CN115382171B - Universal rope outlet structure of tension rope - Google Patents

Abstract

The application relates to the field of fitness equipment, in particular to a universal rope outlet structure of a tension rope. The rope outlet structure comprises a sleeve, a bearing arranged in the sleeve and a hollow rotating shaft arranged in the bearing inner ring, wherein a tension rope penetrates out of a hollow cavity of the rotating shaft from back to front, the front end of the rotating shaft exceeds the front end of the sleeve, a rope protection limiting assembly is further arranged at the front end of the sleeve, and a rope outlet hole coaxially arranged with the rotating shaft is formed in the center of the rope protection limiting assembly. Through the setting of above-mentioned play rope structure can extend the position that the direction was conveniently gone out the rope with the pulling force rope, protects the pulling force rope simultaneously, reduces wearing and tearing or block or break away from the conveying orbit as far as possible, guarantees that play rope and return rope can both be stable, smooth and easy, high-efficient.

Description

Universal rope outlet structure of tension rope

Technical Field

The application relates to the field of fitness equipment, in particular to a universal rope outlet structure of a tension rope.

Background

There are many training devices for training arm strength and chest muscle in the existing gym, such as some comprehensive training devices, in which the tension is mainly achieved by pulling the balancing weight through the tension rope. The existing rope-out direction of the rope-out structure of the tension rope is limited, the rope-out range is small, so that the limitation of the installation position of the rope-out structure and the placement angle of the rope-out structure is large, the situation that the tension rope is easy to wear or is hooked by a hanging tension rope is possibly caused even if the rope-out structure capable of rotating basically has the problems of slow rotating response, untimely and smooth rotation and the like, and the requirements on the material and detail of each part are very high for ensuring smoothness, and the existing rope-out structure and the transmission guiding structure of the whole tension rope basically have no excessive cross and are only independently installed on the structure, so that the whole structure is large in body quantity and poor in overall appearance. The comprehensive trainer and the gantry comprehensive trainer disclosed in the application number CN201922486583.4 comprise a square bracket, a comprehensive training mechanism, a deltoid training mechanism, a low-tension training mechanism and a high-tension training mechanism; the top of the square bracket is provided with a first beam, a second beam, a third beam and a fourth beam which are respectively vertical to the four sides of the square bracket and extend to the outer side of the square bracket; the square bracket is internally provided with a first weight piece, a second weight piece, a third weight piece and a fourth weight piece. The application sets different rope outlet structures to match with rope outlet structures at different positions due to different rope outlet positions and different requirements of the tension rope, and can not be used for pull ropes at all positions due to large limitation of rope outlet directions of the rope outlet structures.

Disclosure of Invention

The application aims to solve the technical problem and provide a universal rope outlet structure of a tension rope.

In order to achieve the above purpose, the present application adopts the following technical scheme:

the utility model provides a universal rope structure that goes out of pulling force rope, goes out the rope structure including sleeve, locate the bearing in the sleeve, locate the hollow pivot of bearing inner race, pulling force rope is worn out from the cavity intracavity of pivot forward from the back, the pivot front end surpasses the sleeve front end, the sleeve front end still is equipped with protects the spacing subassembly of rope, protect the spacing subassembly center of rope be equipped with the play rope hole that the pivot coaxial setting.

Through the setting of above-mentioned play rope structure can extend the position that the direction was conveniently gone out the rope with the pulling force rope, protects the pulling force rope simultaneously, reduces wearing and tearing or block or break away from the conveying orbit as far as possible, guarantees that play rope and return rope can both be stable, smooth and easy, high-efficient.

Preferably, a third tension rope vertical wheel is arranged at the rear of the sleeve, and the topmost end of a wheel groove of the third tension rope vertical wheel corresponds to the center of the rotating shaft, so that the tension rope part wound by the third tension rope vertical wheel is coaxial with the rotating shaft.

Through the cooperation of the third vertical wheel of the tension rope and the centering of the sleeve, the tension rope is ensured to be suspended and extend into the sleeve, the contact surface and the friction force of the tension rope and the rope outlet structure are reduced as much as possible, the smooth and stable pulling process of the tension rope is ensured, the rope is not easy to wear, and meanwhile, the vertical wheel of the tension rope has better guiding function during rope returning and is not easy to drop off the wheel or separate from the path.

Preferably, the rope protection limiting component comprises a guide wheel seat fixedly arranged at the front end of the rotating shaft, two rope protection guide wheels symmetrically arranged on the guide wheel seat, a rope outlet hole formed by matching wheel grooves of the two rope protection guide wheels is formed between the two rope protection guide wheels, a through hole coaxially arranged with the rotating shaft and the rope outlet hole is formed in the guide wheel seat, and the diameter of the through hole is larger than that of the tension rope.

Preferably, the guide wheel seat comprises a rear seat plate vertically fixedly connected to the front end of the rotating shaft, side seat plates vertically arranged on two sides of the rear seat plate, and two rope protection guide wheels are arranged between the two side seat plates.

