranged between the two vertical rods and is rotatably connected with the two vertical rods.

Compared with the prior art, the invention adopting the scheme has the beneficial effects that:

because the leg assembly of the present invention can be deployed and stowed, the stability of the exercise machine can be ensured when the leg assembly is deployed; when the leg components are folded, the occupied space of the body builder can be reduced, and the problem that the stability and the occupied space of the existing body builder are large and cannot be balanced is effectively solved.

Drawings

FIG. 1 is a schematic perspective view of a movable joint according to an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1;

FIG. 3 is a schematic cross-sectional view of section B-B of FIG. 1;

FIG. 4 is an enlarged schematic view of the structure of FIG. 3 at C;

FIG. 5 is a schematic perspective view of a first exercise apparatus according to an embodiment of the present invention;

FIG. 6 is a schematic perspective view of the first exercise machine of FIG. 5 with the mounting plate removed from the front panel;

FIG. 7 is a schematic structural diagram of a load assembly provided by an embodiment of the present invention;

FIG. 8 is a schematic perspective view of a second exercise apparatus according to an embodiment of the present invention;

FIG. 9 is a schematic perspective view of a second exercise apparatus according to another embodiment of the present invention;

FIG. 10 is a schematic perspective view of a third exercise apparatus provided in accordance with an embodiment of the present invention;

FIG. 11 is a schematic perspective view of the exercise apparatus shown in FIG. 10 in a rear view;

figure 12 is a schematic perspective view of the support assembly of the exercise machine of figure 10 when retracted;

FIG. 13 is a schematic perspective view of the exercise apparatus of FIG. 12 in a rear view;

in the figure: 1. a force drive mechanism; 2. connecting the rotating mechanism; 3. directly driving a load; 4. a human-computer interaction module; 5. mounting a plate; 6. a first guide wheel set; 7. a second guide wheel set; 8. a wall hanging structure; 9. a support structure; 11. a movable joint; 12. a movable arm lever; 13. a handle; 21. pulling the rope; 22. a wheel disc; 51. mounting holes; 52. a guide rail; 111. a joint support; 112. an angle adjusting member; 113. an angle limiting member; 114. a position fixing handle; 1111. a first through hole; 1141. a handle portion; 1142. a connecting rod; 1143. a limiting rod; 121. a limiting hole; 91. a support assembly; 92. a leg assembly; 93. a connecting assembly; 911. a vertical rod; 912. a horizontal mounting section; 921. a first rod body; 922. a second rod body; 931. a limiting part; 9221. a U-shaped leg; 9222. a splayed leg; 9311. a limiting plate; 9312. and a limiting member.

Detailed Description

So that the manner in which the above recited objects, features and advantages of the present invention can be understood in detail, a more particular description of the invention, briefly summarized above, may be had by reference to the embodiments thereof which are illustrated in the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. The meaning of "plurality" is two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "fixed," and the like are to be construed broadly and can include, for example, fixed connections, detachable connections, or integral connections; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

For some strength type exercise machines, in order to make the exercise machine stably placed on the ground, a supporting structure 9 is usually installed at the bottom of the exercise machine body to increase the contact area between the exercise machine body and the ground and increase the stability. However, the existing supporting structure 9 usually occupies a large space to ensure stability, and thus, when the exercise machine is not used, the problem of occupying space occurs. Therefore, in order to solve the problems of large occupied space and unbalanced stability,

as shown in fig. 10-13, in order to solve the problems of large occupied space and unbalanced stability, the present embodiment provides an exercise machine, the support structure 9 of which comprises a support assembly 91, a leg assembly 92 and a connecting assembly 93; the upper part of the supporting component 91 is connected with the body of the body building device, and the leg component 92 is rotatably connected with the lower part of the supporting component 91 through a connecting component 93 so as to realize the expansion or the retraction of the leg component 92;

when the leg assembly 92 is unfolded, the leg assembly 92 is turned over by taking the connecting assembly 93 as an axis towards the direction away from the supporting assembly 91 until the leg assembly is laid on the ground;

when the leg assembly 92 is folded, the leg assembly 92 is still folded to be in a vertical state toward the supporting assembly 91 with the connecting assembly 93 as an axis.

