SIMULATED ROWING MACHINE

Abstract

The present disclosure relates to a simulated rowing machine, including a front moving assembly, a rear moving assembly, a track and a linkage; both the front and the rear moving assemblies are movably connected to the track; the linkage is a closed loop tensioned as two linear moving paths at both ends by a transmission wheel, the closed loop is substantially parallel to the track and includes a first and a second moving paths, respectively; the front and the rear moving assemblies are fixedly connected to the first and the second moving paths, respectively, and the front and the rear moving assemblies are driven in opposite directions when the linkage rotates periodically.

Description

TECHNICAL FIELD

The present disclosure relates to the technical field of fitness equipment, and in particular, to a simulated rowing machine.

BACKGROUND

The rowing machine is a machine used to simulate water rowing for training purposes. The rowing machine has a good effect on muscle strengthening of the legs, waist, upper limbs, chest and back. With each rowing, the upper limbs, lower limbs, waist and abdomen, and back will complete a complete contraction and extension in the process, such that the effect of aerobic exercise of the whole body muscles can be achieved. Especially for people with a lot of fat on the waist, abdomen and upper arms, rowing machine exercises can bring unexpected body shaping effects to users.

At present, the common rowing machine on the market, such as the disclosure patent with the publication No. CN207237155U, generally has one part of the main frame and the cushion that can slide, and the other part is fixed. The user can only use the power of the legs and hands to push the main frame or cushion to slide back and forth on the track to achieve the effect of exercise. However, the muscles that can be exercised in this way are limited, and the user cannot exercise the whole body well, nor can it exercise the user's physical coordination well.

SUMMARY

To this end, it is necessary to provide a simulated rowing machine to solve the problem that the existing rowing machine cannot perform a full-body exercise on the user well.

A simulated rowing machine includes a front moving assembly, a rear moving assembly, a track, and a linkage; both the front moving assembly and the rear moving assembly are movably connected to the track; the linkage is a closed loop tensioned as two linear moving paths at both ends by a transmission wheel, the closed loop is substantially parallel to the track and includes a first moving path and a second moving path, respectively; the front moving assembly and the rear moving assembly are fixedly connected to the first moving path and the second moving path, respectively, and the front moving assembly and the rear moving assembly are driven in opposite directions when the linkage rotates periodically.

Wherein, in order to ensure the link effect of the linkage and the strength of the linkage and avoid slippage, the closed loop is a chain, and the transmission wheel is a sprocket.

Wherein, in order to protect the chain from being easily touched when it is rotating, and to make reasonable use of space, the chain includes an upper chain as a first moving path and a lower chain as a second moving path; the upper chain and the lower chain are arranged up and down, such that the closed loop is arranged in parallel at a lower end of the track.

Wherein, in order to better simulate the sport scene of rowing and exercise the user's coordination, a front and a rear ends of the track are respectively provided with a front roller assembly and a rear roller assembly; each of the front roller assembly and the rear roller assembly is sleeved with the transmission wheel on a roller shaft, the transmission wheel is in transmission connection with the linkage, and the front roller assembly and the rear roller assembly are driven by the linkage to roll on a rolling track through the transmission wheel.

Wherein, in order to reduce the volume of the rowing machine and save the cost of materials, the rolling track includes a front rolling track and a rear rolling track; the front rolling track and the rear rolling track are fixedly connected by a connecting rod; the front roller assembly is rollingly connected to the front rolling track, and the rear roller assembly is rollingly connected to the rear rolling track.

Wherein, in order to ensure the stability of the rowing machine, a diameter of a roller of the front roller assembly is smaller than a diameter of a roller of the rear roller assembly, and the roller shaft of the front roller assembly is longer than the roller shaft of the rear roller assembly.

Wherein, in order to protect the linkages of the first moving path and the second moving path from interfering with each other, the front moving assembly and the rear moving assembly are respectively fixedly connected to the linkage through a connector; the connector includes a fixing piece and left and right two splints, the two splints are fixedly connected by the fixing piece; a top of the connector is fixed with a lower side of the front moving assembly or the rear moving assembly; each of the left and right two splints is provided with a clamping part extending in a middle direction, the linkage is fixed and clamped by two pieces of the clamping part.

