Patent Application
20250222300
The present disclosure relates to the field of fitness equipment, in particular, to a strength training machine.
With the continuous improvement of living standards, people pay more and more attention to their health. Therefore, various types of fitness equipment have also become popular in people's life.
Conventional strength training machines may include a left bracket and a right bracket, both of the left bracket and the right bracket are provided with counterweight blocks, and the left bracket and the right bracket are connected by a rotating shaft, thereby realizing the folding of the strength training machine so as to facilitate the storage of the strength training machine. However, when the above-described strength training machines are being folded, the counterweight blocks are likely to shake, which is inconvenient for the folding operation of the strength training machine.
The present disclosure provides a strength training machine, which can be folded with a single hand and thus convenient for the folding operation.
In one aspect of the present disclosure, a strength training machine is provided. The strength training machine includes a bracket and a pulling assembly. The pulling assembly includes a handle assembly and a counterweight device, an end of the bracket is formed with a cavity structure, and the counterweight device is arranged in the cavity structure. The counterweight device includes a resistance adjusting assembly and a drive wheel. The handle assembly includes a pulling piece, a first end of the pulling piece is used to apply a pulling force, and a second end of the pulling piece is attached to the drive wheel, and the drive wheel rotates under a driving of the resistance adjusting assembly, so that the pulling piece is coiled around a wheel surface of the drive wheel while generating a counterweight pulling force. A sliding assembly is arranged at one of a bottom or a side of the cavity structure. The strength training machine is capable of having a first state and a second state, the bracket in the first state is in a face-to-face contact with a support surface and the bracket in the second state is inclined relative to the support surface, and the sliding assembly is in contact with the support surface to assist movement of the bracket when the bracket is in the second state.
In some embodiments of the present disclosure, the bracket includes a handle structure arranged away from the cavity structure, and the handle structure is used to apply a second pulling force to the bracket when the bracket is in the second state.
In some embodiments of the present disclosure, the bracket is gradually lifted from the second state to a third state of the strength training machine in which the bracket is in upright contact with the support surface under a weight of the counterweight device and the second pulling force applied to the handle structure.
In some embodiments of the present disclosure, the bracket includes a support frame and a support plate, the cavity structure protrudes upward from the support plate, and a height of the cavity structure is greater than a height of the support plate.
In some embodiments of the present disclosure, the cavity structure includes a cavity configuration for receiving the counterweight device.
In some embodiments of the present disclosure, the bottom of the support frame is configured to include a bottom surface facing or in contact with the support surface in the first state, the side of the cavity structure forms a side surface facing or in contact with the support surface in the third state.
In some embodiments of the present disclosure, a first support pad is provided on a bottom surface of the cavity structure, and when the bracket is in the first state, the first pad is in contact with the support surface.
In some embodiments of the present disclosure, the sliding assembly is arranged at an intersection of the side surface and the bottom surface.
In some embodiments of the present disclosure, the strength training machine further includes a second connection assembly, the second connection assembly is used to connect the first bracket and the second bracket in the folded state.
In some embodiments of the present disclosure, the sliding assembly is a wheel or a sliding pad.
In some embodiments of the present disclosure, the first support pad is configured to include a plurality of foot pads arranged on the bottom surface in contact with the support surface in the first state.
In some embodiments of the present disclosure, the sliding assembly member is configured on the side surface and the bottom surface, and a second support pad is configured on the side surface, and when the bracket is in the third state, the second support pad is in contact with the support surface.
In some embodiments of the present disclosure, the second-support pad is arranged on the side surface in contact with the support surface in the third state.
In some embodiments of the present disclosure, the second support pad is an auxiliary slide member arranged on the side surface in contact with the support surface in the third state.
In some embodiments of the present disclosure, the bracket further includes a guide unit, the guide unit includes a support frame, the drive wheel and the first end of the pulling piece are respectively located on opposite sides of the support frame, the support frame is provided with an avoidance hole, and the pulling piece passes through the avoidance hole.