Through the arrangement of the rope protection limiting assembly, when the tension rope is pulled out, no matter which direction is pulled out, the tension rope can be quickly adjusted to be pulled out by rotating the rotating shaft until the tension rope is propped against the wheel groove of the rope protection guide wheel, and the tension rope is pulled out and simultaneously drives the rope protection guide wheel to rotate, so that static friction between the tension rope and the rope protection guide wheel is avoided, abrasion of the tension rope is reduced as much as possible, the tension rope is smooth and stable to pull out, the body feeling of a user pulling rope is good, the service life of the tension rope is long, and the equipment maintenance rate is low. And through the setting of the spacing subassembly of above-mentioned rope protection, the rope returns stably, be difficult for rocking, can not appear getting rid of the rope phenomenon.

Preferably, the rope protection limiting assembly further comprises a guide shield cover arranged in front of the guide wheels, a straight long hole is formed in the center of the guide shield, the symmetrical center surface of the straight long hole in the length direction is overlapped with the symmetrical center surfaces of the wheel grooves of the two rope protection guide wheels, and the width of the straight long hole is smaller than or equal to that of the wheel groove of the rope protection guide wheels.

Thereby can separate the pulling force rope that pulls out from the rope guide pulley with the spacing subassembly of rope protection as far as possible through the setting of leading the guard shield, pulling force rope pullable scope is also bigger, and can not collude the spacing subassembly of rope protection in this scope to improved the range of application of this structure greatly, made this structure can be applicable to multiple apparatus and the most high position of apparatus all be suitable for the installation.

Preferably, the guide shield is a spherical shield, and at least half of the rope guide wheel is sunk into the shield cavity of the spherical shield.

The arrangement of the guide shield not only can enlarge the angle range of rope outlet, but also can assist the rotation shaft and the rope protection limiting component to rotate to the position where the pulling rope is consistent with the wheel groove of the rope protection guide wheel at the fastest speed when the rope outlet direction of the pulling rope is inconsistent with the wheel groove of the rope protection guide wheel. The tension rope can be prevented from propping against the gap between the two rope protection guide wheels when propping against the side wall of the straight slot hole, and the rotating shaft is driven to rotate immediately in the propping process between the tension rope and the wall of the wheel slot of the rope protection guide wheel until the tension rope is propped against the inner bottom of the wheel slot of the rope protection guide wheel, so that the rope is discharged in a high-efficiency, smooth and minimum-resistance and friction state.

Preferably, projections of both ends of the straight long hole onto the peripheral surface of the nearby rope protecting guide wheel are located outside the rope protecting guide wheel.

Preferably, connecting plates are symmetrically arranged on two sides of the guide wheel seat in the guide shield cover, and the connecting plates are detachably connected with the guide wheel seat.

The guide shield disclosed by the application is convenient to install and good in guide and protection effect.

Preferably, the wheel seat for mounting the tension rope vertical wheel III is provided with a baffle plate, the baffle plate is positioned above a wheel groove of the tension rope vertical wheel III, an inner ring is arranged on an inlet of the tension rope at the rear end of the rotating shaft and is a wavy shockproof cushion retainer, the section of the shockproof cushion retainer is in a wave peak shape, the free end of the tension rope penetrating out of the rope structure is provided with a deceleration section which is gradually thickened from inside to outside, the deceleration section is integrally connected with the tension rope or is sleeved with a protective sleeve outside the tension rope, and the outer end of the deceleration section is also provided with an enlarged protective disc. The structure can effectively prevent the movement during the rope returning, is convenient to install, improves the stability of the whole rope outlet structure, and ensures that the rope inlet end of the rope outlet structure is stable.

Preferably, the front end and the rear end of the sleeve are respectively provided with a bearing, the two ends of the rotating shaft are respectively arranged in the two bearing inner rings, and the rope outlet structure further comprises a bracket for erecting the sleeve and a tension rope tensioning steering wheel group arranged on the bracket. The structure is low in cost and simplified, and the sleeve can be provided with different lengths and is suitable for different devices.

Compared with the prior art, the application has the beneficial effects that:

(1) Through the setting of above-mentioned play rope structure can extend the position that the direction was conveniently gone out the rope with the pulling force rope, protects the pulling force rope simultaneously, reduces wearing and tearing or block or break away from the conveying orbit as far as possible, guarantees that play rope and return rope can both be stable, smooth and easy, high-efficient. Thereby can separate the pulling force rope that pulls out from the rope guide pulley with the spacing subassembly of rope protection as far as possible through the setting of leading the guard shield, pulling force rope pullable scope is also bigger, and can not collude the spacing subassembly of rope protection in this scope to improved the range of application of this structure greatly, made this structure can be applicable to multiple apparatus and the most high position of apparatus all be suitable for the installation.

(2) The application has simple structure, convenient adjustment, compact whole frame body, wide application range and wide mountable position area.

Drawings

FIG. 1 is a schematic diagram of a rope payout with a sleeve;

FIG. 2 is a second schematic diagram of a rope payout structure with a sleeve;

FIG. 3 is a schematic diagram of the overall structure of the tension control device;

FIG. 4 is a schematic diagram of the overall structure of the tension control device;

FIG. 5 is a schematic diagram III of the overall structure of the tension control device;

FIG. 6 is a schematic diagram of a stent structure;

FIG. 7 is a schematic diagram of a symmetrical configuration of two sets of tension control devices;

FIG. 8 is a schematic view of the mating structure of the cushion retainer and the ejector rope.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments.

In the description of the present application, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present application and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application.

