CN220757908U - Push-pull force comprehensive training device - Google Patents

Abstract

The utility model discloses a push-pull force comprehensive trainer, wherein at least three wire winding devices and a damping mechanism capable of adjusting resistance are arranged in a base; the wire winding device comprises wire winding drums and belt pulleys, the wire winding drums of the wire winding devices are respectively connected with a tension rope, the belt pulleys are rotatably arranged in the base, and the wire winding drums are connected with the belt pulleys in a one-way transmission manner through one-way bearings so as to drive the belt pulleys to rotate in one direction when the tension ropes of the wire winding drums are pulled outwards; the at least three wire winding devices are linked with the damping mechanism through the same belt, so that when the tension rope of each wire winding device is pulled outwards to enable the corresponding belt pulley to rotate, the damping mechanism can be driven to rotate, and the training force can be adjusted when the resistance is adjusted through the damping mechanism. The utility model is suitable for different parts of one person and different age groups, has wide application range, is safe and reliable in structure, occupies small space, and is convenient to store and carry.

Description

Push-pull force comprehensive training device

Technical Field

The utility model relates to the technical field of sports fitness equipment, in particular to a push-pull force comprehensive trainer.

Background

Along with the development of economy and the improvement of living standard of people, in order to meet the demands of physical exercise and body building of people, the investment of the national sports and body building facilities is continuously increased. The chest expander is a device suitable for mass body building and exercise. At present, a conventional tension trainer in the market often adopts a fixed spring, and the larger the arm movement distance is, the larger the tension of the spring is, and the maximum tension which can be exercised by an exerciser is the force used when the spring is pulled to the limit; when the exerciser pulls the chest expander to the limit, the pulling force of the spring is the biggest, if the exerciser is relaxed at this moment, the spring will shrink with very fast speed under the action of very big rebound force, and the person and the chest expander are easily damaged. The spring is easy to deform after being stretched for a long time, so that the exercise purpose of continuously enhancing the tension is not achieved; on the other hand, the steel is easy to be pulled out due to reaching the fatigue limit, and the service life is shortened. In addition, the existing small-sized tension trainer is convenient to carry, but the maximum tension of the small-sized tension trainer is limited, and the small-sized tension trainer is generally only suitable for groups with a certain tension section; the slightly large chest expander is usually fixed at a fixed position, is inconvenient to move and cannot meet the requirement of exercise at any time and any place.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, and provides the push-pull force comprehensive trainer, which can adjust the training force by adjusting the resistance through the damping wheel mechanism, is suitable for exercisers with different pull force values at different positions and at different age groups of one person, has wide application range, is safe and reliable in structure, occupies small whole space and is convenient to store and carry.

The technical scheme adopted for solving the technical problems is as follows: a push-pull force comprehensive trainer comprises a base; at least three wire winding devices and a damping mechanism capable of adjusting resistance are arranged in the base; the wire winding device comprises wire winding drums and belt pulleys, the wire winding drums of the wire winding devices are respectively connected with a tension rope, one ends of the outer sides of the tension ropes extend outwards from the inside of the base in the same direction or different directions respectively, the belt pulleys are rotatably arranged in the base, and the wire winding drums are connected with the belt pulleys in a one-way transmission manner through one-way bearings so as to drive the belt pulleys to rotate in one way when the tension ropes of the wire winding drums are pulled outwards; the damping mechanism is rotatably arranged in the base; the at least three wire winding devices are linked with the damping mechanism through the same belt, so that when the tension rope of each wire winding device is pulled outwards to enable the corresponding belt pulley to rotate, the damping mechanism can be driven to rotate, and the training force can be adjusted when the resistance is adjusted through the damping mechanism.

The belt is wound on the belt pulleys of the three wire-rewinding machines and the damping mechanism in a ring shape, and a tensioning wheel is respectively arranged on the belt pulley of one wire-rewinding machine and the belt section between the damping mechanism and the belt pulley of the other two wire-rewinding machines so as to compress the belt.