In some embodiments of the present disclosure, the guide unit further includes a first guide wheel and at least one second guide wheel, the first guide wheel and the at least one second guide wheel are supported on opposite sides of the pulling piece, the first guide wheel and the at least one second guide wheel are respectively located on opposite sides of the support frame, the drive wheel and the first guide wheel are located on a first side of the support frame, the first end of the pulling piece and the at least one second guide wheel are located on a second side of the support frame.
In some embodiments of the present disclosure, the resistance adjusting assembly is a motor.
In some embodiments of the present disclosure, the pulling piece is one of a tension belt or a pull rope.
In some embodiments of the present disclosure, the pulling assembly further includes a load bar or a pull ring, and a respective one of two ends of the load bar is detachably connected to the first end of a respective pulling piece, the handle assembly further includes a handle, the first end of the pulling piece is provided with a pull ring, and the handle is detachably arranged on the pull ring.
In some embodiments of the present disclosure, the pulling assembly further includes at least one fixing assembly, and the at least one fixing assembly is used to fix the first end of the pulling piece to one of the load bar or the pull ring
In some embodiments of the present disclosure, each fixing assembly includes a fixing sleeve and a fastener, the fixing sleeve is fitted onto the load bar, and the fastener is used to fix the fixing sleeve to the load bar.
In another aspect of the present disclosure, a strength training machine is provided. The strength training machine includes a bracket being switchable between a folded state and an unfolded state. At least a portion of the bracket on which a user stands for a strength training is in contact with a support surface in the unfolded state, and the at least a portion of the bracket is capable of being positioned to be inclined or vertical with respect to the support surface after the bracket is switched to the folded state. The strength training machine also includes a motor. At least one driving wheel is coupled to the motor and is rotatable under a driving of the motor. The strength training machine also includes a pulling piece including a first end portion capable of applying a pulling force to the user during the strength training and a second end portion coiled around the at least one driving wheel. The strength training machine also includes at least one moving member attached to the bracket, the at least one moving member contacts the support surface and is capable of assisting a movement of the strength training machine relative to the support surface after the at least a portion of the bracket has been positioned to be inclined or vertical with respect to the support surface.
In some embodiments of the present disclosure, the at least a portion of the bracket is locked in the folded state, such that to prevent the strength training machine from rotating out of the unfolded state.
In some embodiments of the present disclosure, the at least a portion of the bracket is rotatable from the folded state to the unfolded state under a weight of the at least a portion of the bracket after the at least a portion of the bracket has been unlocked by an operation of the user.
In some embodiments of the present disclosure, the at least a portion of the bracket is capable of being limited to be non-rotatable when the bracket remains in the unfolded state during the strength training, and the at least one moving member is not engageable with the support surface.
In some embodiments of the present disclosure, the bracket includes a housing for receiving the motor, the at least a portion of the bracket includes a standing surface on which the user stands during the strength training, the housing is located next to the standing surface, and the housing protrudes upward relative to the standing surface when the bracket is in the unfolded state.
In some embodiments of the present disclosure, the at least one moving member includes a wheel, the wheel is capable of contacting the support surface in the folded state and assisting the movement of the strength training machine by engaging with the support surface, and the wheel is not capable of contacting the support surface when the bracket is in the unfolded state.
In another aspect of the present disclosure, a strength training apparatus is provided. The strength training apparatus includes a frame configured for placement on a support surface, the frame including a first part and a second part which is rotatable relative to the first part and switchable between a first state folded with the first part and a second state unfolded with the first part. The strength training apparatus also includes a support plate attached to the second part for allowing a user to stand on the support plate for a strength training, the support plate being positioned opposite the support surface when the second part is unfolded relative to the first part. The strength training apparatus also includes a motor; a driving wheel coupled to the motor and driven by the motor; a pulling piece engageable with the driving wheel and capable of applying a pulling force on the user; and a moving wheel attached to the frame, at least one of the first part and the second part is capable of being positioned to be inclined or vertical with respect to the support surface after the second part is rotated, relative to the first part, away from the support surface, the strength training apparatus being movable relative to the support surface by an engagement of the moving wheel with the support surface.