Wherein, in order to make the front and the rear moving assemblies move smoothly on the track and avoid frustration, the connector further includes an upper horizontal shaft, and a left and a right ends of the upper horizontal shaft are respectively fixedly connected to the two splints; the upper horizontal shaft is sleeved with a rolling shaft sleeve outside, the rolling shaft sleeve is rollingly connected to the track.

Wherein, in order to limit the front and the rear moving assemblies, the connector further includes a lower horizontal shaft, a left and right ends of the lower horizontal shaft are respectively fixedly connected to the two splints, and the lower horizontal shaft is also sleeved with a rolling shaft sleeve outside; the lower horizontal shaft is provided below the upper horizontal shaft, the track passes through a position between the upper horizontal shaft and the lower horizontal shaft.

Wherein, in order to enhance the stability of the connector and make the lower horizontal shaft better fixed on it, the connector further includes two hanging arms, the splint is provided with a T-shaped through hole, the left and right ends of the lower horizontal shaft are fixed on the splint through the hanging arms and the T-shaped through hole.

Wherein, in order to prevent the moving distance of the two moving assemblies from being too large and to better simulate the rowing scene, the track is provided with a limit plug, and the limit plug restricts sliding positions of the front moving assembly and the rear moving assembly.

Wherein, in order to facilitate transportation and movement, the track includes a detachable front track and a detachable rear track fixedly connected together.

Wherein, in order to facilitate the user to exert force and to simulate the actions of pedaling and hand paddling in the process of rowing, the front moving assembly is provided with a pedal and a handle; the rear moving assembly is provided with a cushion.

Wherein, in order to make the equipment run smoothly and reduce noise, the linkage is a belt, the transmission wheel is a pulley; the front moving assembly and the rear moving assembly are respectively fixed on the belt, and fixed positions of the front moving assembly and the rear moving assembly are different half sections of the closed loop.

In the present disclosure, both the front moving assembly and the rear moving assembly are movably arranged on the track, and a linkage is used to realize the linking of the two assemblies in opposite directions, and the linkage piece is a tensioned closed loop. During exercise, when the user's foot pedals the front moving assembly, the user sits on the rear moving assembly and moves backward with the driving of the linkage; when the foot is retracted, the linkage drives the rear moving assembly to move forward. Through the linking of the linkage, the user can exercise the muscles of the legs, waist, upper limbs, chest, and back at the same time, such that the rowing scene can be simulated very well, and the user's overall coordination can be exercised.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is an overall schematic diagram illustrating a simulated rowing machine according to one embodiment of the present disclosure;

FIG. 2 is a partial enlarged view of part A shown in FIG. 1;

FIG. 3 is a partial enlarged view of part B in FIG. 1;

FIG. 4 is a rear view showing a simulated rowing machine according to one embodiment of the present disclosure;

FIG. 5 is a top view showing a simulated rowing machine according to one embodiment of the present disclosure;

FIG. 6 is an overall schematic view from another angle showing a simulated rowing machine according to one embodiment of the present disclosure;

FIG. 7 is a partial enlarged view of a position at part C in FIG. 6;

FIG. 8 is an exploded view showing a front roller assembly or a rear roller assembly in a simulated rowing machine of the present disclosure;

FIG. 9 is a schematic structural diagram illustrating a connector of a simulated rowing machine of the present disclosure.

In the figures, the list of parts represented by each reference sign is as follows:

• 1, front moving assembly; 11, pedal; 12, handle; 2, rear moving assembly; 21, cushion; 3, linkage; 31, upper half section; 32, lower half section; 4, track; 41, limit plug 5, rear roller assembly; 51, roller; 52, roller shaft; 6, front roller assembly; 7, rolling track; 71, front rolling track; 72, rear rolling track; 73, connecting rod; 8, connector; 81, fixing piece; 82, splint; 83, clamping part; 84, rolling shaft sleeve; 85, hanging arm; 9, transmission wheel.