The four wire winding devices are arranged in the same direction, the end faces of the four wire winding devices are arranged in the same plane, the belt is annularly wound on the belt pulleys of the four wire winding devices and the damping mechanism, a tensioning wheel is arranged at the belt section between the belt pulley of one wire winding device and the damping mechanism to compress the belt, and at least two tensioning wheels are arranged at the belt section between the belt pulleys of two adjacent wire winding devices to compress the belt.

The belt is annularly wound on the belt pulleys of the five wire-rewinding machines and the damping mechanism, a belt section between the belt pulley of one wire-rewinding machine and the damping mechanism is provided with a tensioning wheel for tightly pressing the belt, and a belt section between the belt pulleys of two adjacent wire-rewinding machines is at least provided with three tensioning wheels for tightly pressing the belt.

The belt is annularly wound on the belt pulleys of the six wire-rewinding devices and the damping mechanism, a belt section between the belt pulley of one wire-rewinding device and the damping mechanism is provided with a tensioning wheel for tightly pressing the belt, and a belt section between the belt pulleys of two adjacent wire-rewinding devices is at least provided with four tensioning wheels for tightly pressing the belt.

The base is characterized in that a wire passing ring is further arranged at the position corresponding to the extending position of each tension rope, a plurality of pulleys are further arranged in the base, the outer side ends of the tension ropes extend outwards from corresponding take-up reels after passing through the corresponding pulleys and the wire passing ring, and the outer side ends of the tension ropes are respectively connected with a pull handle or a corresponding holding object.

The damping mechanism is a magnetic control resistance wheel and comprises a damping wheel, and the damping wheel is an aluminum wheel assembly; the damping mechanism further comprises a magnetic plate assembly, and the magnetic plate assembly is arranged in the base and is positioned at a matched position with the aluminum wheel assembly; the damping wheel mechanism also comprises a stay wire motor and a resistance adjusting controller; and a stay wire of the stay wire motor is connected with the magnetic plate assembly, and the resistance adjusting controller is electrically connected with the stay wire motor to control the action of the stay wire motor and adjust the damping size of the damping wheel mechanism through the magnetic plate assembly.

The damping wheel is also provided with a rotating wheel which rotates synchronously with the damping wheel; the base is internally provided with a power generation motor, and a rotating shaft of the power generation motor is connected with a rotating wheel of the damping wheel through a belt so as to drive the power generation motor to rotate when the damping wheel rotates.

The self-generating control board and the rechargeable battery are also arranged in the base, the output of the power generation motor is connected with the self-generating control board, and the self-generating control board is respectively connected with the rechargeable battery, the stay wire motor and the resistance adjustment controller so as to provide a power supply signal; the rechargeable battery also provides power signals for the wire drawing motor and the resistance adjusting controller through the self-generating control board.

The damping mechanism is replaced by an outer magnetic control wheel mechanism or an inner magnetic control wheel mechanism or a servo motor or a stepping motor or a brushless motor by a magnetic control resistance wheel.

Compared with the prior art, the utility model has the beneficial effects that:

1. the utility model adopts the structure that at least three wire winding devices and a damping mechanism with adjustable resistance are arranged in the base; the wire winding device comprises wire winding drums and belt pulleys, the wire winding drums of the wire winding devices are respectively connected with a tension rope, one ends of the outer sides of the tension ropes extend outwards from the inside of the base in the same direction or different directions respectively, the belt pulleys are rotatably arranged in the base, and the wire winding drums are connected with the belt pulleys in a one-way transmission manner through one-way bearings so as to drive the belt pulleys to rotate in one way when the tension ropes of the wire winding drums are pulled outwards; the damping mechanism is rotatably arranged in the base; the at least three wire winding devices are linked with the damping mechanism through the same belt, so that when the tension rope of each wire winding device is pulled outwards to enable the corresponding belt pulley to rotate, the damping mechanism can be driven to rotate, and the training force can be adjusted when the resistance is adjusted through the damping mechanism. The structure of the utility model is provided with the take-up reel, when the tension trainer is not in use, the tension rope is stored in the take-up reel, so that the take-up reel is convenient to store; and the damping wheel mechanism can provide resistance for the rotation of the tension trainer, is suitable for different parts of one person and different age groups, and has wide application range. And the structure is safe and reliable, the whole occupied space is small, and the storage and the carrying are convenient.

