CN219071956U - Body-building module and body-building equipment - Google Patents

Abstract

The body-building module comprises a mounting plate and a force supply elastic part with one end fixed on the mounting plate, wherein the force supply elastic part consists of one or more elastic pieces; the free end of the force supply elastic part is connected with the total sliding assembly, the total sliding assembly slides along the surface of the mounting plate and at least comprises an upper pulley and a positioning part, the positioning part slides along a slideway or a track on the mounting plate, the upper pulley of the total sliding assembly is connected with an upper guide rope, and the upper guide rope provides force for the body-building equipment. The utility model has the advantages that the modularized component has small volume, can be used for replacing the counterweight to be applied to body-building equipment, and can be independently formed into components for arbitrary installation.

Description

Body-building module and body-building equipment

Technical Field

The utility model relates to a body-building component, in particular to a modularized component for supplying force for body-building and rehabilitation training and body-building equipment.

Background

The existing body-building equipment is large in size, generally needs equipment counterweights and supports for supporting the counterweights, and is inconvenient to install. For example, patent number CN201320886601.8 discloses a "special booster for fitness equipment, which comprises a vertically installed weight group support, two guide posts are vertically installed side by side in the weight group support, a plurality of weight groups are slidably installed on the guide posts, a lever assembly is installed in a support tube at the lower part of the guide posts, a force input end of the lever assembly extends from one end of the support tube to be connected with a booster pedal rod, a force output end of the lever assembly extends from an opening at the side part of the support tube to be connected with the weight groups, and the lever assembly can drive the weight groups to slide up and down. The pedal booster pedal rod can drive the lever assembly to work, the lever assembly drives the weight block to slide up and down, the special booster device for the body building equipment is arranged on one side of the body building equipment and is matched with the body building equipment to use, an exerciser can use the pedal force to match with the arm movement force, the body can generate explosive force, the training pleasure and the training effect are enhanced, and the whole body strength training purpose is achieved. The utility model provides a "," a body-building shank strength training device, patent number CN201922351412.0 discloses "a body-building shank strength training device, the on-line screen storage device comprises a base, both ends top fixed connection is provided with the backup pad about the base, both sides be provided with the fly leaf with backup pad sliding connection between the backup pad, the fly leaf bottom is provided with the fixed plate with backup pad fixed connection, the equal fixed connection in fly leaf left and right sides is provided with the guide block, be provided with the guide way with guide block sliding connection in the backup pad, the inboard bottom of backup pad is provided with a plurality of balancing weights, be connected through coupling mechanism between balancing weights and the guide block, the fly leaf right side is provided with stretching mechanism. The above patents all have an independent weight unit, and the present patent provides a body-building module with simple structure and no need of weight.

Disclosure of Invention

The utility model aims to overcome the defects, and provides the body-building module and the body-building equipment, wherein the modularized component has small volume, can be used for replacing the counterweight to be applied to the body-building equipment, and can be independently formed into components to be installed at will.

The utility model aims to solve the technical problems, and adopts the technical scheme that: the body-building module comprises a mounting plate and a force supply elastic part with one end fixed on the mounting plate, wherein the force supply elastic part consists of one or more elastic pieces;

the force supply elastic part free end is connected with the total sliding component, the total sliding component slides along the surface of the mounting plate and at least comprises an upper pulley and a positioning part, the positioning part slides along a slideway or a track on the mounting plate, the upper pulley of the total sliding component is connected with an upper guide rope, and the upper guide rope provides force for the body-building equipment.

Further, the total sliding assembly also comprises at least one lower pulley;

one end of the lower guide rope is connected with the free end of the force supply elastic part, and the other end of the lower guide rope bypasses the lower pulley to supply force to the body-building equipment or is connected with the elastic adjusting part.

Further, a fixed pulley is arranged on the mounting plate, and the fixed pulley can change the direction of the upper guide rope.

Further, the force supply elastic part consists of a plurality of groups of force supply components, and each group of force supply components consists of a plurality of elastic pieces in parallel;

each group of force supply assembly is correspondingly provided with a sliding assembly, the free end of the force supply assembly is connected with the sliding assembly, the sliding assembly slides along the surface of the mounting plate and at least comprises an upper pulley and a positioning part, and the positioning part slides along a slideway or a track on the mounting plate.

Further, when the mounting plate is placed vertically or obliquely, the free end of the force supply elastic component is above the mounting end of the force supply elastic component.