DETAILED DESCRIPTION OF THE EXEMPLARY EMBODIMENTS

In order to make the above-mentioned objectives, features and advantages of the present disclosure more obvious and easy to understand, the specific embodiments of the present disclosure will be described clearly and completely below in combination with the accompanying drawings. Obviously, the specific details described below are only a part of the embodiments of the present disclosure, and the present disclosure can also be implemented in many other embodiments different from those described herein. Based on the embodiments of the present disclosure, all other embodiments obtained by those of ordinary skill in the art without creative work shall fall within the protection scope of the present disclosure.

It should be noted that when an element is referred to as being “fixed to” another element, it can be directly on the another element or provided therein. When an element is considered to be “connected” to another element, it can be directly connected to the another element or provided therein at the same time. The terms “vertical”, “horizontal”, “left”, “right” and similar expressions used herein are for illustrative purposes only, and do not mean that they are the only embodiments.

Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by those skilled in the technical field of the present disclosure. The terms used in the description of the present disclosure herein are only for the purpose of describing specific embodiments, and are not intended to limit the present disclosure.

In one embodiment, please refer to FIG. 1, a simulated rowing machine may include a front moving assembly 1, a rear moving assembly 2, a track 4, and a linkage 3; both the front moving assembly 1 and the rear moving assembly 2 may be movably connected to the track 4; the linkage 3 may be a closed loop with two linear moving paths tensioned by the transmission wheel 9 at both ends. The closed loop may be roughly parallel to the track 4 and include a first moving path and a second moving path, respectively. The front moving assembly 1 and the rear moving assembly 2 may be respectively fixedly connected to the first moving path and the second moving path, and the front moving assembly 1 and the rear moving assembly 2 may be driven in opposite directions when the linkage 3 rotates periodically.

In the present disclosure, both the front moving assembly 1 and the rear moving assembly 2 may be movably provided on the track 4, and a tensioned closed-loop linkage 3 may be used to realize the linkage of the two assemblies in opposite directions. During exercise, when the user's foot pedals forward to move the front moving assembly 1, the user sits on the rear moving assembly 2 and moves backward with the driving of the linkage 3; when the foot is retracted, the linkage 3 drives to the rear moving assembly 2 to move forward. Through the linking of the linkage 3, the user can exercise the muscles of the legs, waist, upper limbs, chest, and back at the same time, such that the rowing scene can be well simulated and the user's overall coordination can be exercised.

In an embodiment of the present disclosure, referring to FIGS. 1, 2 and 3, the linkage 3 may be a chain, and the chain may include an upper chain as a first moving path and a lower chain as a second moving path, the upper chain and the lower chain are arranged to make the closed loop parallel to the lower end of the track 4. The front moving assembly 1 and the rear moving assembly 2 may be respectively connected to the chain, and the fixed positions of the front moving assembly 1 and the rear moving assembly 2 may be different half sections of the closed circle to make the two moving assemblies move in opposite directions.

It can be understood that the use of a combination of a chain and a sprocket can ensure the strength of the linkage 3 and avoid slippage between the linkage 3 and the transmission wheel 9. The upper and lower sections of the chain are arranged so that the chain may be covered by the downward projection surface of the track 4, such that the chain can be protected from being touched by the user when it rotates, the normal rotation of the chain can be protected, and use of space may be more reasonable.

As long as the front moving assembly 1 and the rear moving assembly 2 may be, of course, in different half sections of the chain, the reversed traction function of the front moving assembly 1 and the rear moving assembly 2 can be realized, such that the movement of reciprocating extension and contraction of the user's body can simulate the movement of rowing and achieves a good exercise effect.

In addition, the arrangement of the chain is not limited to the upper and lower settings. For example, the arrangement of the chain can also be arranged in two sections on the left and right, and the front moving assembly 1 and the rear moving assembly 2 may be respectively arranged on the left and right sections of the chain, it can also realize the movement of the two moving assemblies in the opposite direction, and at the same time, the height of the rowing machine can be reduced by the way of left and right arrangement.

In order to ensure that the relative positions of the two moving assemblies on the chain can be adjusted, both the front moving assembly 1 and the rear moving assembly 2 may be locked on the chain by screws. Due to the detachable and adjustable characteristics of the screw locking, the distance between the front moving assembly 1 and the rear moving assembly 2 can be adjusted according to the user's height, arm span and other factors, such that the user can exercise more scientifically and comfortably.