In some embodiments of the present disclosure, the frame is formed with a cavity structure, and the motor and the driving wheel are arranged in the cavity structure.
In some embodiments of the present disclosure, the moving wheel is located at the first part and besides the cavity structure, and the moving wheel is adjacent the second part and contactable with the support surface when the second part is rotated into the first state.
In some embodiments of the present disclosure, the cavity structure is defined with an opening, a portion of the pulling piece is wounded around the driving wheel, and another portion of the pulling piece extends out of the first part through the opening and held by the user.
In some embodiments of the present disclosure, a load bar is detachably connected with the other portion of the pulling piece, and the load bar is capable of being lifted away from the support surface or lowered near the support surface.
In some embodiments of the present disclosure, a fixing member is provided to connect with the other portion of the pulling piece and the load bar, the fixing member includes a fixing sleeve that is sleeved on the load bar and a fastening piece engageable with the fixing sleeve for preventing the other portion of the pulling piece from detaching from the load bar and disengageable with the fixing sleeve for detaching the other portion of the pulling piece from the load bar.
In another aspect of the present disclosure, a strength training apparatus switchable between a first state unworkable for a strength training and a second state workable for the strength training is provided. The strength training apparatus includes a first bracket capable of being placed on a support surface, and a second bracket coupled to the first bracket and capable of being placed on the support surface, the second bracket being folded with the first bracket in the first state and unfolded with the first bracket in the second state. The strength training apparatus also includes a pulling piece which is operable by a user when the user stands on the second bracket for the strength training; an adjustable counterweight mechanism coupled to the pulling piece for providing an adjustable tension to the pulling piece, the adjustable counterweight mechanism being arranged in a cavity structure; and a sliding assembly arranged at one of a bottom surface and a side of the cavity structure, the second bracket is in contact with the support surface when the strength training apparatus is disposed in the second state for the strength training, the second bracket is rotatable away from the support surface to be inclined or vertical to the support surface, so that the strength training apparatus is switchable from the second state to the first state, the strength training apparatus is slidable on the support surface through an engagement of the sliding assembly and the support surface after the strength training apparatus is switched to the first state.
In order to illustrate the technical solution in embodiments of the present disclosure more clearly, the following briefly introduces accompanying drawings used in the description of the embodiments. It should be noted that the accompanying drawings in the following descriptions cover only some embodiments of the present disclosure. Those of ordinary skill in the art may derive other drawings from these accompanying drawings without any creative efforts.
To make the purpose, technical solutions and advantages of the present disclosure clearer, the technical solutions in the embodiments of the present disclosure will be described in more detail hereinafter in conjunction with the drawings in preferred embodiments of the present disclosure. In the drawings, the same or similar reference numerals denote the same or similar components or components having the same or similar functions throughout. The described embodiments are a part of embodiments of the present disclosure, not all thereof. The embodiments described hereinafter by referring to the figures are exemplary, and are intended to explain the present disclosure, and should not be construed as limiting the present disclosure. Based on the embodiments in the present disclosure, all other embodiments obtained by those skilled in the art without creative efforts fall within the claimed scope of the present disclosure. Hereinafter, embodiments of the present disclosure will be described in detail in conjunction with the accompanying drawings.
In the description of the present disclosure, it should be noted that, unless otherwise clearly stipulated and limited, the terms “installed”, “connected with” and “connected” should be understood in a broad sense. For example, they can be fixedly connected, or indirectly connected through an intermediate medium, which can be the internal communication of two elements or the interaction relationship between two elements. For those skilled in the art, the concrete meaning of the above-mentioned terms in the present disclosure can be understood under concrete circumstances.