2. The utility model adopts the structure that the base is internally provided with a power generation motor, a self-generating control board and a rechargeable battery, wherein the output of the power generation motor is connected with the self-generating control board, and the self-generating control board is respectively connected with the rechargeable battery, the stay wire motor and the resistance adjusting controller so as to provide a power supply signal; the rechargeable battery also provides power signals for the wire drawing motor and the resistance adjusting controller through the self-generating control board. The structure of the utility model can generate electricity by the power generation motor while moving, thereby supplying power to the internal components and reducing the energy loss.

The utility model is described in further detail below with reference to the drawings and examples; the push-pull force comprehensive trainer of the utility model is not limited to the embodiment.

Drawings

FIG. 1 is a schematic perspective view of a first embodiment of the present utility model;

FIG. 2 is a schematic perspective view of a first embodiment of the present utility model (with the bottom surface turned up);

FIG. 3 is a top view of a first embodiment of the utility model;

FIG. 4 is a schematic perspective view (with the base removed) of a first embodiment of the present utility model;

fig. 5 is a control circuit diagram of a first embodiment of the present utility model;

fig. 6 is a schematic diagram of an application scenario in accordance with a first embodiment of the present utility model;

fig. 7 is a second application scenario diagram according to the first embodiment of the present utility model;

FIG. 8 is a schematic perspective view of the inner magnetic control wheel mechanism of the present utility model;

FIG. 9 is a schematic perspective view of an outer magnetic control wheel mechanism of the present utility model;

FIG. 10 is a schematic perspective view of an electromagnet control wheel of the present utility model;

FIG. 11 is an exploded perspective view (with the base removed) of a second embodiment of the present utility model;

fig. 12 is an exploded perspective view (with the base removed) of a third embodiment of the present utility model.

Detailed Description

Example 1

Referring to fig. 1 to 7, a push-pull force integrated trainer of the present utility model includes a base 1; at least three wire winding devices 3 and a damping mechanism with adjustable resistance are arranged in the base 1; the wire winding device 3 comprises wire winding drums 31 and belt pulleys 32, the wire winding drums 31 of the wire winding devices 3 are respectively connected with one tension rope 2, one ends of the outer sides of the tension ropes 2 extend outwards from the inside of the base 1 in the same direction or different directions respectively, the belt pulleys 32 are rotatably arranged in the base 1, and the wire winding drums 31 are connected with the belt pulleys 32 in a one-way transmission manner through one-way bearings so as to drive the belt pulleys 32 to rotate in one way when the tension ropes 2 of the wire winding drums 31 are pulled outwards; the damping mechanism is rotatably arranged in the base 1; the at least three wire winding devices 3 and the damping mechanism are linked through the same belt 11, so that when the tension rope 2 of each wire winding device 3 is pulled outwards to enable the corresponding belt pulley 32 to rotate, the damping mechanism can be driven to rotate, and therefore training force can be adjusted when resistance is adjusted through the damping mechanism.

In this embodiment, the number of the wire winding devices 3 is four, the installation shafts of the four wire winding devices 3 are installed in the same direction, so that the end surfaces of the wire winding devices 3 are in the same plane, the belt 11 is annularly wound on the belt pulleys 32 of the four wire winding devices 3 and the damping mechanism, a tensioning wheel 5 is arranged at the belt section between the belt pulley 32 of one wire winding device 3 and the damping mechanism to compress the belt 11, and two tensioning wheels 5 are arranged at the belt section between the belt pulleys 32 of two adjacent wire winding devices 3 to compress the belt 11.

In this embodiment, in the base 1, a wire passing ring 6 is further installed at a position corresponding to the extending position of each tension rope 2, a plurality of pulleys 7 are further installed in the base 1, the outer ends of the tension ropes 2 extend outwards from corresponding winding drums 31 through the corresponding pulleys 7 and the wire passing ring 6, and the outer ends of the tension ropes 2 are respectively connected with a pull handle or a corresponding holding object.