In another embodiment, referring to FIGS. 6, 7 and 8, the front and rear ends of the track 4 may be respectively provided with a front roller assembly 6 and a rear roller assembly 5. Both the front roller assembly 6 and the rear roller assembly 5 may be sleeved with a transmission wheel 9 on the roller shaft 52, the transmission wheel 9 may be in transmission connection with the linkage 3. The linkage 3 drives the front roller assembly 6 and the rear roller assembly 5 to roll on a rolling track 7 through the transmission wheel 9. The rolling track 7 may include a front rolling track 71 and a rear rolling track 72. The front rolling track 71 and the rear rolling track 72 may be fixedly connected by a connecting rod 8. The front roller assembly 6 may be rollingly connected to the front rolling track 71, and the rear roller assembly 5 may be rollingly connected to the rear rolling track 72.

It is understandable that through the arrangement of the rolling track 7, when the user is performing a simulated rowing, the roller drives the equipment to move on the rolling track 7 under the drive of the chain. It can better simulate the rowing scene and exercise the coordination of users.

The rolling track of the embodiment may be two small sections connected by the connecting rod 8. The rolling track enables the front and rear roller assemblies 5 of the rowing machine to roll on the pulley frame, such that the volume of the rowing machine rolling track 7 can be reduced and the cost of materials can be saved, with an easy disassemble and transportation. The arrangement of the front and rear rolling tracks can facilitate the setting of different widths of the front and rear rolling tracks, so that the front and rear roller shafts can also be set to different. For example, the diameter of the roller 51 of the front roller assembly 6 may be smaller than the diameter of the roller 51 of the rear roller assembly 5, and the roller shaft 52 of the front roller assembly 6 may be longer than the roller shaft 52 of the rear roller assembly 5. It can be understood that the width of the corresponding front rolling track 71 is also greater than the width of the rear rolling track 72. Because the equipment is prone to shaking when the user uses the rowing machine to exercise, in order to ensure the stability of the rowing machine, the technical solution sets the lengths of the front and rear roller shafts 52 to different lengths, and the wheel diameters are different, such that an substantially triangular stable structure can be formed. At the same time, the present embodiment also places the front rolling track 71 and the rear rolling track 72 on the same horizontal surface. Due to the different diameters of the front and rear rollers, the user needs to overcome the gravity to climb the slope when exercising, thereby improving the user's exercise effect. At the same time, a reduction transmission system such as a gear box can also be added between the linkage 3 and the roller shaft 52, to increase the amount of movement of the user and balance the rotation of the front and rear rollers.

Referring to FIG. 9, the front moving assembly 1 and the rear moving assembly 2 may be respectively fixedly connected to the linkage 3 through a connector 8. The connector 8 may include two front and rear fixing pieces 81 and two left and right splints 82. The two splints 82 may be fixedly connected with screws through the fixing pieces 81. The top of the connector 8 and the lower side of the front moving assembly 1 or the rear moving assembly 2 may be fixed to each other by screws. Both the left and right splints 82 may be provided with small clamping parts 83 extending in the middle direction. The linkage 3 may be fixed and clamped by two clamping parts 83. The upper half section 31 or the lower half section 32 of the chain may be clamped by the clamping part 83, such that the two sections of the chain can be protected from interfeloop with each other, and the upper and lower half sections of the chain can be prevented from being entangled when the chain is loose, in order to ensure the normal periodical rotating of the chain.

Among them, the connector 8 may also include two upper horizontal shafts and a lower horizontal shaft. The left and right ends of each of the upper horizontal shaft may be respectively fixedly connected with two splints 82. The upper horizontal shaft may be sleeved with a rolling shaft sleeve 84 rollingly connected to the track. The left and right ends of the lower horizontal shaft may be respectively fixedly connected with two splints 82, and the rolling shaft sleeve 84 may be also sleeved outside the lower horizontal shaft. The lower horizontal shaft may be provided below the upper horizontal shaft, and the track 4 may pass through a position between the upper horizontal shaft and the lower horizontal shaft. The rolling shaft sleeve 84 allows the front and rear moving assembly 2 to move smoothly on the track to avoid frustration, and the lower horizontal axis can also limit the front and rear moving assembly 2. The lower horizontal axis not only serves to mount the rolling shaft sleeve 84, but also functions as a limit for the track 4.