In the description of the present disclosure, it should be understood that the orientation or positional relationship indicated by the terms “upper”, “lower”, “front”, “rear”, “vertical”, “horizontal”, “top”, “bottom”, “inner”, “outer” is based on the orientation or positional relationship shown in the drawings, and is only for the convenience of describing the present disclosure and simplifying the description, rather than indicating or implying that the referred machine or element must include a specific orientation, constructed and operated in a particular orientation and therefore should not be understood as limiting the present disclosure.
The terms “first”, “second”, and “third” (if any) in the description, claims and the above drawings of the present disclosure are used to distinguish similar objects and not necessarily to describe a specific order or priority. It should be understood that the data thus used are interchangeable under appropriate circumstances such that the embodiments of the present disclosure described herein can be practiced in sequences other than those illustrated or described herein.
Furthermore, the terms “comprise” /“include” and “include”, as well as any variations thereof, are intended to cover a non-exclusive inclusion, for example, a process, method, system, product or maintenance tool comprising a series of steps or units need not be limited to the expressly listed, but other steps or elements not explicitly listed or inherent to the process, method, product or maintenance tool may be included.
The existing strength training machines with folding function adopt the structure of a rotating shaft or a hinge, so as to realize the folding of the strength training machine, thereby facilitating the storage of the strength training machine. However, when the above-described strength training machines are being folded, the assistance of both hands, or a hand and a foot is required to complete the folding, which is inconvenient to operate. To solve the above-identified and other deficiencies, the present disclosure provides a strength training machine, which can be folded with one hand and is convenient for folding.
Hereinafter, the present disclosure will be described in detail using specific examples.
Therein, the first connection assembly 300 comprises a connection handle 310. A first end of the first bracket 100 and a first end of the second bracket 200 are symmetrically provided with a pulling assembly 400, the pulling assembly 400 includes a handle assembly 440 and a counterweight mechanism 450, and the counterweight mechanism 450 includes a resistance adjusting assembly 451 and a drive wheel 452. The handle assembly 440 includes a pulling piece 441, a first end of the pulling piece 441 is used for a user to apply a pulling force, and a second end of the pulling piece 441 is fixed on the drive wheel 452. The drive wheel 452 rotates under the driving of the resistance adjusting assembly 451, so that the pulling piece 441 is wound on a wheel surface of the drive wheel 452 and generates a counterweight pulling force.
A second end of the first bracket 100 and a second end of the second bracket 200 are hinged through the connection handle 310, so that the first bracket 100 and the second bracket 200 are switched between a folded state and an unfolded state. Therein, in the folded state, the first bracket 100 and the second bracket 200 are arranged back-to-back, that is, the bottoms of the two pulling assemblies 400 abut against each other. In the unfolded state, the first bracket 100 and the second bracket 200 are arranged side by side, whereas the two pulling assemblies 400 are located in a same plane, and the first bracket 100 and the second bracket 200 are located in a same plane.
According to some embodiments, the first bracket 100 and the second bracket 200 are respectively used to support the pulling assembly 400 connected thereto. Therein, the first bracket 100 and the second bracket 200 may include a shape of a rectangular frame. The structures of the first bracket 100 and the second bracket 200 may be identical.
According to some embodiments, the resistance adjusting assembly 451 may be a motor, and the motor can simulate a counterweight. The motor drives the drive wheel 452 to rotate, so that the pulling piece 441 is wound on the wheel surface of the drive wheel 452 to generate a counterweight pulling force. In this way, when folding or unfolding the strength training machine, it is unlikely to shake. At the same time, when the counterweight mechanism 450 performs counterweight adjustment, the counterweight size of the counterweight mechanism 450 is adjusted accurately, and the counterweights of the two pulling assemblies 400 can be adjusted separately according to different requirements of users.