In this embodiment, the damping mechanism is a magnetic control resistance wheel, the damping mechanism includes a damping wheel 41, and the damping wheel 41 is an aluminum wheel assembly; the damping mechanism further comprises a magnetic plate assembly 42, and the magnetic plate assembly 42 is arranged in the base 1 and is in a matched position with the aluminum wheel assembly; the damping wheel mechanism further includes a pull wire motor 43 and a resistance adjustment controller 44; the pull wire of the pull wire motor 43 is connected with the magnetic plate assembly 42, and the resistance adjustment controller 44 is electrically connected with the pull wire motor 43 to control the action of the pull wire motor 43 and adjust the damping of the damping wheel mechanism through the magnetic plate assembly 42. In other embodiments, the damping mechanism is replaced by a magnetically controlled resistance wheel with an outer magnetically controlled wheel mechanism 15 or an inner magnetically controlled wheel mechanism 16 or an electromagnet controlled wheel 17, as shown in fig. 8-10, and may also be replaced with a servo motor or stepper motor or brushless motor.

In this embodiment, the damping wheel 41 is further provided with a rotating wheel 45 that rotates synchronously with the damping wheel; the base 1 is also internally provided with a power generation motor 8, and the rotating shaft of the power generation motor 8 is connected with the rotating wheel 45 of the damping wheel 41 through a belt 11 so as to drive the power generation motor 8 to rotate when the damping wheel 41 rotates.

In this embodiment, a self-generating control board 9 and a rechargeable battery 10 are further installed in the base 1, the output of the power generation motor 8 is connected to the self-generating control board 9, and the self-generating control board 9 is respectively connected to the rechargeable battery 10, the pull wire motor 43 and the resistance adjustment controller 44 to provide a power signal; the rechargeable battery 10 also supplies power signals to the wire motor 43 and the resistance adjustment controller 44 via the power generation control board 9.

In this embodiment, the wire takeup 3 and the damping wheel 41 are mounted in the base 1 by a bracket 12.

Specifically, as shown in fig. 5, when the push-pull force trainer is used, the power generation motor 8 starts to generate power to the power generation control board 9, then the power generation control board 9 supplies power to the rechargeable battery 10, the pull wire motor 43 and the resistance adjustment controller 44 respectively, and meanwhile, the power generation control board 9 is also provided with a wiring port capable of transmitting power to the outside. The pull wire motor 43 and the resistance adjustment controller 44 can also be powered by the rechargeable battery 10 when the push-pull force trainer is not in use.

The push-pull force comprehensive trainer disclosed by the utility model can be suitable for different use scenes. An inverted U-shaped bracket 13 may be provided, two of the tension ropes 2 are respectively hidden at two sides of the inverted U-shaped bracket 13, and a user can stand on the base 1 to exercise by pulling the tension ropes 2 back and forth or up and down, so as to exercise to different positions, as shown in fig. 6. A vertical support 14 may be provided to conceal two of the tension ropes 2 in the vertical support 14, and a user may stand on the base 13 to exercise by pulling the tension ropes 2 up and down or pulling the combined tension ropes 2 back and forth with both hands, as shown in fig. 7. And a tension rod can be arranged, two ends of the tension rod are connected with the tension rope 2, and a user can stand on the base 1 to exercise by pulling the tension rod up and down, so that the effect similar to weight lifting can be achieved. And the push-pull force comprehensive trainer can also be fixed on a wall body for exercise.

The utility model relates to a push-pull force comprehensive trainer, which adopts at least three wire winding devices 3 and a damping mechanism with adjustable resistance in a base 1; the wire winding device 3 comprises wire winding drums 31 and belt pulleys 32, the wire winding drums 31 of the wire winding devices 3 are respectively connected with one tension rope 2, one ends of the outer sides of the tension ropes 2 extend outwards from the inside of the base 1 in the same direction or different directions respectively, the belt pulleys 32 are rotatably arranged in the base 1, and the wire winding drums 31 are connected with the belt pulleys 32 in a one-way transmission manner through one-way bearings so as to drive the belt pulleys 32 to rotate in one way when the tension ropes 2 of the wire winding drums 31 are pulled outwards; the damping mechanism is rotatably arranged in the base 1; the at least three wire winding devices 3 and the damping mechanism are linked through the same belt 11, so that when the tension rope 2 of each wire winding device 3 is pulled outwards to enable the corresponding belt pulley 32 to rotate, the damping mechanism can be driven to rotate, and therefore training force can be adjusted when resistance is adjusted through the damping mechanism. The structure of the utility model is provided with the take-up reel, when the tension trainer is not in use, the tension rope is stored in the take-up reel, so that the take-up reel is convenient to store; and the damping wheel mechanism can provide resistance for the rotation of the tension trainer, is suitable for different parts of one person and different age groups, and has wide application range. And the structure is safe and reliable, the whole occupied space is small, and the storage and the carrying are convenient.