If the user needs to use the exercise machine, the user holds the leg assembly 92 and forces the leg assembly 92 downwards to fold the leg assembly 92 relative to the support assembly 91 with the connecting assembly 93 as the axis until the leg assembly 92 falls to the ground, and at this time, one end of the leg assembly 92 far away from the support assembly 91 extends towards the direction far away from the support assembly 91, that is, the leg assembly 92 is in the unfolded state, so that the stability of the exercise machine can be ensured.

When the user uses the exercise machine, the leg assembly 92 is forced upwards to turn over the leg assembly 92 relative to the support assembly 91 by taking the connecting assembly 93 as an axis until the leg assembly 92 is in a vertical state, and at the moment, the leg assembly 92 is folded, so that the exercise machine is prevented from occupying space.

Therefore, the problem that the stability and the occupied space of the existing body builder are large and cannot be balanced is effectively solved through the supporting structure 9.

As shown in fig. 11, the connecting assembly 93 includes a rotating shaft and a limiting portion 931, the leg assembly 92 is rotatably connected to the supporting assembly 91 through the rotating shaft, and the limiting portion 931 is used for limiting the leg assembly 92. The limiting member 931 may be a screw, a stud, a snap, etc. The limiting member 931 functions as: which is used to secure the leg assembly 92 when the leg assembly 92 is laid on the ground, to prevent the leg assembly 92 from moving with the user's exertion. When the leg assembly 92 is retracted, the stopper 931 serves to fix the position of the leg assembly 92 at the time of retraction, ensuring maintenance of the retracted state.

In the specific embodiment, the limiting portion 931 includes a limiting plate 9311 and a limiting member 9312, and both the upper portion and the lower portion of the limiting plate 9311 start to have a limiting hole;

the limiting plate 9311 is arranged at the joint where the support component 91 is rotatably connected with the leg component 92, and is fixedly connected with the support component 91;

when the leg assembly 92 is unfolded, the limiting member 9312 is limited and inserted into the limiting hole at the lower part of the limiting plate 9311 for connecting the leg assembly 92 with the limiting plate 9311, as shown in fig. 11; when the leg assembly 92 is retracted, the stopper 9312 is inserted into the stopper hole in the upper portion of the stopper plate 9311 for limiting, and is used to connect the leg assembly 92 with the stopper plate 9311, as shown in fig. 13.

In order to achieve the position-limiting fixing of the leg assembly 92, it is preferable that the position-limiting plate 9311 is fixedly connected with the supporting assembly 91.

As shown in fig. 10 and 11, the support assembly 91 includes at least two vertical rods 911; the upper end of each vertical rod 911 is connected with the body-building device body, and the lower end of each vertical rod 911 is provided with a horizontal mounting part 912 to form an L-shaped structure; the horizontal mounting part 912 is connected with the leg component 92 in a rotation limiting way through the connecting component 93.

Preferably, the number of the vertical rods 911 is two, and the two vertical rods 911 are arranged in parallel and spaced apart from each other.

The two vertical rods 911 are arranged at the back of the body building device body and connected with the body building device body, and reinforcing ribs are arranged between the two vertical rods 911 in order to increase the bearing capacity of the two vertical rods 911; simultaneously, two vertical rods 911 are provided with a supporting rod perpendicular to the vertical rods 911, and the supporting rod is used for supporting the body-building device.

In this embodiment, the support has the mounting panel 5 on the support pole, and two vertical poles 911 all locate the mounting panel 5 back to be connected with the back of mounting panel 5.