According to the strength training machine provided by the present disclosure, the first bracket 100 and the second bracket 200 are arranged, both of the first end of the first bracket 100 and the first end of the second bracket 200 are symmetrically provided with the pulling assemblies 400, the pulling assemblies 400 simulate a counterweight through the resistance adjusting assembly 451, and the resistance adjusting assembly 451 drives the drive wheel 452 to rotate, so that the pulling piece 441 is wound on the wheel surface of the drive wheel 452 and generates a counterweight pulling force. In this way, when folding or unfolding the strength training machine, it is unlikely to shake. The second end of the first bracket 100 and the second end of the second bracket 200 are hinged through the connection handle 310, and by pulling the connection handle 310 with one hand, the second end of the first bracket 100 and the second end of the second bracket 200 can be rotated around the connection handle 310 respectively, and meanwhile, under the gravity, the pulling assemblies 400 connected to the first end of the first bracket 100 and the first end of the second bracket 200 makes the second end of the first bracket 100 and the second end of the second bracket 200 gradually rise with the connection handle 310, and the first bracket 100 and the second bracket 200 are gradually folded up to a folded state in which the first bracket 100 and the second bracket 200 are arranged back to back. The folding of the strength training machine is realized by a single hand, and the operation is convenient and the structure is simple.
Continually referring to
In some embodiments, the pulling assembly 400 further includes a housing 460, the counterweight mechanism 450 and a part of the pulling piece 441 are located in the housing 460, the support base 453 may be connected with the housing 460, the housing 460 is connected with the first bracket 100 or the second bracket 200. Specifically, the housing 460 includes an entrance/exit hole 461, and a first end of the pulling piece 441 protrudes out of the housing 460 through the entrance/exit hole 461.
The bottom and/or side walls of the housing 460 include a sliding pad 410 or wheels 420. Therein, the wheels 420 may be universal wheels. By arranging the sliding pad 410 or the wheels 420 on the bottom of the housing 460, the sliding pad 410 or the wheels 420 help assist movement during the unfolding or folding process of the strength training machine, thereby facilitating the unfolding and folding of the strength training machine. The side wall of the housing 460 is provided with a sliding pad 410 or wheels 420. When the strength training machine is folded into upright state, the sliding pad 410 or the wheels 420 on the side wall of the housing 460 is in contact with the support surface of the strength training machine, thereby facilitating to move the strength training machine after folding.
In some embodiments of the present disclosure, at least two foot pads 430 are provided on the bottom of the housing 460. When the strength training machine is in the unfolded state, the foot pads 430 are in contact with the support surface of the strength training machine to provide buffer for the strength training machine when the strength training machine is in use.
In the drawings of this embodiment, the number of the first connection pieces 130 and the number of the second connection pieces 230 are both four for illustration. It is understood that the number of the first connection pieces 130 and the second connection pieces 230 may also be greater than four. The four first connection pieces 130 and the four second connection pieces 230 are evenly and discretely spaced at the second end of the first bracket 100 and the second end of the second bracket 200, respectively. The second end of the first bracket 100 is opposite the second end of the second bracket 200, and the first connection piece 130 and the second connection piece 230 have a one-to-one correspondence. The connection part 312 at the first end of the handle main body 311 may be respectively hinged with a first connection piece 130 and a second connection piece 230 in the middle that are opposite each other, and the connection part 312 at the second end of the handle body 311 may be respectively hinged with another first connection piece 130 and another second connection piece 230 in the middle that are opposite each other. Thus, the handle main body 311 is connected to the middle of the first bracket 100 and the second bracket 200, and when the strength training machine is folded with one hand, the force is relatively uniform and stable. Both sides of the handle main body 311 may be provided with circular chamfers, thereby providing a better hand feeling for the user and improving the experience of the user.
Specifically, two first through holes 3121 may be provided on the connection part 312, and the second through holes 131 and the third through holes 231 are respectively provided on the first connection piece 130 and the second connection piece 230. A bolt 500 passes through the first through holes 3121 and the second through holes 131 respectively, to hinge the first connection piece 130 and the connection part 312, and another bolt 500 passes through the first through hole 3121 and the third through hole 231 respectively, to hinge the second connection piece 230 and the connection part 312. Therein, a part of the shaft of the bolt 500 is smooth, and a part thereof includes threads, and the smooth shaft is located in the first through hole 3121 and a part of the second through hole 131, or the smooth shaft is located in the first through hole 3121 and a part of the third through hole 231, thereby ensuring that the first bracket 100 and the second bracket 200 can rotate around the connection handle 310 smoothly. The second through hole 131 and the third through hole 231 may be stepped holes, the stepped holes can accommodate a nut 600, and the nut 600 and the threaded part of the bolt 500 are in threaded connection.