Further, a secondary sliding component capable of sliding along the mounting plate is arranged on the mounting plate, and the secondary sliding component at least comprises a sliding wheel;

the upper guide rope is in a closed loop and sleeved on one sliding wheel of the secondary sliding assembly and the upper pulley of the total sliding assembly, and the secondary guide rope is connected with the secondary sliding assembly and provides force for fitness equipment;

or the upper guide rope is open, the upper guide rope is connected with one sliding wheel of the secondary sliding assembly and the upper sliding wheel of the total sliding assembly, and two ends of the upper guide rope provide force for the body-building equipment, and the secondary guide rope is connected with the secondary sliding assembly and provides force for the body-building equipment.

Further, a secondary sliding component capable of sliding along the mounting plate is arranged on the mounting plate, and the secondary sliding component at least comprises two sliding wheels;

the upper guide rope is in a closed loop and sleeved on one sliding wheel of the secondary sliding assembly and the upper pulley of the total sliding assembly, and the secondary guide rope is connected with the other sliding wheel of the secondary sliding assembly and provides force for the body-building equipment.

Furthermore, two guide ropes are sleeved on the upper pulley, and each guide rope corresponds to one secondary sliding component.

The body-building device comprises a body-building module, a force supply component and a force supply component, wherein the body-building module is used for supplying force to the body-building device, the force supply component comprises a mounting plate and a force supply elastic part, one end of the force supply elastic part is fixed on the mounting plate, and the force supply elastic part is composed of one or more elastic pieces;

the free end of the force supply elastic part is connected with the sliding assembly, the sliding assembly slides along the surface of the mounting plate and at least comprises an upper pulley and a positioning part, the positioning part slides along a slideway or a track on the mounting plate, the upper pulley of the sliding assembly is connected with an upper guide rope, a horizontal plate or a vertical plate or a bevel board on the body-building equipment can be used as the mounting plate of the force supply elastic part, and the upper guide rope provides force to two side push rods of the body-building equipment and/or upper push rods or lower push rods of the body-building equipment and/or lower pull rings or lower pull rods of the lower part and/or horizontal pull rods or push rods of the lower part.

The force supply component comprises a horizontal mounting plate or an arc mounting plate or a polygonal mounting plate, at least one flat mounting plate and a plurality of force supply elastic parts with one end fixed on the mounting plate;

each force supply elastic part free end is connected with a sliding component, the sliding component slides along the surface of the mounting plate and at least comprises an upper pulley and a positioning part, the positioning part slides along a slideway or a track on the mounting plate, the upper pulley of the sliding component is connected with an upper guide rope, a horizontal plate or a vertical plate or a bevel board on the body-building equipment can be used as the mounting plate of the force supply elastic part, and the upper guide rope provides force to push rods on two sides of the body-building equipment and/or push rods or downward pull rods on the upper direction and/or pull rings or lower pull rods on the lower part and/or pull rods or push rods in the horizontal direction.

The utility model has the beneficial effects that: the free end of the force supply elastic part is connected with the sliding component, the sliding component slides along the surface of the mounting plate and at least comprises an upper pulley and a positioning part, the positioning part slides along a slideway or a track on the mounting plate, the upper pulley of the sliding component is connected with an upper guide rope, the upper guide rope provides force for the body-building equipment, the mounting plate is utilized to provide horizontal support for the force supply elastic part, and the force of the force supply elastic part is applied by a certain deflection angle when the force is applied outwards, so that the whole part is not blocked.

Drawings

Fig. 1 is a schematic diagram of the front structure of a modular component for force supply for fitness and rehabilitation training.

Fig. 2 is a schematic view of the back side structure of the modular part of fig. 1.

Fig. 3 is a schematic view of a preferred frontal configuration of the modular components for exercise and rehabilitation power.

Fig. 4 is a schematic view of the back structure of the force supply member of fig. 3.

FIG. 5 is a schematic view of section A-A.

Fig. 6 is a schematic view of another preferred frontal configuration of the modular component for exercise and rehabilitation efforts.

Figure 7 is an exercise machine with modular components for exercise and rehabilitation power.

Fig. 8 is a schematic view of the X1 plane in fig. 7.

Fig. 9 is a schematic view of the X2 plane in fig. 7.

Fig. 10 is a schematic view of the X1 plane in fig. 7.