The connector 8 may also include two hanging arms 85, the clamping plate 82 may be provided with a through hole, and the left and right ends of the lower horizontal shaft may be fixed to the through hole by the hanging arms 85. The structure of the hanging arm 85 can enhance the stability of the connector 8 so that the lower horizontal shaft can be better fixed on it. Surely, the lower transverse shaft can also be fixed on the splint 82 in other ways, for example, by means of threaded holes.

It should be noted that the coupling of the connector 8 and the track can also be realized by a sliding track and a sliding block. A sliding block may be added to the bottom of the front moving assembly 1 and the rear moving assembly 2 and sliding on the sliding track during use. The structure is simple and effective. Of course, the structure of the track 4 is not limited to the above solutions.

As a preferred solution, the track may include a front track and a rear track fixedly connected together by detachable screws. When the equipment needs to be moved, the track can be split into a front track and a rear track for easy transporting.

On the basis of this embodiment, referring to FIG. 4, in order to avoid excessively large moving distances of the two moving assemblies and to better simulate the rowing scene, a limit plug 41 may be provided on the track, and the limit plug 41 may be configured as a limit for the sliding position of the front moving assembly 1 and the rear moving assembly 2. At the same time, the restriction of the limit plug 41 can also avoid the user's muscle strain caused by excessive movement.

Among them, referring to FIG. 5, in order to facilitate the user to exert force and simulate the actions of pedaling and hand paddling in the process of rowing, the front moving assembly 1 may be provided with a pedal 11, a handle 12, and a damper. The damper can enhance the resistance during the movement process, to achieve a better exercise effect. The front moving assembly 1 may be provided with a damping assembly. A seat cushion 21 may be fixed on the rear moving assembly 2, and the user sits on the seat cushion 21 to exercise, it may be more comfortable.

It is understandable that video, and music play modules, as well as exercise time calculation module, exercise volume calculation module and other modules can also be added to the front moving assembly 1 according to requirements to increase the fun of exercise.

In another embodiment of the present disclosure, in order to make the equipment run smoothly and reduce noise, the linkage 3 can also be a belt, the transmission wheel 9 may be realized by a pulley, and the front moving assembly 1 and the rear moving assembly 2 may be respectively fixed on the belt. The fixed positions of the front moving assembly 1 and the rear moving assembly 2 may be different half sections of the closed loop. One of the two moving assemblies may be fixed to the upper half of the belt, and the other may be fixed to the lower half of the belt, realizing the function of linking of the two moving assemblies in opposite directions.

In addition, the linkage 3 can also be other long strips that can be used for traction, such as steel ropes, etc., but it is ensured that the linkage 3 has sufficient strength to prevent the linkage 3 from being torn off. Of course, the linkage 3 is not limited to the structure mentioned in this specific embodiment.

The technical solution of the present disclosure uses a linkage 3 configured to movably connect the front moving assembly 1 and the rear moving assembly 2 to the track 4. The linkage 3 may be a closed loop whose ends may be tensioned into two linear moving paths through transmission wheels. The closed loop may be roughly parallel to the track, and include a first moving path and a second moving path, respectively. The front moving assembly 1 and the rear moving assembly 2 may be fixedly connected to the first moving path and the second moving path, respectively, and driven in opposite directions when the linkage periodically rotates. This kind of simulated rowing machine uses linkages to move the front moving assembly 1 and the rear moving assembly 2 of the rowing machine in opposite directions. It can simulate the rowing movement well and exercise the muscles of the user's legs, waist, upper limbs, chest, and back, as well as the coordination of the body, with a simple and effective structure.

The technical features of the above embodiments can be combined arbitrarily. To make the description concise, not all possible combinations of the technical features in the above embodiments are described. However, as long as no contradiction in the combination of these technical features is present, all should be considered to fall within the scope described in this specification.

The above examples only express a few implementation modes of the present disclosure, and the description is relatively specific and detailed, but it should not be understood as a limitation on the scope of the present disclosure. It should be pointed out that for those of ordinary skill in the art, without departing from the concept of the present disclosure, several modifications, substitutions and improvements can be made, and these should be covered by the protection scope of the present disclosure. Therefore, the protection scope of the present disclosure should be subject to the claims.