Embodiment one:

the tension control device for the comprehensive training instrument comprises a frame 7, and a driving wheel mechanism and a resistance mechanism which are arranged on the frame, wherein the driving wheel mechanism comprises a driving wheel 1, a tension rope 2, a reset wheel 3 for resetting the driving wheel and a reset rope 4, the tension rope 2 is wound on a wheel groove of the driving wheel 1, the reset rope 4 is wound on the wheel groove of the reset wheel 3, and the driving wheel and the reset wheel synchronously rotate; the resistance mechanism comprises an electromagnet 5 and a magnetic control wheel 6; the magnetic control wheel is connected with the driving wheel through a driving belt 1001.

The device can be arranged on a comprehensive training apparatus for use, and can be arranged on other body-building apparatuses which need or use equipment for obtaining tension, the device can conveniently control the tension of a tension rope by adjusting the magnetic resistance generated by the matching of the magnetic control wheel and the electromagnet, in particular to a tension rope pulling driving wheel, the driving wheel drives the magnetic control wheel, the magnetic resistance is generated by the matching of the rotating magnetic control wheel and the electrified electromagnet, different users can adjust the tension of different sizes according to the requirements, and a sub-intelligent controller or a control screen can be arranged at the position on the apparatus which is convenient for the user to observe, so that the tension size can be conveniently adjusted by the controller or the control screen. Convenient operation, small volume, light weight and safe use.

The driving wheel 1 comprises a main belt wheel 11 positioned at the front side and a tension rope wheel 12 positioned at the rear side, the main belt wheel 11, the tension rope wheel 12 and the reset wheel 3 are sequentially coaxially and continuously arranged, a wheel groove for winding the tension rope 2 is formed in the tension rope wheel 12, the winding directions of the tension rope and the reset rope are opposite, the front side of the frame extends to be provided with a driven belt wheel 61 in the axial direction of the magnetic control wheel 6, the transmission belt is wound on the main belt wheel 11 and the driven belt wheel 61, the wheel diameter of the main belt wheel 11 is larger than that of the driven belt wheel 61, and the reset rope 4 is an elastic rope.

The existing wheel body reset usually adopts a coil spring reset mode, the reset force of the mode is not adjustable, and the whole reset is needed once the wheel body is loosened. According to the application, after the stretching is finished, the elastic rope is adopted to reset the driving wheel, the resetting process is stable and efficient, and the resetting force of the driving wheel can be conveniently adjusted by adjusting the tightness of the elastic rope according to the requirement when the elastic rope is installed or used for a period of time. The elastic rope is convenient to operate, low in cost and good in stability, the elastic rope can be conveniently replaced, the elastic rope can be detachably connected with the wheel groove of the reset wheel, and the elastic rope is only required to be detached to be reloaded once the elastic rope needs to be replaced, or the outer end of the elastic rope can be outwards pulled to be fastened and fixed on the corresponding fixing part of the equipment when the elastic rope needs to be tensioned.

The main belt pulley 11, the tension rope pulley 12 and the reset wheel 3 are integrally connected. The structure has the advantages of strong setting integrity, good stability and synchronism, convenient operation, compact structure, difficult damage, small volume and low cost.

Embodiment two:

the difference from the above embodiment is that the driving wheel 1 is further sleeved with a code wheel 13, and the frame 7 is provided with a sensor 8 matched with the code wheel 13.

The speed of pulling and the number of times of reciprocating pulling of a user can be monitored through the arrangement of the code wheel and the sensor. The user can intuitively and conveniently control the exercise force, the exercise times and the exercise group times through the controller and/or the display connected with the sensor, the user does not need to exercise one side by one side and memorize the exercise times, the training effect is good and convenient, and the training quantity is good in controllability.

The diameter of the pull rope pulley 12 is larger than that of the main belt pulley 11, so that a step is formed between the main belt pulley and the pull rope pulley, the code disc 13 is arranged on the front side of the pull rope pulley, and the rear side surface of the code disc forms the front side groove wall of the wheel groove of the driving wheel 1.

The arrangement of the structure ensures that the structure of each part is reduced and compact as much as possible, and simultaneously, the stability is better, the cost is low, the volume is small, and the installation is convenient.

Embodiment III:

the difference from the above embodiment is that the stand 7 includes a main frame 71 having an inner frame cavity and formed by frame strips, and a support 9 disposed at one side of the main frame 71, the driving wheel 1, the reset wheel 3 and the magnetic control wheel 6 are disposed in the inner frame cavity, the tension rope 2 and the reset rope 4 extend out of the main frame 71 and are wound on the support 9, and a plurality of guide wheels are disposed on the support for guiding and conveying the tension rope and the reset rope to a desired position.

The arrangement of the structure ensures that the whole device has strong integrity, good framework and stability of each part, and is convenient for installing the device on various applicable instruments. The flexibility of installation is great. The tension rope and the reset rope can pass through the same side of the main frame and then are connected with the bracket, the free end of the reset rope can be arranged on the bracket, the tension rope can stably pass through the bracket after being wound, and the tension handle is arranged at the free end of the tension rope.

Two magnetic wheel frame plates 711 are arranged in the main frame 71 in a front-back opposite mode, the magnetic control wheel 6 is arranged between the two magnetic wheel frame plates 711 through a wheel shaft, frame holes are correspondingly formed in the two magnetic wheel frame plates 711, and the electromagnet 5 is arranged on the frame holes.