Fig. 11 is another exercise apparatus for use with a force supply member of the exercise apparatus.

Fig. 12 is a schematic front view of the mounting plate of fig. 11.

Fig. 13 is a schematic view of the adjustment handle connection of fig. 11.

Fig. 14 is a schematic view of the structure of the forward tilting movement part of the exercise apparatus of fig. 11.

Fig. 15 is a schematic view of the structure of the left and right swinging parts of the exercise apparatus of fig. 11.

FIG. 16 is a schematic illustration of a modular component for exercise and rehabilitation power being horizontally mounted to provide force on both sides.

FIG. 17 is a schematic view of a modular component of a fitness rehabilitation effort system mounted to a wall for downward effort.

Fig. 18 is a schematic view (one) of a second preferred frontal configuration of a modular component for exercise and rehabilitation power.

Fig. 19 is a schematic view of the back side structure of the modular component of fig. 18.

Fig. 20 is a schematic view (two) of a second preferred frontal configuration of the modular component for exercise and rehabilitation power.

In the figure, a mounting plate 1, a force supply elastic part 2, a total sliding assembly 3, an upper pulley 31, a positioning part 32, a lower pulley 33, an upper guide rope 4, a lower guide rope 5, a secondary sliding assembly 6, a sliding wheel 61, a secondary guide rope 7, a fixed pulley 8, a mounting hole 10, a first connecting rope P, a first positioning piece E, a first connecting piece B, a first loading part C, a steering handle G, a second connecting rope H, a second positioning piece J, a second loading part K, a second connecting piece Z, a third guide rope Y, a handle L, an adjusting handle N, and a fourth guide rope R.

Detailed Description

The utility model is described in further detail below with reference to the drawings and the specific examples.

As shown in fig. 1, 2 and 5, a fitness module comprises a mounting plate 1 and a force supply elastic part 2 with one end fixed on the mounting plate 1, wherein the force supply elastic part 2 is composed of one or more elastic pieces, and elastic force adjustment can be generally performed on the elastic pieces (preferably, springs) through elastic devices such as sprockets, and also can be performed through increasing or decreasing the number of the elastic pieces;

the free end of the force supply elastic part 2 is connected with the total sliding assembly 3, the total sliding assembly 3 slides along the surface of the mounting plate 1 and at least comprises an upper pulley 31 and a positioning part 32, the positioning part 32 slides along a slideway or a track on the mounting plate, the upper pulley 31 of the total sliding assembly 3 is connected with the upper guide rope 4, the two ends of the upper guide rope 4 penetrate through the mounting plate 1 to provide force for the body-building equipment, the force supply direction can be the pulling force to the two sides, the horizontal pulling force, the downward pulling force and the upward pulling force, or the force supply direction can be the pulling force to the two sides, the horizontal pulling force, the downward pulling force and the upward pulling force, unlike the drawing of fig. 2, one end or the two ends of the upper guide rope 4 do not penetrate through the mounting plate 1 to provide force for the body-building equipment.

Preferably, the total slide assembly 3 further comprises at least one lower pulley 33;

one end of the lower guide rope 5 is connected with the free end of the force supply elastic part 2, the other end bypasses the lower pulley 33 to supply force to the body-building equipment or is connected with the elastic adjusting part, if the lower guide rope is connected with the elastic adjusting part, the elastic force of the force supply elastic part 2 can be pre-adjusted through the elastic adjusting part, and the force supply direction can be the pulling force to two sides, the horizontal pulling force, the downward pulling force and the upward pulling force, and can also directly supply force to the body-building equipment.

As shown in fig. 3 and 4, a secondary sliding assembly 6 capable of sliding along the mounting plate 1 is arranged on the mounting plate 1, and the secondary sliding assembly 6 at least comprises a sliding wheel 61;

the upper guide rope 4 is a closed loop and is sleeved on one sliding wheel 61 of the secondary sliding assembly 6 and the upper pulley 31 of the total sliding assembly 3, and the secondary guide rope 7 is connected with the secondary sliding assembly 6 and provides force for fitness equipment.

As shown in fig. 3, a secondary sliding assembly 6 capable of sliding along the mounting plate 1 is arranged on the mounting plate 1, and the secondary sliding assembly 6 at least comprises two sliding wheels 61;

the upper guide rope 4 is a closed loop and is sleeved on one sliding wheel 61 of the secondary sliding assembly 6 and the upper pulley 31 of the total sliding assembly 3, and the secondary guide rope 7 is connected with the other sliding wheel 61 of the secondary sliding assembly 6 and provides force to the body-building equipment.