In the present embodiment, the leg assembly 92 includes a first rod 921 and a second rod 922;

the number of the first rods 921 is equal to the number of the horizontal mounting parts 912, and one end of the first rods 921 is rotatably connected with the horizontal mounting parts 912, and the other end extends towards the front of the body-building device body;

the second body of rod 922 with locate between two vertical poles 911, the one end and the vertical pole 911 of the second body of rod 922 rotate to be connected, the other end extends towards the back of fitness equipment body.

As shown in fig. 10 and 11, when the leg assembly 92 is in the unfolded state, the first rod 921 located on the left side extends toward the left front, and the first rod 921 located on the right side extends toward the right front, so as to increase the activity space of the user right in front of the body of the exercise machine and improve the stability.

In order to further improve the stability, the second rod 922 of the embodiment includes a U-shaped leg 9221 and a splayed leg 9222; the small opening end of the splayed leg 9222 is connected with the opening end of the U-shaped leg 9221, and the closed end of the U-shaped leg 9221 is arranged between the two vertical rods 911 and is rotatably connected with the two vertical rods 911.

When the leg assembly 92 needs to be retracted, first, the end of the first rod body 921 far away from the horizontal mounting portion 912 is held by hand, so that the first rod body 921 is turned towards the vertical rod 911 by taking the rotating shaft of the connecting assembly 93 as an axis until reaching a limit position, at this time, the first rod body 912 is in a vertical state, and in order to avoid the first rod body 912 being freely unfolded, the first rod body 912 is in threaded connection with the limiting plate 9311 by using a limiting piece 9312 (such as a screw, etc.), and at this time, the retraction of the first rod body 921 is completed; then, the large opening end of the splayed leg 9222 is held by a hand, the U-shaped leg 9221 is turned upwards by force by taking the rotating shaft of the connecting component 93 as an axis towards the vertical rod 911 until the U-shaped leg 9221 reaches the limit position, the opening of the opening section of the U-shaped leg 9221 is upward, the splayed leg 9222 is attached to the back of the mounting plate 5, and in order to avoid the free unfolding of the U-shaped leg 9221, the U-shaped leg 9221 is in threaded connection with the first rod body 921 through the limiting part 931; and finally, the whole body builder is pushed to be placed against a wall, so that the limited space of a family is avoided being occupied.

When the leg components 92 need to be unfolded, firstly, the whole body of the exercise machine is pulled towards the direction departing from the wall body until enough space is reserved for unfolding the leg components 92; then, the limiting piece 9312 is detached from the limiting plate 9311, the first rod body 921 is turned downwards until the first rod body falls on the ground, and at this time, the limiting piece 9312 is used again to limit and fix the limiting plate 9311 and the first rod body 921; finally, the limiting portion 931 is detached from the first rod body 921, the splayed leg 9222 is pressed downwards, the splayed leg 9222 drives the U-shaped leg 9221 to turn backwards until the opening of the U-shaped leg 9221 is backward again, and the splayed leg 9222 falls onto the ground again at the moment, so that the leg assembly 92 is unfolded.

As shown in fig. 5 and fig. 6, the exercise machine provided in this embodiment includes an exercise machine body, the exercise machine body includes a force driving mechanism 1, a connecting rotation mechanism 2, and a direct-drive load 3;

the force driving mechanism 1 is connected with the connecting rotary mechanism 2 and used for driving the connecting rotary mechanism 2 to rotate in the forward direction, and the direct-drive load 3 directly drives the connecting rotary mechanism 2 to rotate in the reverse direction so as to generate a load force opposite to the force driving mechanism 1.

When the body building device of the embodiment is used for building the body, a user manually drives the force driving mechanism 1, the force driving mechanism 1 drives the connecting rotating mechanism 2 to rotate in the forward direction, and meanwhile, the direct-drive load 3 is started to directly drive the connecting rotating mechanism 2 to rotate in the reverse direction so as to generate a load force opposite to the force driving mechanism 1, so that the body building effect is achieved; in addition, in the embodiment, the direct-drive load 3 is directly driven to be connected with the rotating mechanism 2 to rotate so as to generate the load force which is opposite to the force driving mechanism 1, and further the body building device has the function of building the body, so the structure of the body building device is simple; and because the direct-drive load 3 is adopted to drive to generate the load force, the load force can be continuously changed by changing the driving force of the direct-drive load on the connecting rotating mechanism, and the problem that the load force cannot be continuously changed by adopting a manual bolt mode at present is solved.