In this embodiment, there is a gap between the first connection piece 130 and the second connection piece 230, thereby avoiding interference between the first bracket 100 and the second bracket 200 during the folding process of the strength training machine. Therein, the opposite ends of the first connection piece 130 and the second connection piece 230 can be provided with chamfers, such as circular chamfers, which can also avoid interference between the first bracket 100 and the second bracket 200 during the folding process of the strength training machine.
To firmly connect the first bracket 100 and the second brackets 200 and prevent offsets of the first bracket 100 and the second bracket 200 when rotating around the connection handle 310, in some embodiments, the first connection assembly 300 includes two third connection pieces 320, and the third connection piece 320 is hinged with the first connection piece 130 and the second connection piece 230 that are located on an outer side.
Specifically, the first bracket 100 includes first connection pieces 130 on opposite sides, and the second bracket 200 includes second connection pieces 230 on opposite sides. One third connection piece 320 is hinged with a first connection piece 130 on the first side of the first bracket 100, and is concurrently hinged with a second connection piece 230 on the first side of the second bracket 200. Another third connection piece 320 is hinged with a first connection piece 130 on the second side of the first bracket 100, and is concurrently hinged with a second connection piece 230 on the second side of the second bracket 200. The hinged structures of the third connection piece 320 with the first connection piece 130 and the second connection piece 230 may be the same as those of the connection part 312 with the first connection piece 130 and the second connection piece 230, which will not be repeatedly described herein.
In some embodiments, the first connection piece 130 and/or the second connection piece 230 on the outer side further includes a limiting piece 700. When the strength training machine is unfolded, the limiting piece 700 abuts against a side surface of the third connection piece 320 facing an upper surface of the first bracket 100 or an upper surface of the second bracket 200, thereby avoiding reversely folding the first bracket 100 and the second bracket 200, and meanwhile providing a position-limiting for unfolding the strength training machine. In an exemplary implementation, the limiting piece 700 may be a cylinder or a position limiting block.
During the folding process of the strength training machine, stress points are concentrated on the first connection piece 130 and the second connection piece 230, and therefore, a support piece 1000 can be provided to increase the strength of the first connection piece 130 and the second connection piece 230. In particular, at least two adjacent first connection pieces 130 and at least two adjacent second connection pieces 230 are connected through the support piece 1000. Thus, the strength of the first connection piece 130 and the second connection piece 230 is increased, thereby preventing the deformation of the first connection piece 130 and the second connection piece 230 during the folding process of the strength training machine.
In one implementation, the second connection assembly 900 includes a magnetic element 910 and a magnetic adsorption piece 920, one of the magnetic element 910 and the magnetic adsorption piece 920 is located on the bottom of the first bracket 100, and the other one is located on the bottom of the second bracket 200. In the folded state, the magnetic element 910 is absorbed with the magnetic absorbing piece 920. For example, the magnetic element 910 can be a magnet, and the magnetic absorbing piece 920 can be an iron-made piece that can be absorbed by a magnet.
In the drawings of this embodiment, the magnetic element 910 is located on the bottom of the first bracket 100, and the magnetic adsorption member 920 is located on the bottom of the second bracket 200 for illustration. In
In another implementation, the second connection assembly 900 includes a buckle (not shown) and a slot (not shown) matching the buckle. One of the buckle and the slot is located on the bottom of the first bracket 100, and the other one is located on the bottom of the second bracket 200. In the folded state, the buckle engages with the slot. By providing the slot and the buckle, it is convenient to connect the first bracket 100 and the second bracket 200 in the folded state, and it is also convenient to open the first bracket 100 and the second bracket 200 in the unfolded state, thereby facilitating the folding/unfolding operation and reducing cost.