Preferably, two upper guide ropes 4 are sleeved on the upper pulley 31, and each upper guide rope 4 corresponds to one secondary sliding component 6.

As shown in fig. 18, 20 and 19, two groups of secondary sliding assemblies 6 capable of sliding along the mounting plate 1 are arranged on the mounting plate 1, and the secondary sliding assemblies 6 comprise two sliding wheels 61;

the upper guide rope 4 is opened and is connected with a sliding wheel 61 of the secondary sliding assembly 6 and an upper pulley 31 of the total sliding assembly 3, the secondary guide rope 7 is connected with the secondary sliding assembly 6 and provides force for the fitness equipment, two ends of the upper guide rope 4 also provide force for the fitness equipment (fig. 18 shows that the outer two-end guide rope 4 passes through the mounting plate 1, fig. 20 shows that the inner two-end guide rope 4 passes through the mounting plate 1, the position of the inner two-end guide rope 4 passing through the mounting plate 1 can be arbitrarily selected, and fig. 18 and 20 only give one reference), and the structure is equivalent to six force supply ends (shown in fig. 19), so that more fitness functions can be realized.

Preferably, the free end of the force-supplying elastic component 2 is above the mounting end of the force-supplying elastic component, i.e. the force-supplying elastic component 2 moves upwards to supply force, so that not only the end point of the force supply (the point of the force-supplying elastic component 2 for supplying force to the body-building equipment, the tension force to two sides, the horizontal tension force, the downward tension force and the upward tension force can be increased) can be increased, but also the free end of the force-supplying elastic component 2 moves upwards and is kept away from the mounting plate 1 as far as possible under the action of self gravity force,

preferably, fixed pulleys 8 are arranged on the mounting plate 1, the fixed pulleys 8 can change the direction of the upper guide rope 4, and the fixed pulleys 8 can be multiple groups, as in fig. 3, four fixed pulleys 8 are respectively arranged on two sides and symmetrically arranged.

Preferably, as shown in fig. 6, the force-supplying elastic part 2 is composed of two groups of force-supplying components, and each group of force-supplying components 21 is composed of a plurality of elastic pieces in parallel;

each group of force supply components is correspondingly provided with a sliding component 3, the free end of the force supply component is connected with the sliding component 3, the sliding component 3 slides along the surface of the mounting plate and at least comprises an upper pulley 31 and a positioning part 32, the positioning part 32 slides along a slideway or a track on the mounting plate 1, the body building of at least two persons can be carried out through the two force supply components at the same time, the structure of the traditional body building equipment is changed, for example, the mounting plate 1 is arranged in the middle of a gymnasium, then the force supply elastic part 2 on the mounting plate 1 is used for supplying force outwards to realize the body building of the two persons, the principle is the same as that shown in figure 6, the body building equipment applied to the body building module in figure 7 is used for providing force to the body building equipment, the force supply component comprises a plurality of force supply elastic parts 2 with one end fixed on the mounting plate 1, the installation plate 1 is quadrilateral, four force supply elastic parts 2 can be installed on the installation plate 1 around a center at the same time, if the installation plate 1 is arc-shaped (the force supply assembly 21 is formed by a plurality of elastic pieces in parallel according to the arc shape) or at least one plane is the same in installation principle, whether the installation plate 1 is arranged on the front surface and the back surface of the installation plate 1, fig. 7 is arranged on the back surface, the back surface is an area where a gymnastic person exercises, taking the X1 surface in fig. 7 as an example (as shown in fig. 8), by adding a steering wheel, the force supply to two sides can be realized, the X2 surface in fig. 7 as an example (as shown in fig. 9) can be realized, the force supply to the horizontal forward direction can be realized, the downward pulling force can be realized by taking the X3 surface in fig. 7 as an example (as shown in fig. 10), the rope for providing the pulling force can also be placed at the lower end of the installation plate 1 to realize the upward pulling force, of course, the mode of fig. 3 can also be adopted, and the horizontal relay with downward relay, upward relay or both relay can be realized by arranging a plurality of force supply ends, or the combination of the two relay and the upward relay can be realized;

each force supply elastic part 2 is connected with the total sliding component 3 at the free end, the total sliding component 3 slides along the surface of the mounting plate and at least comprises an upper pulley 31 and a positioning part 32, the positioning part 32 slides along a slideway or a track on the mounting plate 1, the upper pulley 31 of the total sliding component 3 is connected with an upper guide rope 4, a horizontal plate or a vertical plate or a bevel board on the body-building equipment can be used as the mounting plate 1 of the force supply elastic part 2, and the upper guide rope 4 pushes rods on two sides of the body-building equipment, pull rods on the upper side and the lower side (because the lower side can be used for leg forging) and pull rods on the lower side.