The utility model relates to a push-pull force comprehensive trainer, which is characterized in that a power generation motor 8, a self-generating control board 9 and a rechargeable battery 10 are also arranged in a base, the output of the power generation motor 8 is connected with the self-generating control board 9, and the self-generating control board 9 is respectively connected with the rechargeable battery 10, a stay wire motor 43 and a resistance adjustment controller 44 to provide a power supply signal; the rechargeable battery 10 also supplies power signals to the wire motor 43 and the resistance adjustment controller 44 via the power generation control board 9. The structure of the utility model can generate electricity by the power generation motor while moving, thereby supplying power to the internal components and reducing the energy loss.

Example two

Referring to fig. 11, the push-pull force comprehensive trainer of the present utility model is different from the first embodiment in that three wire-rewinding machines 3 are installed in the same direction by the installation shafts of the three wire-rewinding machines 3, so that the end faces of the three wire-rewinding machines 3 are in the same plane, the belt 11 is wound around the belt pulley 32 of the three wire-rewinding machines 3 and the damping mechanism, and the belt section between the belt pulley 32 of one wire-rewinding machine 3 and the damping mechanism and the belt section between the belt pulley 32 of the other two wire-rewinding machines 3 are respectively provided with a tensioning wheel 5 to compress the belt 11.

Example III

Referring to fig. 12, the push-pull force comprehensive trainer of the present utility model is different from the first embodiment in that the number of the wire winding devices 3 is six, the installation shafts of the six wire winding devices 3 are installed in the same direction and enable the end faces of the six wire winding devices 3 to be in the same plane, the belt 11 is wound on the belt pulley 32 of the six wire winding devices 3 and the damping mechanism in a ring shape, the belt section between the belt pulley 32 of one wire winding device 3 and the damping mechanism is provided with a tensioning wheel 5 to compress the belt 11, and the belt section between the belt pulley 32 of two adjacent wire winding devices 3 is provided with four tensioning wheels 5 to compress the belt 11.

Of course, the number of the wire winding devices 3 may be five, the installation shafts of the five wire winding devices 3 are installed in the same direction, so that the end faces of the five wire winding devices 3 are located in the same plane, the belt 11 is annularly wound on the belt pulleys 32 of the five wire winding devices 3 and the damping mechanism, a belt section between the belt pulley 32 of one wire winding device 3 and the damping mechanism is provided with a tensioning wheel 5 to compress the belt 11, and a belt section between the belt pulleys 32 of two adjacent wire winding devices 3 is provided with three tensioning wheels 5 to compress the belt 11.

The foregoing is merely a preferred embodiment of the present utility model and is not intended to limit the present utility model in any way. While the utility model has been described with reference to preferred embodiments, it is not intended to be limiting. Many possible variations and modifications of the disclosed technology can be made by anyone skilled in the art, or be modified to equivalent embodiments, without departing from the scope of the technology. Therefore, any simple modification, equivalent variation and modification of the above embodiments according to the technical substance of the present utility model shall fall within the scope of the technical solution of the present utility model.

Claims (10)

1. A push-pull force comprehensive trainer comprises a base; the method is characterized in that: at least three wire winding devices and a damping mechanism capable of adjusting resistance are arranged in the base; the wire winding device comprises wire winding drums and belt pulleys, the wire winding drums of the wire winding devices are respectively connected with a tension rope, one ends of the outer sides of the tension ropes extend outwards from the inside of the base in the same direction or different directions respectively, the belt pulleys are rotatably arranged in the base, and the wire winding drums are connected with the belt pulleys in a one-way transmission manner through one-way bearings so as to drive the belt pulleys to rotate in one way when the tension ropes of the wire winding drums are pulled outwards; the damping mechanism is rotatably arranged in the base; the at least three wire winding devices are linked with the damping mechanism through the same belt, so that when the tension rope of each wire winding device is pulled outwards to enable the corresponding belt pulley to rotate, the damping mechanism can be driven to rotate, and the training force can be adjusted when the resistance is adjusted through the damping mechanism.