The driving wheel 1 is arranged below the magnetic control wheel 6, a main wheel frame plate 712 is respectively and vertically arranged on corresponding frame strips on the front side and the rear side of the main frame 71, a frame groove 713 is formed in the main wheel frame plate, the driving wheel and the reset wheel are integrally connected to form a main wheel, and wheel shafts on two sides of the main wheel are arranged in the frame groove 713.

Embodiment four:

the difference from the above embodiment is that the frame groove is an open groove with an open bottom, the wheel axle of the main wheel is embedded into the frame groove from the upward direction, and two ends of the wheel axle are in threaded connection with nuts 714 which can be abutted against the outer side surface of the main wheel frame plate. The arrangement of the structure ensures that each part is convenient and stable to install, particularly the flexibility of adjustment of the driving wheel is large, and the gap between the driving wheel and the magnetic control wheel can be conveniently adjusted so as to conveniently adjust the tension of the transmission belt, thereby having convenient equipment adjustment and long service life.

Fifth embodiment:

the difference from the above embodiment is that the electromagnet 5 and the sensor 8 are electrically connected to a controller. The controller can be arranged on the instrument to be used by the device, a display screen can be arranged on the controller so that a user can conveniently adjust the intensity of exercise and the training times, and voice prompts can be arranged on the controller, for example, the user is prompted to do a plurality of reciprocating or groups of actions, and the training efficiency and effect of a trainer are greatly improved.

Example six:

the difference from the above embodiment is that the tension control devices are two symmetrically arranged, and the tension rope 2 and the reset rope 4 on each tension control device extend outwards away from the other tension control device.

The two symmetrical tension control devices can be arranged on most instruments with two symmetrical tension ropes, so that the two tension control devices can be connected with a controller together to synchronously regulate the force, and the operation is convenient. For instruments requiring only one pull force. Only one tension control device of the present application may be selected for use on the instrument.

Embodiment seven:

the pull rope guiding mechanism matched with the tension control device comprises the support 9, the support comprises a side frame 91 which is vertically arranged and a side frame body which is connected to the outer side of the side frame 91, the pull rope comprises the tension rope 2 and a reset rope 4, the support is provided with a tension rope tensioning steering wheel group and a reset rope tensioning steering wheel group, the tension rope 2 is wound on the tension rope tensioning steering wheel group, the reset rope 4 is wound on the reset rope tensioning steering wheel group, and the side frame body is also provided with a fixing part 41 for detachably fixing the end of the reset rope. The side frame, namely the square frame part of the main frame 71 facing one side of the bracket, is provided with a rope outlet at the center, and the side frame body is provided with a matched bracket.

The application ensures that the tension rope and the reset rope are stable and smooth in the working process by winding the two wheel groups, and has compact overall structure, small volume, low cost and convenient installation. The middle frame opening of the side frame corresponds to the rope outlet of the tension rope and the reset rope, and after the tension rope is stretched, the elastic rope is adopted for resetting through the arrangement of the structure, so that the resetting process is stable and efficient, and the tightness of the elastic rope can be conveniently adjusted as required during installation or after a period of use. When the reset force is needed to be adjusted, the outer end of the elastic rope can be separated from the fixing part, and then the elastic rope is fixed on the fixing part again after being tensioned or loose.

Example eight:

the difference with the above embodiment is that the tension guiding wheel set for tension rope comprises a tension rope lying wheel I011 positioned at the bottom of the side frame body, a tension rope standing wheel II 012 positioned at the lower part of the rear side of the side frame body and a tension rope standing wheel III 013 positioned at the middle part of the side frame body, one side of the middle part of the side frame body corresponding to the tension rope standing wheel III 013, which is used for sleeving and penetrating out of the tension rope end, is provided with a rope outlet structure 10, the wheel shafts of the tension rope lying wheel I011 and the tension rope standing wheel II 012 are mutually perpendicular, and the tension rope section between the tension rope lying wheel I011 and the tension rope standing wheel II 012 is perpendicular to the wheel shafts of the tension rope lying wheel I011 and the tension rope standing wheel II 012.

The tension rope can be well led out from the control device and stably led out and turned through the structure, so that the rope outlet end of the tension rope is led to a specified rope outlet position according to the requirement, the guiding and turning transmission are stable, and the tension rope tensioning effect is good.

The reset rope tensioning steering wheel set comprises a reset rope standing wheel one 021 positioned at the upper part of the side frame 91, a reset rope standing wheel two 022 positioned at the lower part, a reset rope standing wheel three 023 positioned at the outer side of the bottom of the side frame body, a plurality of reset rope tensioning wheels four 024 positioned at the outer side of the side frame body, wherein the wheel shafts of the reset rope standing wheels three 023 and the wheel shafts of the reset rope tensioning wheels four 024 which are adjacent in the sequence of winding the reset rope tensioning steering wheel set are mutually perpendicular, and the reset rope portion between the reset rope standing wheel three 023 and the adjacent reset rope tensioning wheels four 024 is mutually perpendicular to the reset rope portion between the reset rope standing wheel two 022 and the reset rope standing wheel three 023 and the wheel shaft of the reset rope standing wheel three 023.