As shown in fig. 11 and 12, an exercise apparatus (for example, combined with a chair, the exercise chair comprises a seat and a support frame arranged at the lower part of the seat, a backrest frame is arranged at the edge of the upper part of the seat, namely, a mounting plate, two side symmetry of the backrest frame are respectively provided with a handrail frame, the back of the backrest frame is provided with a counterweight elastic component), the force supply component provides force for the exercise apparatus, the force supply component comprises a mounting plate 1 and a force supply elastic component 2 with one end fixed on the mounting plate 1 (being a seat backrest), and the force supply elastic component 2 is composed of one or more elastic components;

the free end of the force supply elastic component 2 is connected with the total sliding component 3, the lower end of the force supply elastic component 2 is connected with the lower end of the back of the mounting plate 1, the free end of the force supply elastic component 2 is connected with the total sliding component 3, the total sliding component 3 slides along the surface of the mounting plate 1 and comprises an upper pulley 31, a positioning part 32 and a lower pulley 33, the positioning part 32 slides along a slideway or a track on the mounting plate 1 (as shown in figure 5), the upper pulley 31 of the total sliding component 3 is connected with the upper guide rope 4, the mounting plate 1 is provided with a secondary sliding component 6 which can slide along the mounting plate 1, and the secondary sliding component 6 comprises two sliding wheels 61;

two upper guide ropes 4, wherein one upper guide rope 4 is a closed loop and sleeved on one sliding wheel 61 of the secondary sliding component 6 and the upper pulley 31 of the total sliding component 3, the secondary guide rope 7 is connected with the secondary sliding component 6 and provides force for fitness equipment, the secondary guide rope 7 respectively supplies force to the first guide rope Q and the second guide rope F through the fixed pulley 8, the other upper guide rope 4 is connected with the upper pulley 31, the other end is connected with the third guide rope Q, as shown in figure 13, one end of the lower guide rope 5 is connected with the free end of the force supply elastic component 2, and the other end bypasses the lower pulley 33 and is connected with an adjusting handle arranged on one fixed handrail through one end of the fourth guide rope R (connected with the other end of the lower guide rope 5); when the adjusting handle N (elastic adjusting component) can tighten or loosen the fourth conductive rope R, the adjusting handle tightens the fourth conductive rope R, so that the pretension of the force-supplying elastic component 2 is generated, the pretension of the force-supplying elastic component 2 can be conducted outwards through the first conductive rope Q, the second conductive rope F and the third conductive rope Y (the first conductive rope Q is connected to one of two ends of the secondary conductive rope 7, the second conductive rope F is connected to the other end of the same secondary conductive rope 7), when work is required to be done on the first conductive rope Q and the second conductive rope F or the position of the force-supplying elastic component is required to be changed by applying external force, the pretension of the force-supplying elastic component 2 needs to be overcome, and then work is done on the force-supplying elastic component 2, so that the pretension of the force-supplying elastic component 2 can be adjusted by adjusting the handle N.

The top end of the mounting plate 1 is provided with a handle L; one end of the third conductive rope Y is connected with the handle L, and the other end of the third conductive rope Y is connected with the other secondary guide rope 7.

When the upper limb pulls the handle L, the third conductive rope Y is pulled together with the handle L, and when the third conductive rope Y is pulled, the third conductive rope Y transmits force to the force distribution and supply elastic component 2, so that the work of the force distribution and supply elastic component 2 is realized.