2. The push-pull force integrated trainer according to claim 1, wherein: the belt is wound on the belt pulleys of the three wire-rewinding machines and the damping mechanism in a ring shape, and a tensioning wheel is respectively arranged on the belt pulley of one wire-rewinding machine and the belt section between the damping mechanism and the belt pulley of the other two wire-rewinding machines so as to compress the belt.

3. The push-pull force integrated trainer according to claim 1, wherein: the four wire winding devices are arranged in the same direction, the end faces of the four wire winding devices are arranged in the same plane, the belt is annularly wound on the belt pulleys of the four wire winding devices and the damping mechanism, a tensioning wheel is arranged at the belt section between the belt pulley of one wire winding device and the damping mechanism to compress the belt, and at least two tensioning wheels are arranged at the belt section between the belt pulleys of two adjacent wire winding devices to compress the belt.

4. The push-pull force integrated trainer according to claim 1, wherein: the belt is annularly wound on the belt pulleys of the five wire-rewinding machines and the damping mechanism, a belt section between the belt pulley of one wire-rewinding machine and the damping mechanism is provided with a tensioning wheel for tightly pressing the belt, and a belt section between the belt pulleys of two adjacent wire-rewinding machines is at least provided with three tensioning wheels for tightly pressing the belt.

5. The push-pull force integrated trainer according to claim 1, wherein: the belt is annularly wound on the belt pulleys of the six wire-rewinding devices and the damping mechanism, a belt section between the belt pulley of one wire-rewinding device and the damping mechanism is provided with a tensioning wheel for tightly pressing the belt, and a belt section between the belt pulleys of two adjacent wire-rewinding devices is at least provided with four tensioning wheels for tightly pressing the belt.

6. The push-pull force integrated trainer according to claim 1, wherein: the base is characterized in that a wire passing ring is further arranged at the position corresponding to the extending position of each tension rope, a plurality of pulleys are further arranged in the base, the outer side ends of the tension ropes extend outwards from corresponding take-up reels after passing through the corresponding pulleys and the wire passing ring, and the outer side ends of the tension ropes are respectively connected with a pull handle or a corresponding holding object.

7. The push-pull force integrated trainer according to claim 1, wherein: the damping mechanism is a magnetic control resistance wheel and comprises a damping wheel, and the damping wheel is an aluminum wheel assembly; the damping mechanism further comprises a magnetic plate assembly, and the magnetic plate assembly is arranged in the base and is positioned at a matched position with the aluminum wheel assembly; the damping wheel mechanism also comprises a stay wire motor and a resistance adjusting controller; and a stay wire of the stay wire motor is connected with the magnetic plate assembly, and the resistance adjusting controller is electrically connected with the stay wire motor to control the action of the stay wire motor and adjust the damping size of the damping wheel mechanism through the magnetic plate assembly.

8. The push-pull force integrated trainer according to claim 7, wherein: the damping wheel is also provided with a rotating wheel which rotates synchronously with the damping wheel; the base is internally provided with a power generation motor, and a rotating shaft of the power generation motor is connected with a rotating wheel of the damping wheel through a belt so as to drive the power generation motor to rotate when the damping wheel rotates.

9. The push-pull force integrated trainer according to claim 8, wherein: the self-generating control board and the rechargeable battery are also arranged in the base, the output of the power generation motor is connected with the self-generating control board, and the self-generating control board is respectively connected with the rechargeable battery, the stay wire motor and the resistance adjustment controller so as to provide a power supply signal; the rechargeable battery also provides power signals for the wire drawing motor and the resistance adjusting controller through the self-generating control board.

10. The push-pull force integrated trainer according to claim 7, wherein: the damping mechanism is replaced by an outer magnetic control wheel mechanism or an inner magnetic control wheel mechanism or a servo motor or a stepping motor or a brushless motor by a magnetic control resistance wheel.