The reset rope can be stably guided and turned through the structure, so that the reset rope with enough length and the extension length are ensured to be effectively and stably reset by a reset structure which is required to be reset in a control device connected with the guide mechanism.

Example nine:

the difference from the above embodiment is that the four 024 reset rope tensioning wheels comprise three side wheels 0241 which are arranged in the middle of the outer side of the side frame from bottom to top in a staggered manner and two top wheels 0242 which are arranged at the top of the outer side of the side frame in a front-back corresponding manner. The symmetrical center planes of the wheel grooves of the side vertical wheels and the top vertical wheels are all positioned on the same plane, and the reset rope is ensured to have enough working length and extensibility through the arrangement of a plurality of tensioning wheels four in a limited mechanism space, and meanwhile, the structure is ensured to be stable.

The side frame body comprises a bottom rod 92 connected to the bottom of the rear side of the side frame 91, a middle rod 93 in the middle of the front side of the side frame 91, a top rod 94 in the middle of the upper part of the side frame 91, a bottom upright rod 95 vertically arranged at the outer end of the bottom rod 92, a middle lying rod 931 vertically connected to the outer end of the middle rod 93 and extending backwards, and a middle rod 941 vertically connected to the outer end of the top rod 94 and extending downwards, wherein a folded plate is fixedly connected between the bottom rod 92 and the middle rod 93 and between the middle lying rod 931, the folded plate comprises a lying plate 961 fixedly arranged on the side frame and the bottom rod and a side standing plate 962 perpendicular to the outer side of the lying plate and connected with the middle rod 93 and the middle lying rod 931, three side standing wheels are arranged on the outer side surfaces of the side plates, and a tension rope lying wheel 011 is arranged at the bottom of the lying plate 961.

The tension rope tensioning steering wheel group and each wheel in the reset rope tensioning steering wheel group are guide wheels with wheel grooves, the side frame body is simple in structure, small in body weight and stable in all frame bodies, and the folded plates are arranged to enable all parts of the simple side frame body to be connected more stably and can be used for fixing a plurality of guide wheels. The tension rope tensioning steering wheel group and the reset rope tensioning steering wheel group can be reasonably and skillfully staggered and gathered together in the front-back, left-right and height directions through the simple and skillful side frame body arrangement, and the tension rope and the reset rope are reasonably distributed and conducted.

Example ten:

the difference from the above embodiment is that the fixing portion 41 includes a hook rod 411 provided at the bottom of the outer side of the side frame and located directly under one of the top standing wheels 0242. The fixing portion 41 further includes a rope winding column 412 provided at the rear bottom of the side frame body. The setting of above-mentioned fixed part can conveniently dismouting and adjustment rope that resets, and fixed part cooperation reset rope take-up pulley four 024's setting, further guarantee that sufficient length reset rope carries out effective work and not fragile, long service life.

Example eleven:

the difference from the above embodiment is that the rope discharging structure 10 is disposed between the neutral lever 941, the middle lever 931 and the side standing plate 962, the rope discharging structure includes a ferrule or a sleeve for guiding the pulling rope to be discharged, the fourth restoring rope tensioning wheel corresponds to the outer side of the folded plate, the first pulling rope lying wheel 011, the second pulling rope standing wheel 012 and the third pulling rope standing wheel 013 correspond to the middle part of the folded plate. The tension rope is conducted from the bottom of the frame to the middle of the side frame, is guided to the rear of the side frame through the middle of the bottom of the side frame, is conducted upwards, and is then conveyed to the front of the side frame through the rope outlet structure to be led out. The reset rope is conducted from the upper part of the side frame to the lower part of the side frame, conducted to the outer side of the side frame through the bottom of the side frame, conducted to the top of the side frame through the outer side bottom of the side frame, and then returned to the bottom of the side frame for fixing. The tension rope and the reset rope can be separately transmitted at the rear side and the outer side of the side frame body after being misplaced at the bottom of the side frame body once in the transmission mode, and the whole framework is compact, stable and efficient. The middle lying bar 931 or the side standing plate 962 is connected with the bottom standing bar 95, the lying plate is located and extends forward in a Z shape from the back and is connected with the bottom bar 92 after being raised by a connecting piece, a rear installation notch is arranged on the outer side of the rear part of the lying plate, the second tensile rope standing wheel 012 is correspondingly arranged in the installation notch, a front installation notch is arranged on the inner side of the front part of the lying plate, and the upper ends of the second resetting rope standing wheel 022 and the third resetting rope standing wheel 023 are lower than the lower bottom surface of the lying plate. The folded plate with the structure is simple in whole and ingenious in structure, the guide wheels which cannot be used can be partitioned while the guide wheels are mounted conveniently, and the folded plate with the specific shape is convenient for workers to intuitively observe and mount the guide wheels, the tension ropes and the reset ropes as much as possible, so that the whole body is as small as possible.