As shown in fig. 14, the armrest frame includes a fixed armrest frame connected to the backrest frame and/or the seat board, a movable armrest frame movably connected to the fixed armrest frame (preferably, the movable armrest frame is connected to the fixed armrest frame through a rotation shaft), the movable armrest frame reciprocates along a plane parallel to the seat board, two movable armrests symmetrically disposed are connected through a first connecting rope P, a first positioning member E is disposed on the first connecting rope P, the first positioning member E is connected to a first loading member C through a first connecting member B, one end of a first power-assisted elastic member is connected to the first connecting member B, the other end of the first power-assisted elastic member is connected to a first fixing member on the front projection plane of the seat board, a second conductive rope F at the other end of the first power-assisted elastic member is connected to a hinge movable rod U on the lower surface of the seat board, and when the movable rod swings up and down, the second conductive rope F will apply work to the power-assisted elastic member 2;

when the movable armrest frame is used, when the upper limb swings left and right, two movable armrest frames are driven by the upper limb to reciprocate along the surface parallel to the seat plate, the two or one movable armrest frame can enable the first connecting rope to be tensioned and move upwards, the first connecting rope moves upwards, the first positioning piece on the first connecting rope moves upwards, the first positioning piece moves upwards and transmits upward force to the first loading part C through the first connecting piece B, the first loading part C is limited by the first power-assisted elastic part D and the second conductive rope F (connected with one secondary guide rope 7), the first loading part C cannot move under the action of non-external force, and when the first loading part C is stressed upwards, the first power-assisted elastic part and the second conductive rope F can apply downward acting force (the downward acting force is the force required by the upper limb moving movable armrest frame, and simultaneously is the force required by the second conductive rope F to do work to the power-assisted elastic part 2).

As shown in fig. 15, a steering handle G is symmetrically arranged on a supporting frame E on both sides of the mounting plate 1, the steering handles G are movably connected to the supporting frame, and the steering handles G reciprocate along a plane perpendicular to the seat plate;

the two steering handles G are symmetrically arranged and connected through a second connecting rope H, a second positioning piece J is arranged on the second connecting rope H, the second positioning piece J is connected with a second loading part K through a second connecting piece Z, one end of a second power-assisted elastic part is connected with the second connecting piece Z, and the other end of the second power-assisted elastic part is connected with a third fixing piece on the orthographic projection plane of the seat;

when the upper limb swings back and forth, the two steering handles G are driven by the upper limb to reciprocate along the surface vertical to the seat plate, the two or one steering handles G move to enable the second connecting rope H to move upwards in a tensioning manner, the second connecting rope H moves upwards, the second positioning piece H on the second connecting rope H also moves upwards, the second positioning piece H moves upwards and transmits upward force to the second loading component K through the second connecting piece Z, the second loading component K cannot move under the action of non-external force under the limiting action of the second power-assisted elastic component and the second conducting rope F, and when the second loading component K is pulled upwards, the second power-assisted elastic component and the second conducting rope F apply downward force to the second loading component K (the downward force is the force which needs to be overcome by the upper limb moving movable steering handle G).

The second conducting rope F, the first conducting rope Q and the third conducting rope Y are not mutually influenced, and output forces to different body-building components are respectively carried out, the lengths of the second conducting rope F, the first conducting rope Q and the third conducting rope Y are greatly reduced, and the body-building effect is greatly improved.

As shown in fig. 16, a plurality of mounting holes 10 are symmetrically arranged on the mounting plate 1, two fixed pulleys 8 are connected to the mounting plate 1 through the mounting holes 10, and the upper guide ropes 4 symmetrically supply force to two sides of the mounting plate 1.

As shown in fig. 17, the mounting plate 1 is mounted on a wall, a glass frame, a door frame, a table, a sofa back or bottom edge, a double-layer bed board and a bed head, and a body-building or rehabilitation person uses the mounting plate 1 to build or rehabilitate both hands or feet, so that the device is convenient to mount and simple in structure, and can be widely applied to camps, school bedrooms, factory dormitories and the like.

The foregoing embodiments are merely preferred embodiments of the present utility model, and should not be construed as limiting the present utility model, and the embodiments and features of the embodiments in the present application may be arbitrarily combined with each other without collision. The protection scope of the present utility model is defined by the claims, and the protection scope includes equivalent alternatives to the technical features of the claims. I.e., equivalent replacement modifications within the scope of this utility model are also within the scope of the utility model.

Claims (10)

1. A fitness module, characterized by: the body-building module comprises a mounting plate and a force supply elastic part with one end fixed on the mounting plate, wherein the force supply elastic part consists of one or more elastic pieces;

the force supply elastic part free end is connected with the total sliding component, the total sliding component slides along the surface of the mounting plate and at least comprises an upper pulley and a positioning part, the positioning part slides along a slideway or a track on the mounting plate, the upper pulley of the total sliding component is connected with an upper guide rope, and the upper guide rope provides force for the body-building equipment.