In an embodiment, the force driving mechanism 1 can also drive the connecting rotation mechanism 2 to rotate in a reverse direction, and at this time, the direct-drive load 3 directly drives the connecting rotation mechanism 2 to rotate in a forward direction to generate a load force opposing to the force driving mechanism 1.

Preferably, the direct drive load 3 is a direct drive motor.

In this embodiment, the body-building device further includes a human-computer interaction module 4, the human-computer interaction module 4 is configured to set a magnitude of a load force generated by the direct-drive load 3, and the direct-drive load 3 is in communication connection with the human-computer interaction module 4.

When a user uses the fitness equipment of the embodiment to build body, firstly, the user sets a load force on the human-computer interaction module 4 according to the actual situation of the user; then, the user applies acting force to the force driving mechanism 1, the force driving mechanism 1 drives the connecting rotating mechanism 2 to rotate in the forward direction, and meanwhile, the direct-drive load 3 can directly drive the connecting rotating mechanism 2 to rotate reversely according to the load force of the user on the human-computer interaction module 4 to generate load force opposite to the pulling force, and further the body exercising effect is achieved.

The human-computer interaction module 4 and the direct-drive load 3 may be in wired communication connection or in wireless communication connection, for example, in WiFi connection. In this embodiment, preferably, the human-computer interaction module 4 and the direct-drive load 3 are in wireless communication connection, data can be transmitted between the human-computer interaction module and the direct-drive load 3 in real time, and the direct-drive load 3 can rotate in the opposite direction according to a load force set by a user to generate a load force opposing the pulling force.

In this embodiment, the human-computer interaction module 4 is preferably a touch screen, a force plus-minus button and a confirmation button are displayed on the touch screen, and a user can set the magnitude of the load force through the force plus-minus button and confirm the load force through the confirmation button after setting.

As shown in fig. 7, the direct drive load 3 includes an outer rotor permanent magnet motor and a control unit; the control unit is in communication connection with the man-machine interaction module 4 and controls the rotation of the outer rotor permanent magnet motor according to the load force set through the man-machine interaction module 4.

The load adjusting device of the prior body-building device adopts a servo motor, a reducer or a gear box, a pulley and the like to form a load device with a speed change mechanism, a clutch needs to be arranged at the output end of the servo motor, the load device indirectly drives and is connected with a rotating mechanism 2 to rotate, and the problems of complex structure, low service life and poor reliability exist. In order to solve the problem, the load force is provided by directly driving the connecting rotating mechanism 2 by the outer rotor permanent magnet motor, so that the noise is low and the operation is more stable. In addition, the outer rotor permanent magnet motor is electrically connected with the man-machine interaction module 4 through the control unit, so that the load force is improved according to the setting of a user.

In this embodiment, the position relationship among the force driving mechanism 1, the direct-drive load 3 and the human-computer interaction module 4 can be arbitrarily combined according to the human body part to be exercised. Preferably, power drive 1 is located above direct drive load 3, where a user can stand below power drive 1 to apply tension to power drive 1 to exercise the power of the upper body.

The control unit in this embodiment may adopt various units that can implement adjustable digital signals, such as various unit machines, microcontrollers, DSPs (digital signal processors), and FPGAs (field programmable gate arrays).

In this embodiment, the control unit may adopt a single chip microcomputer, and various control functions may be implemented by programming the single chip microcomputer, for example, in this embodiment, functions of controlling the start, stop, judgment, processing, and the like of the outer rotor permanent magnet motor according to the load force set by the human-computer interaction module 4 are implemented, and then the load force opposing the force driving mechanism 1 is provided, and the single chip microcomputer has the advantages of facilitating interface call and facilitating control.