The second tensile rope standing wheel 012 is arranged on the inner side of the bottom upright rod 95, the third tensile rope standing wheel 013 is arranged on the inner side of the top of the bottom upright rod 95, the wheel seat of the third tensile rope standing wheel 013 is also connected with the middle lying rod 931, and the bottommost ends of wheel grooves of the first tensile rope lying wheel 011 and the second tensile rope standing wheel 012 are higher than the groove tops of the wheel grooves at the lowest positions of the second reset rope standing wheel 022 and the third reset rope standing wheel 023. Two of the top standing wheels 0242 are provided on the top outer side of the neutral lever 941. The structure ensures that the tension rope and the reset rope are staggered up and down at the bottom of the bracket without mutual interference, the whole structure has good stability, compact structure, small volume and complete functions, and the tension rope and the reset rope can have enough pulling and retracting process quantities.

Embodiment twelve:

the universal rope outlet structure of the tension rope matched with the tension control device is arranged on the support, the rope outlet structure comprises a sleeve 101, a bearing 102 arranged in the sleeve 101 and a hollow rotating shaft 103 arranged in the bearing inner ring, the tension rope penetrates out of a hollow cavity of the rotating shaft 103 from back to front, the front end of the rotating shaft exceeds the front end of the sleeve 101, a rope protection limiting assembly is further arranged at the front end of the sleeve, and a rope outlet hole 106 coaxially arranged with the rotating shaft is arranged in the center of the rope protection limiting assembly.

Through the setting of above-mentioned play rope structure can extend the position that the direction was conveniently gone out the rope with the pulling force rope, protects the pulling force rope simultaneously, reduces wearing and tearing or block or break away from the conveying orbit as far as possible, guarantees that play rope and return rope can both be stable, smooth and easy, high-efficient.

And a third tension rope vertical wheel 013 is arranged at the rear of the sleeve, and the topmost end of a wheel groove of the third tension rope vertical wheel 013 corresponds to the center of the rotating shaft, so that the tension rope part wound by the third tension rope vertical wheel 013 is coaxial with the rotating shaft. Through the cooperation of the third vertical wheel of the tension rope and the centering of the sleeve, the tension rope is ensured to be suspended and extend into the sleeve, the contact surface and the friction force of the tension rope and the rope outlet structure are reduced as much as possible, the smooth and stable pulling process of the tension rope is ensured, the rope is not easy to wear, and meanwhile, the vertical wheel of the tension rope has better guiding function during rope returning and is not easy to drop off the wheel or separate from the path.

The rope protection limiting assembly comprises a guide wheel seat 104 fixedly arranged at the front end of the rotating shaft, two rope protection guide wheels 105 symmetrically arranged on the guide wheel seat 104, a rope outlet hole 106 formed by matching wheel grooves of the two rope protection guide wheels 105 is formed between the two rope protection guide wheels, a through hole coaxially arranged with the rotating shaft and the rope outlet hole is formed in the guide wheel seat 104, and the diameter of the through hole is larger than that of the tension rope.

The guide wheel seat 104 comprises a rear seat plate 1041 vertically fixedly connected to the front end of the rotating shaft 103, side seat plates 1042 vertically arranged on two sides of the rear seat plate 1041, and two rope protecting guide wheels 105 arranged between the two side seat plates 1042. Through the arrangement of the rope protection limiting assembly, when the tension rope is pulled out, no matter which direction is pulled out, the tension rope can be quickly adjusted to be pulled out by rotating the rotating shaft until the tension rope is propped against the wheel groove of the rope protection guide wheel, and the tension rope is pulled out and simultaneously drives the rope protection guide wheel to rotate, so that static friction between the tension rope and the rope protection guide wheel is avoided, abrasion of the tension rope is reduced as much as possible, the tension rope is smooth and stable to pull out, the body feeling of a user pulling rope is good, the service life of the tension rope is long, and the equipment maintenance rate is low. And through the setting of the spacing subassembly of above-mentioned rope protection, the rope returns stably, be difficult for rocking, can not appear getting rid of the rope phenomenon.

Embodiment thirteen:

the difference from the above embodiment is that the rope protection limiting component further includes a guide shield 107 covering the front of the guide wheel, a long hole 1071 is provided in the center of the guide shield, the symmetrical center plane of the long hole in the length direction coincides with the symmetrical center planes of the wheel grooves of the two rope protection guide wheels 105, and the width of the long hole in the shape of a straight line is smaller than or equal to the width of the wheel groove of the rope protection guide wheel.

Thereby can separate the pulling force rope that pulls out from the rope guide pulley with the spacing subassembly of rope protection as far as possible through the setting of leading the guard shield, pulling force rope pullable scope is also bigger, and can not collude the spacing subassembly of rope protection in this scope to improved the range of application of this structure greatly, made this structure can be applicable to multiple apparatus and the most high position of apparatus all be suitable for the installation.

The guide shield is a spherical shield, and at least half of the rope guide wheel 105 is sunk into the shield cavity of the spherical shield. Connecting plates 1072 are symmetrically arranged on two sides of the guide wheel seat 104 in the guide shield 107 cover, and the connecting plates are detachably connected with the guide wheel seat. The guide shield disclosed by the application is convenient to install and good in guide and protection effect.