Claims

1. A simulated rowing machine, wherein comprising:

a front moving assembly, a rear moving assembly, a track, and a linkage;

both the front moving assembly and the rear moving assembly being movably connected to the track; the linkage being a closed loop tensioned as two linear moving paths at both ends by a transmission wheel, the closed loop being substantially parallel to the track and comprising a first moving path and a second moving path, respectively; the front moving assembly and the rear moving assembly being fixedly connected to the first moving path and the second moving path, respectively, and the front moving assembly and the rear moving assembly being driven in opposite directions when the linkage rotates periodically.

2. The simulated rowing machine according to claim 1, wherein the closed loop is a chain, and the transmission wheel is a sprocket.

3. The simulated rowing machine according to claim 2, wherein the chain comprises an upper chain as a first moving path and a lower chain as a second moving path; the upper chain and the lower chain are arranged up and down, such that the closed loop is arranged in parallel at a lower end of the track.

4. The simulated rowing machine according to claim 1, wherein a front and a rear ends of the track are respectively provided with a front roller assembly and a rear roller assembly; each of the front roller assembly and the rear roller assembly is sleeved with the transmission wheel on a roller shaft, the transmission wheel is in transmission connection with the linkage, and the front roller assembly and the rear roller assembly are driven by the linkage to roll on a rolling track through the transmission wheel.

5. The simulated rowing machine according to claim 4, wherein the rolling track comprises a front rolling track and a rear rolling track; the front rolling track and the rear rolling track are fixedly connected by a connecting rod; the front roller assembly is rollingly connected to the front rolling track, and the rear roller assembly is rollingly connected to the rear rolling track.

6. The simulated rowing machine according to claim 5, wherein a diameter of a roller of the front roller assembly is smaller than a diameter of a roller of the rear roller assembly, and the roller shaft of the front roller assembly is longer than the roller shaft of the rear roller assembly.

7. The simulated rowing machine according to claim 1, wherein the front moving assembly and the rear moving assembly are respectively fixedly connected to the linkage through a connector; the connector comprises a fixing piece and left and right two splints, the two splints are fixedly connected by the fixing piece; a top of the connector is fixed with a lower side of the front moving assembly or the rear moving assembly; each of the left and right two splints is provided with a clamping part extending in a middle direction, the linkage is fixed and clamped by two pieces of the clamping part.

8. The simulated rowing machine according to claim 7, wherein the connector further comprises an upper horizontal shaft, and a left and right ends of the upper horizontal shaft are respectively fixedly connected to the two splints; the upper horizontal shaft is sleeved with a rolling shaft sleeve outside, the rolling shaft sleeve is rollingly connected to the track.

9. The simulated rowing machine according to claim 8, wherein the connector further comprises a lower horizontal shaft, a left and right ends of the lower horizontal shaft are respectively fixedly connected to the two splints, and the lower horizontal shaft is also sleeved with a rolling shaft sleeve outside; the lower horizontal shaft is provided below the upper horizontal shaft, the track passes through a position between the upper horizontal shaft and the lower horizontal shaft.

10. The simulated rowing machine according to claim 9, wherein the connector further comprises two hanging arms, the splint is provided with a T-shaped through hole, the left and right ends of the lower horizontal shaft are fixed on the splint through the hanging arms and the T-shaped through hole.

11. The simulated rowing machine according to claim 1, wherein the track is provided with a limit plug, and the limit plug restricts sliding positions of the front moving assembly and the rear moving assembly.

12. The simulated rowing machine according to claim 1, wherein the track comprises a detachable front track and a detachable rear track fixedly connected together.

13. The simulated rowing machine according to claim 1, wherein the front moving assembly is provided with a pedal and a handle; the rear moving assembly is provided with a cushion.

14. The simulated rowing machine according to claim 1, wherein the linkage is a belt, the transmission wheel is a pulley; the front moving assembly and the rear moving assembly are respectively fixed on the belt, and fixed positions of the front moving assembly and the rear moving assembly are different half sections of the closed loop.