Preferably, in order to improve the integration effect, the control unit is integrated in the outer rotor permanent magnet motor.

As shown in fig. 6 and 8, the connecting rotation mechanism 2 includes a tensile rope 21 and a sheave 22; the force driving mechanism 1 drives the wheel disc 22 to rotate in the positive direction through the tension rope 21; the direct drive load 3 directly drives the wheel disc 22 to rotate reversely to generate a load force opposing the power drive mechanism 1.

Preferably, the force driving mechanism 1 is located above the direct-drive load 3 and is used for applying a downward acting force to the force driving mechanism 1, the force driving mechanism 1 drives the wheel disc 22 to rotate in the forward direction through the tension rope 21, and meanwhile, the control unit of the direct-drive load 3 controls the outer rotor permanent magnet motor to start according to a load force arranged on the man-machine interaction module 4 so as to generate a load force opposite to the force driving mechanism 1 by the reverse rotation of the direct-drive wheel disc 22.

As shown in fig. 5 and 6, the exercise machine of this embodiment further includes a mounting workpiece, the mounting workpiece is a mounting plate 5 having a cavity, the direct-drive load 3 is disposed in the cavity, and the force driving mechanism 1 is detachably mounted on the mounting plate 5, so that the force driving mechanism 1 and the direct-drive load 3 are integrally mounted on the mounting plate 5.

Preferably, in order to facilitate the use of the human-machine interaction module 4 by the user, the human-machine interaction module 4 is also mounted on the mounting plate 5, so that the force drive mechanism 1, the direct drive load 3 and the human-machine interaction module 4 can be integrally mounted on the mounting plate 5.

As shown in fig. 1 to 4, the power drive mechanism 1 includes a movable joint 11, a movable arm lever 12, and a handle 13;

the movable joint 11 is detachably arranged on the mounting plate 5 and is also hinged with the movable arm rod 12 to adjust and maintain the mounting angle of the movable arm rod 12; the movable arm rod 12 is further provided with a first guide wheel set 6, one end of the connecting rotating mechanism 2 is connected with the handle 13, and the other end of the connecting rotating mechanism is connected with the direct-drive load 3 after being steered through the first guide wheel set 6.

Preferably, one end of a tension rope 21 connected with the rotating mechanism 2 is connected with the handle 13, the other end of the tension rope passes through the first guide wheel set 6 and then is connected with the wheel disc 22, and meanwhile, the wheel disc 22 is also directly installed on an output shaft of the direct-drive load 3 and is directly driven to rotate by an outer rotor permanent magnet motor of the direct-drive load 3.

The first guiding wheel set 6 comprises at least one pulley for changing the extending direction of the tension rope 21 connected with the rotating mechanism 2 according to actual needs.

As shown in fig. 1 to 4, the movable joint of the present embodiment is detachably mounted on a mounting workpiece (e.g., the mounting plate 5), and is also hinged to a movable workpiece (e.g., the movable arm 12) for adjusting and maintaining the mounting angle of the movable workpiece. An accommodating cavity is axially arranged inside the movable arm rod 12 of the embodiment, and a limiting hole 121 communicated with the accommodating cavity is axially arranged on the wall of the movable arm rod 12;

the movable joint of the present embodiment includes a joint support 111, an angle adjusting member 112, and an angle limiting member 113;

the joint support 111 is detachably arranged on the mounting plate 5 and is hinged with the movable arm rod 12; the angle adjusting part 112 is connected with the joint support 111, the tail end of the angle limiting part 113 is limited and detachably connected with the angle adjusting part 112, the front end of the angle limiting part 113 penetrates through the accommodating cavity in sequence and then penetrates out of the movable arm rod 12 from the limiting hole 121, and the angle limiting part 113 is limited and connected with the limiting hole 121 in a sliding fit manner;

when the angle limiting member 113 slides in the limiting hole 121 relative to the movable arm 12, the angle limiting member 113 is disconnected from the angle adjusting member 112, and then after the movable arm 12 rotates by a certain angle relative to the joint bracket 111, the angle limiting member 113 is reset to be in limited connection with the angle adjusting member 112 again, so that the installation angle of the movable arm 12 is adjusted and maintained.