The arrangement of the guide shield not only can enlarge the angle range of rope outlet, but also can assist the rotation shaft and the rope protection limiting component to rotate to the position where the pulling rope is consistent with the wheel groove of the rope protection guide wheel at the fastest speed when the rope outlet direction of the pulling rope is inconsistent with the wheel groove of the rope protection guide wheel. The tension rope can be prevented from propping against the gap between the two rope protection guide wheels when propping against the side wall of the straight slot hole, and the rotating shaft is driven to rotate immediately in the propping process between the tension rope and the wall of the wheel slot of the rope protection guide wheel until the tension rope is propped against the inner bottom of the wheel slot of the rope protection guide wheel, so that the rope is discharged in a high-efficiency, smooth and minimum-resistance and friction state.

Projections of both ends of the straight hole 1071 onto the peripheral surface of the nearby rope guide 105 are located outside the rope guide 105. Thereby can guarantee to protect the spacing subassembly of rope and react and rotate fast, can guarantee simultaneously that the play rope scope is wide again.

The wheel seat for installing the tension rope vertical wheel 013 is provided with a baffle plate 0131, the baffle plate is positioned above a wheel groove of the tension rope vertical wheel 013, and the rope outlet structure further comprises a support 9 for erecting the sleeve and the tension rope tensioning steering wheel set arranged on the support. The structure can effectively prevent the movement during the rope returning, is convenient to install, improves the stability of the whole rope outlet structure, and ensures that the rope inlet end of the rope outlet structure is stable.

Fourteen examples:

the difference with the above embodiment is that the inlet of the tension rope 2 at the rear end of the rotating shaft is provided with the vibration-proof cushion retainer 201 with a wavy inner ring, and the cross section of the vibration-proof cushion retainer 201 is in a wave shape, that is, the vibration-proof cushion retainer gradually narrows from the outer ring to the inner ring towards the center of the length direction, the vibration-proof cushion retainer can improve the stability fit between the tension rope and the guide wheel in the transmission process of the tension rope, and meanwhile, the stability of the free end of the tension rope is also improved, the rope throwing phenomenon is not easy to occur, the protection effect can be achieved on the tension rope once accidents occur, or the abrasion of the tension rope can be reduced and debugged. The free end of the pull rope 2 penetrating out of the rope structure is provided with a deceleration section 202 which is gradually thickened from inside to outside, the deceleration section 202 is integrally connected with the pull rope or is a protective sleeve sleeved outside the pull rope, and the outer end of the deceleration section is also provided with an enlarged protective disc 203. The inner black is wavy soft washer that takes precautions against earthquakes on the pivot rear end entry, and the pulling force rope free end is equipped with the deceleration section that becomes thick from inside to outside end gradually, and the deceleration section has reduced the jump that the striking of connecting handle with leading the guard shield produced, and safer, and thereby because the pulling force rope is thicker at the free end can exert the bigger power of leading the guard shield at the initial stage of pulling force rope, drive leading guard shield and pivot rotation as soon as possible, promptly according to pulling force rope by the direction to the position that is least to pulling force rope resistance as soon as possible. The design can better protect the tension rope, and the tension rope is thickened and not easy to damage.

The deceleration section is formed by sleeving a conical protective sleeve on the tension rope. The deceleration section and the rope outlet hole are matched for deceleration, one end, close to the free end of the tension rope, of the protective sleeve is bumped by the handle, and a circle of expanded protective disc can be arranged on the end, close to the free end, of the protective sleeve, so that the impact between the handle connected with the free end and the guide shield is reduced, the impact between the tension rope and the straight groove is prevented, the structural stability is good, the service life is long, and the use is smooth.

Example fifteen:

the difference with the above embodiment is that the front and rear ends of the sleeve are respectively provided with a bearing 102, the two ends of the rotating shaft 103 are respectively arranged in the inner rings of the two bearings 102, the rope outlet structure also comprises a bracket 9 for erecting the sleeve and a tension rope tensioning steering wheel arranged on the bracket and used for transmitting the tensioning tension rope, and the bracket is also provided with a resetting rope tensioning steering wheel group. The structure is low in cost and simplified, and the sleeve can be provided with different lengths and is suitable for different devices. Because telescopic setting makes whole play rope mechanism from the back forward can run through whole support and integrate into in the support, can not increase the volume of whole framework, the wholeness is strong, compact structure, and stability is good.

The device can be arranged on a comprehensive training apparatus for use, and can be arranged on other body-building apparatuses which need or use equipment for obtaining tension, the device can conveniently control the tension of a tension rope by adjusting the magnetic resistance generated by the matching of the magnetic control wheel and the electromagnet, in particular to a tension rope pulling driving wheel, the driving wheel drives the magnetic control wheel, the magnetic resistance is generated by the matching of the rotating magnetic control wheel and the electrified electromagnet, different users can adjust the tension of different sizes according to the requirements, and a sub-intelligent controller or a control screen can be arranged at the position on the apparatus which is convenient for the user to observe, so that the tension size can be conveniently adjusted by the controller or the control screen. Convenient operation, small volume, light weight and safe use.

The application ensures that the tension rope and the reset rope are stable and smooth in the working process by winding the two wheel groups, and has compact overall structure, small volume, low cost and convenient installation. The middle frame opening of the side frame corresponds to the rope outlet of the tension rope and the reset rope, and after the tension rope is stretched, the elastic rope is adopted for resetting through the arrangement of the structure, so that the resetting process is stable and efficient, and the tightness of the elastic rope can be conveniently adjusted as required during installation or after a period of use. When the reset force is needed to be adjusted, the outer end of the elastic rope can be separated from the fixing part, and then the elastic rope is fixed on the fixing part again after being tensioned or loose.