Continually referring to
Hereinafter, the structure and use state of the push rod structure 800 will be described with an example of locating the push rod structure 800 on the bottom of the first bracket 100. It can be understood that the push rod structure 800 can also be located on the bottom of the second bracket 200.
In an exemplary implementation, the push rod structure 800 may include a drive assembly 810, a swing rod 820 and a support base 830. The drive assembly 810 and the support base 830 are connected with the first bracket 100, and the swing rod 820 is hinged with the support base 830. The drive assembly 810 is connected with the swing rod 820 to drive the swing rod 820 to rotate around the support base 830, so that the swing rod 820 applies a pushing force to the second bracket 200, thereby separating the first bracket 100 from the second bracket 200.
Therein, in the folded state, the first end of the swing rod 820 may abuts against the bottom of the second bracket 200. When the drive assembly 810 drives the swing rod 820 to rotate around the support base 830, the swing rod 820 rotates toward the second bracket 200, and provides a pushing force to the second bracket 200, to separate the first bracket 100 from the second bracket 200 to unfold the strength training machine.
The structure of the drive assembly 810 is not limited to those described in the present disclosure. For example, the drive assembly 810 may be a motor, the output shaft of the motor is connected with the swing rod 820, and the motor drives the swing rod 820 to rotate around the support base 830. When the drive assembly 810 is a motor, the supporting base 830 may not be provided, and the motor is connected with the first bracket 100. Therein, a drive button of the motor may be located at the second end of the first bracket 100 or the side surface of the first bracket 100, thus conveniently allowing the user to turn on and turn off the motor.
In some embodiments, the drive assembly 810 may include a pull rod 811, a pull cable 812 and a fixed base 813, the fixed base 813 is located at the second end of the first bracket 100, the pull rod 811 is inserted onto fixed base 813, the first end of the pull cable 812 is connected with the pull rod 811, and the second end of the pull rod 811 is connected with the second end of the swing rod 820. By applying a pulling force to the pull rod 811, the pull rod 811 may move relative to the fixed base 813, and the pull rod 811 drives the swing rod 820 to rotate around the support base 830 through the pull cable 812. The first end of the swing rod 820 rotates toward the second bracket 200 and provides a pushing force to the second bracket 200. Therein, the pull cable 812 is a steel wire rope, a steel strand, or a steel wire bundle.
In some embodiments, the support base 830 includes a positioning groove 831, the swing rod 820 is hinged in the positioning groove 831, and the positioning groove 831 is used to limit a rotation angle of the swing rod 820. For example, a notch of the positioning groove 831 faces the second end of the first bracket 100, the swing rod 820 may be V-shaped, the swing rod 820 is located in the positioning groove 831, and a bending position of the swing rod 820 is hinged with the positioning groove 831. The swing rod 820 rotates around the positioning groove 831 until it abuts against a bottom wall of the positioning groove 831, and at this time, the swing rod 820 cannot continue to rotate, thereby limiting the rotation angle of the swing rod 820. In this embodiment, the rotation angle of the swing rod 820 is not limited, as long as the swing rod 820 can separate the first bracket 100 from the second bracket 200.
In the present disclosure, the second connection assembly 900 is used to connect the first bracket 100 and the second bracket 200, and the push rod structure 800 is used to separate the first bracket 100 from the second bracket 200. The second connection assembly 900 and the push rod structure 800 may be adjacently disposed, whereby the push rod structure 800 facilitates the separation of the first bracket 100 and the second bracket 200.
Therein, the guide unit 454 may further include a first guide wheel 4543 and at least one second guide wheel 4544, the first guide wheel 4543 and the second guide wheel 4544 are supported on opposite sides of the pulling piece 441, the first guide wheel 4543 and the second guide wheel 4544 are respectively located on opposite sides of the support frame 4541, the drive wheel 452 and the first guide wheel 4543 are located on a same side of the support frame 4541, and the first end of the pulling piece 441 and the second guide wheel 4544 are located on a same side of the support frame 4541.