The limiting hole 121 is a strip, and the angle limiting member 113 can slide in the limiting hole 121. When the angle limiting member 113 slides in a direction away from the joint bracket 111, the end of the angle limiting member 113 is pulled out from the groove in the middle of the two protrusions of the angle adjusting member 112, and at this time, the user manually rotates the movable arm 12 to a target angle relative to the joint bracket 111, and then resets the angle limiting member 113, that is, the angle limiting member 113 slides in the direction toward the joint bracket 111, and the end of the angle limiting member 113 is reinserted into the groove in the middle of the two protrusions of the angle adjusting member 112, thereby adjusting and maintaining the installation angle of the movable arm 12.

Because the movable joint of the present embodiment can adjust and maintain the installation angle of the movable workpiece through the mutual cooperation of the angle adjusting member 112 and the angle limiting member 113, when the movable joint of the present embodiment is used, the installation angle of the movable workpiece can be adjusted according to the actual use condition, and the application range is expanded. If the movable joint of the embodiment is applied to the body builder for training the upper limbs, the problem that the height and the angle of the movable workpiece of the body builder for training the upper limbs at present can not be adjusted can be effectively solved.

As shown in fig. 2, an installation groove is formed on the front surface of the joint supporter 111, and the angle adjusting member 112 is disposed in the installation groove and connected to the joint supporter 111. The angle adjusting member 112 may be integrally connected to the joint bracket 111, or may be fixedly connected by a screw bolt or the like.

"backside" in the embodiments refers to the surface that is attached to the mounting workpiece; "front surface" refers to the surface facing away from the surface on which the workpiece is mounted, it being noted that "back" and "front surface" are merely for convenience in describing the present embodiment and to simplify the description, and are not intended to indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present embodiment.

In order to realize the angle adjustment, a plurality of protrusions are arranged on the angle adjusting piece 112, and the plurality of protrusions are arranged at intervals in the rotating direction of the movable arm rod 12 relative to the joint support 111; the angle limiting part 113 is detachably inserted into the groove between the two protrusions.

Because the movable workpiece is hinged to the joint support 111, if the angle limiting piece 113 is not inserted into the groove between the two protrusions, the user can rotate the movable arm 12 relative to the joint support 111 until a certain angle is reached, and then the angle limiting piece 113 is limited and inserted into the groove between the two protrusions, so that the adjustment of the installation angle of the movable arm 12 is realized; since the angle limiting member 113 is also connected to the movable arm 12 in a limiting manner, the installation angle can be maintained.

Preferably, the angle adjuster 112 is a gear.

In some embodiments, the joint support 111 and the mounting plate 5 may be detachably connected by a screw-nut connection, a snap connection, a stud-nut connection, or the like. The detachable connection may also be implemented using the connection shown in fig. 2 and 4.

As shown in fig. 2 and 4, the movable joint further includes a position fixing handle 114; the back of the joint support 111 is also provided with a first through hole 1111; the tail end of the position fixing handle 114 passes through the first through hole 1111 to be detachably inserted into and connected with the mounting hole 51 on the mounting plate 5, and the front end passes through the joint bracket 111 and extends to the outside of the joint bracket 111;

the position fixing handle 114 is detachably connected to the mounting plate 5 by twisting the front end of the position fixing handle 114 to rotate the end of the position fixing handle 114 in the first through hole 1111 and the mounting hole 51.

Specifically, as shown in fig. 4, the fixed-position handle 114 includes a handle portion 1141, a connecting rod 1142 and a stopper 1143;

the connecting rod 1142 is a 7-shaped structure, one end of the connecting rod penetrates through the joint support 111 and is connected with the handle part 1141, and the other end of the connecting rod is connected with the limiting rod 1143; the limiting rod 1143 passes through the first through hole 1111 and is detachably inserted into the mounting hole 51;

drive connecting rod 1142 and rotate for joint support 111 through twisting handle portion 1141, and then drive gag lever post 1143 and realize that dismantling of gag lever post 1143 and mounting hole 51 is inserted and is established being connected in first through-hole 1111 and mounting hole 51 internal rotation.