2. The exercise module of claim 1, wherein: the total sliding assembly also comprises at least one lower pulley;

one end of the lower guide rope is connected with the free end of the force supply elastic part, and the other end of the lower guide rope bypasses the lower pulley to supply force to the body-building equipment or is connected with the elastic adjusting part.

3. The exercise module of claim 1, wherein: the fixed pulley is arranged on the mounting plate and can change the direction of the upper guide rope.

4. The exercise module of claim 1, wherein: the force supply elastic part consists of a plurality of groups of force supply components, and each group of force supply components consists of a plurality of elastic pieces in parallel;

each group of force supply assembly is correspondingly provided with a sliding assembly, the free end of the force supply assembly is connected with the sliding assembly, the sliding assembly slides along the surface of the mounting plate and at least comprises an upper pulley and a positioning part, and the positioning part slides along a slideway or a track on the mounting plate.

5. An exercise module according to any one of claims 1-4, wherein: the mounting plate is provided with a secondary sliding component capable of sliding along the mounting plate, and the secondary sliding component at least comprises a sliding wheel;

the upper guide rope is in a closed loop and sleeved on one sliding wheel of the secondary sliding assembly and the upper pulley of the total sliding assembly, and the secondary guide rope is connected with the secondary sliding assembly and provides force for the body-building equipment;

or the upper guide rope is open, the upper guide rope is connected with one sliding wheel of the secondary sliding assembly and the upper sliding wheel of the total sliding assembly, and two ends of the upper guide rope provide force for the body-building equipment, and the secondary guide rope is connected with the secondary sliding assembly and provides force for the body-building equipment.

6. An exercise module according to any one of claims 1-4, wherein: the mounting plate is provided with a secondary sliding component capable of sliding along the mounting plate, and the secondary sliding component at least comprises two sliding wheels;

the upper guide rope is in a closed loop and sleeved on one sliding wheel of the secondary sliding assembly and the upper pulley of the total sliding assembly, and the secondary guide rope is connected with the other sliding wheel of the secondary sliding assembly and provides force for the body-building equipment.

7. The exercise module of claim 6, wherein: two guide ropes are sleeved on the upper pulley, and each guide rope corresponds to one secondary sliding component.

8. A fitness module according to claim 3, wherein: the mounting plate is provided with a plurality of mounting holes, and the fixed pulley is connected to the mounting plate through the mounting holes.

9. The utility model provides an apply to body-building equipment of body-building module which characterized in that: the modularized component provides force for the body-building equipment, the force supply component comprises a mounting plate and a force supply elastic part, one end of the force supply elastic part is fixed on the mounting plate, and the force supply elastic part is composed of one or more elastic pieces;

the free end of the force supply elastic part is connected with the sliding assembly, the total sliding assembly slides along the surface of the mounting plate and at least comprises an upper pulley and a positioning part, the positioning part slides along a slideway or a track on the mounting plate, the upper pulley of the total sliding assembly is connected with an upper guide rope, a horizontal plate or a vertical plate or a bevel board on the body-building equipment can be used as the mounting plate of the force supply elastic part, and the upper guide rope provides force to two side push rods, and/or upper push rods or lower push rods, and/or lower pull rings or lower pull rods, and/or horizontal pull rods or push rods of the body-building equipment.

10. The utility model provides an apply to body-building equipment of body-building module which characterized in that: the force supply component provides force for the body-building equipment and comprises an arc-shaped mounting plate or a polygonal mounting plate and a plurality of force supply elastic parts, wherein the at least one flat mounting plate and one end of the force supply elastic parts are fixed on the mounting plate;

each force supply elastic part free end is connected with a sliding component, the total sliding component slides along the surface of the mounting plate and at least comprises an upper pulley and a positioning part, the positioning part slides along a slideway or a track on the mounting plate, the upper pulley of the total sliding component is connected with an upper guide rope, a horizontal plate or a vertical plate or a diagonal plate on the body-building equipment can be used as the mounting plate of the force supply elastic part, and the upper guide rope provides force to a push rod at two sides of the body-building equipment and/or an upper push rod or a lower push rod at the upper direction and/or a lower pull ring or a lower pull rod at the lower direction and/or a horizontal pull rod or a push rod at the lower part.

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