In the drawings of this embodiment, there are two second guide wheels 4544. After the pulling piece 441 is pulled out from the drive wheel 452, it is wound around the first guide wheel 4543, and then passes through the avoidance hole 4542 and the two second guide wheels 4544 in sequence, and then extends out of the housing 460 through the entrance/exit hole 461 of the housing 460. Thus, the pulling piece 441 is guided by the first guide wheel 4543 and the second guide wheel 4544, thereby avoiding the crimping of the pulling piece 441.
In an exemplary implementation, the pulling piece 441 may be a tension belt or a pull rope.
In order to prevent the pulling piece 441 from falling off from the load bar 470 when the load bar 470 is used, the pulling assembly 400 further includes at least two fixing assemblies 480, the fixing assemblies 480 are used to fix the first end of the pulling piece 441 on the load bar 470.
Therein, the fixing assembly 480 may include a fixing sleeve 481 and a fastening piece 482, the fixing sleeve 481 is sleeved on the load bar 470, and the fastening piece 482 is used to fix the fixing sleeve 481 on the load bar 470. Therein, the fastening piece 482 may be a screw rod, and the fixing sleeve 481 includes a screw-rod hole, and the screw rod is inserted into the screw-rod hole and abuts against the load bar 470 so as to fix the fixing sleeve 481 on the load bar 470, thereby enabling convenient disassembling and assembling of the fixing sleeve 481.
In some embodiments, only the fixing sleeve 481 is provided. The fixing sleeve 481 is provided with internal threads, and the load bar 470 is provided with external threads, and the fixing sleeve 481 and the load bar 470 are connected by threads. The fixing sleeve 481 and the load bar 470 may also be connected in a detachable manner commonly used by those skilled in the art, which is not limited in this embodiment.
In order to facilitate the use of the strength training machine, the handle assembly 440 may further include a handle (not shown), the first end of the pulling piece 441 is provided with a pull ring (not shown), and the handle is detachably arranged on a pull ring. By arranging the pull ring, it is convenient to connect the first end of the pull rope with the handle. Therein, the handle and the pull ring can be connected by a detachable connection manner commonly used by those skilled in the art, such as a keychain. The user may hold the handle to apply a pulling force to the pull rope.
Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of the present disclosure, and are not intended to limit it. Although the present disclosure includes been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that: it is still possible to modify the technical solutions described in the foregoing embodiments, or perform equivalent replacements for some or all of the technical features; and these modifications or replacements do not make the essence of the corresponding technical solutions deviate from the technical solutions of the various embodiments of the present disclosure.
| Number | Date | Country | Kind |
|---|---|---|---|
| 202010899237.3 | Aug 2020 | CN | national |
| 202021871252.9 | Aug 2020 | CN | national |
The present application is a continuation application of U.S. patent application Ser. No. 18/239,380, filed on Aug. 29, 2023, which is a continuation application of U.S. patent application Ser. No. 18/114,327, filed on Feb. 27, 2023, which is a continuation application of International Patent Application Serial No. PCT/CN2021/105277, filed on Jul. 8, 2021, which claims the benefit of and priority to Chinese Patent Application Serial No. 202021871252.9, entitled “STRENGTH TRAINING MACHINE”, filed with China National. Intellectual Property Administration (CNIPA) on Aug. 31, 2020, and Chinese Patent Application Serial No. 202010899237.3, entitled “STRENGTH TRAINING MACHINE”, filed with CNIPA on Aug. 31, 2020. The entire contents of all of the above-mentioned applications are hereby incorporated herein fully by reference into the present disclosure.
| Number | Date | Country | |
|---|---|---|---|
| Parent | 18239380 | Aug 2023 | US |
| Child | 19095799 | US | |
| Parent | 18114327 | Feb 2023 | US |
| Child | 18239380 | US | |
| Parent | PCT/CN2021/105277 | Jul 2021 | WO |
| Child | 18114327 | US |