It should be noted that, because the limit rod 1143 is detachably inserted into the mounting hole 51, the sizes of the first through hole 1111 and the mounting hole 51 are limited, and the limit rod 1143 can be rotated at least to rotate out of the mounting hole 51 or into the mounting hole 51. As shown in fig. 4, the first through hole 1111 and the mounting hole 51 are both larger in vertical direction (i.e., in the direction of the straight line of the rotation path of the stopper 1143) than the height of the stopper 1143, and the height of the first through hole 1111 is much greater than the height of the mounting hole 51.

The mounting plate 5 of the present embodiment is provided with mounting holes 51 and guide rails 52; the guide rail 52 is axially arranged on the mounting plate 5, and the plurality of mounting holes 51 are paved in the guide rail 52 at intervals; the limit of the movable joint 11 is arranged in the guide rail 52 in a sliding way and is detachably connected with the mounting hole 51.

The guide rail 52 is provided with a dovetail sliding groove, and the back of the corresponding movable shutdown device 11 is provided with a sliding block which is matched with the dovetail sliding groove to slide. Since the movable joint 11 is detachably connected to the mounting hole 51 and the coupling mounting hole 51 is axially provided in the guide rail 52, the height of the movable joint 11 can be adjusted.

When the movable joint needs to be detached from the mounting workpiece, firstly, the joint support 111 is supported from the lower end by one hand, so that the upper side wall of the first through hole 1111 does not extrude the limiting rod 1143 any more; then, the other hand presses the handle portion 1141 downwards, the handle portion 1141 drives the limit rod 1143 to rotate upwards in the first through hole 1111 through the connecting rod 1142 until the limit rod 1143 rotates out of the mounting hole 51, and at this time, the joint bracket 111 can move up and down along the guide rail 52;

when the joint support 111 moves to the target height, the user directly aligns the limit rod 1143 with the mounting hole 51 at the target height, and lifts the handle portion 1141 upward, the handle portion 1141 drives the limit rod 1143 to rotate downward in the first through hole 1111 through the connecting rod 1142 until the limit rod 1143 rotates into the mounting hole 51, then the hand holding the movable joint 11 does not apply upward holding force to the movable joint 11, and moves downward under the action of gravity of the joint support 111 of the movable joint 11 and the like to press the limit rod 1143 into the mounting hole 51, so that the movable joint 11 and the mounting plate 5 are mounted.

In this embodiment, the handle portion 1141, the connecting rod 1142 and the limiting rod 1143 may be welded or integrally connected.

The first guide pulley block 6 comprises at least one pulley for changing the extension direction of the tensile ropes 21 according to actual needs.

In this embodiment, the movable arm 12 is a concave structure, and both ends thereof are hinged with the movable joints 11. Therefore, the height of the movable arm rod 12 can be adjusted by adjusting the height of the movable joint 11 relative to the mounting plate 5, so that the height of the movable arm rod 12 is in accordance with the height of a user, and the body can be conveniently exercised.

Also, since the movable joint 11 can also adjust the installation angle of the movable arm 12, the angle of the movable arm 12 with respect to the horizontal plane can also be adjusted according to the individual needs of the user.

As shown in fig. 6 and 8, the exercise machine further includes a second guide wheel assembly 7, the second guide wheel assembly 7 is disposed in the cavity of the mounting plate 5, and the connecting rotating mechanism 2 is connected with the direct-drive load 3 after passing through the second guide wheel assembly 7.

One end of a tension rope 21 connected with the rotating mechanism 2 is burnt on the negative wheel disc 22, and the tension rope 21 in the horizontal direction is converted into the tension rope 21 in the vertical direction through the steering of the second guide wheel set 7; then, the vertically upward pulling rope 21 is converted into a downward pulling rope 21 through the turning of the second guide wheel group 6 arranged in the middle of the movable arm lever 12 to connect the handle 3. The user holds the handle 3 and exerts the pulling force to the below of syncline, and the pulling force passes through the pulling force rope 21 effect and drives rim plate 22 forward rotation for rim plate 22, because the outer rotor permanent-magnet machine who directly drives load 3 passes through the control unit and is connected with 4 wireless communication of man-machine interaction module, so outer rotor permanent-magnet machine will drive rim plate 22 according to the load power that the user set up and carry out the counter rotation in order to produce the load power of opposing each other with the pulling force, just so plays the effect of tempering the health.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the described parent features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (7)

1. An exercise machine, which comprises an exercise machine body and a supporting structure (9), and is characterized in that,

the support structure (9) comprises a support assembly (91), a leg assembly (92) and a connection assembly (93); the upper part of the supporting component (91) is connected with the body of the body building device, and the leg component (92) is rotatably connected with the lower part of the supporting component (91) through the connecting component (93) to realize the expansion or the retraction of the leg component (92);

when the leg component (92) is unfolded, the leg component (92) is folded towards the direction away from the supporting component (91) by taking the connecting component (93) as an axis until the leg component is laid on the ground;

when the leg component (92) is folded, the leg component (92) still takes the connecting component (93) as an axis and turns over to be in a vertical state towards the direction of the supporting component (91).

2. The exercise machine according to claim 1, wherein the connecting assembly (93) comprises a rotating shaft and a limiting portion (931), the leg assembly (92) is rotatably connected with the supporting assembly (91) through the rotating shaft, and the limiting portion (931) is used for limiting the leg assembly (92).

3. The fitness machine according to claim 2, wherein the stopper portion (931) comprises a stopper plate (9311) and a stopper (9312), the stopper plate (9311) beginning with a stopper hole at both an upper portion and a lower portion;

the limiting plate (9311) is arranged at the joint where the support component (91) is rotatably connected with the leg component (92), and is fixedly connected with the support component (91);

when the leg component (92) is unfolded, the limiting piece (9312) is limited and inserted into a limiting hole in the lower part of the limiting plate (9311) for connecting the leg component (92) with the limiting plate (9311); when the leg component (92) is folded, the limiting piece (9312) is limited and inserted into the limiting hole in the upper portion of the limiting plate (9311) and used for connecting the leg component (92) with the limiting plate (9311).

4. The fitness machine according to any of claims 1-3, characterized in that the support assembly (91) comprises at least two vertical bars (911); the upper ends of the vertical rods (911) are connected with the body-building device body, and the lower end of each vertical rod (911) is provided with a horizontal mounting part (912) to form an L-shaped structure; horizontal installation department (912) with rotate spacing connection through coupling assembling (93) between leg subassembly (92).

5. The fitness machine according to claim 4, characterized in that the number of the vertical bars (911) is two, and two vertical bars (911) are arranged in parallel and spaced apart from each other.

6. The exercise machine of claim 5, wherein the leg assembly (92) comprises a first bar (921) and a second bar (922);

the number of the first rod bodies (921) is equal to that of the horizontal mounting parts (912), one end of each first rod body (921) is rotatably connected with the horizontal mounting part (912), and the other end of each first rod body extends towards the front of the body-building device body;

the second rod body (922) is arranged between the two vertical rods (911), one end of the second rod body (922) is rotatably connected with the vertical rod (911), and the other end of the second rod body extends towards the back of the body builder body.

7. The exercise machine of claim 6, wherein the second stick (922) comprises a U-shaped leg (9221) and a splayed leg (9222); the small opening end of the splayed leg (9222) is connected with the opening end of the U-shaped leg (9221), and the closed end of the U-shaped leg (9221) is arranged between the two vertical rods (911) and is rotationally connected with the two vertical rods (911).

Images