Through the setting of above-mentioned play rope structure can extend the position that the direction was conveniently gone out the rope with the pulling force rope, protects the pulling force rope simultaneously, reduces wearing and tearing or block or break away from the conveying orbit as far as possible, guarantees that play rope and return rope can both be stable, smooth and easy, high-efficient.

When the pull rope is used, the pull rope is pulled out from the control device, then pulled out from the rope outlet structure through the pull rope guide mechanism, and simultaneously the reset rope is reversely tensioned by the reset wheel, and after the user finishes one external pulling, the pull rope is retracted onto the driving wheel under the action of the reset wheel and the elastic reset wheel.

The application can also be used for arranging the shell which is convenient to detach outside the whole control assembly and the bracket, only the part of the rope protection limiting component which is convenient to go out of the rope is exposed, the integrity is strong, the application is applicable to various instruments, the installation is more convenient and safer, and the installation flexibility is also great.

The foregoing is only a preferred embodiment of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art, who is within the scope of the present application, should make equivalent substitutions or modifications according to the technical scheme of the present application and the inventive concept thereof, and should be covered by the scope of the present application.

Claims (8)

1. The utility model provides a universal play rope structure of pulling force rope which characterized in that: the rope outlet structure comprises a sleeve (101), a bearing (102) arranged in the sleeve (101) and a hollow rotating shaft (103) arranged in an inner ring of the bearing, wherein a tension rope penetrates out of a hollow cavity of the rotating shaft (103) from back to front, the front end of the rotating shaft exceeds the front end of the sleeve (101), a rope protection limiting assembly is further arranged at the front end of the sleeve, and a rope outlet hole (106) coaxially arranged with the rotating shaft is formed in the center of the rope protection limiting assembly; the rope protection limiting assembly comprises a guide wheel seat (104) fixedly arranged at the front end of the rotating shaft, two rope protection guide wheels (105) symmetrically arranged on the guide wheel seat (104), a rope outlet hole (106) formed by matching wheel grooves of the two rope protection guide wheels (105) is formed between the two rope protection guide wheels, a through hole coaxially arranged with the rotating shaft and the rope outlet hole is formed in the guide wheel seat (104), and the diameter of the through hole is larger than that of the tension rope; the guide wheel seat (104) comprises a rear seat plate (1041) vertically fixedly connected to the front end of the rotating shaft (103), side seat plates (1042) vertically arranged on two sides of the rear seat plate (1041), and two rope protection guide wheels (105) are arranged between the two side seat plates (1042).

2. The universal payout mechanism for a tension cord as recited in claim 1, wherein: and a tension rope standing wheel III (013) is arranged at the rear of the sleeve, and the topmost end of a wheel groove of the tension rope standing wheel III (013) corresponds to the center of the rotating shaft so as to ensure that a tension rope part wound out of the tension rope standing wheel III (013) is coaxial with the rotating shaft.

3. The universal payout mechanism for a tension cord as recited in claim 1, wherein: the rope protection limiting assembly further comprises a guide shield (107) which is covered in front of the guide wheels, a long-shaped hole (1071) is formed in the center of the guide shield, the symmetrical center plane of the long-shaped hole in the length direction coincides with the symmetrical center planes of the wheel grooves of the two rope protection guide wheels (105), and the width of the long-shaped hole is smaller than or equal to that of the wheel groove of the rope protection guide wheel.

4. A universal payout mechanism for a tension cord as recited in claim 3, wherein: the guide shield is a spherical shield, and at least half of the rope protecting guide wheel (105) is sunk into a shield cavity of the spherical shield.

5. The universal payout mechanism for a tension cord as recited in claim 4, wherein: the projections of the two ends of the long hole (1071) to the peripheral surface of the nearby rope protecting guide wheel (105) are positioned outside the rope protecting guide wheel (105).

6. A universal payout mechanism for a tension cord as recited in claim 3, wherein: connecting plates (1072) are symmetrically arranged on two sides of the guide wheel seat (104) in the guide shield (107) cover, and the connecting plates are detachably connected with the guide wheel seat.

7. The universal payout mechanism for a tension cord as recited in claim 1, wherein: be used for installing be equipped with fender board (013) on the wheel seat of pulling force rope standing wheel three (013), the fender board is located the top of the wheel groove of pulling force rope standing wheel three (013), be equipped with inner circle in the entry of pivot rear end pulling force rope (2) and be corrugated cushion retainer (201) takes precautions against earthquakes, and the cross-section of taking precautions against earthquakes cushion retainer (201) is the peak shape, the free end that pulling force rope (2) was worn out the rope structure is equipped with deceleration section (202) that becomes thick gradually from inside to outside, deceleration section (202) with pulling force rope body coupling or deceleration section is for the cover is located the lag outside the pulling force rope, the outer end of deceleration section still is equipped with enlarged protective disk (203).

8. The universal payout mechanism for a tension cord as recited in claim 1, wherein: the front end and the rear end of the sleeve are respectively provided with a bearing (102), the two ends of the rotating shaft (103) are respectively arranged in the inner rings of the two bearings (102), and the rope outlet structure further comprises a bracket (9) for erecting the sleeve and a tension rope tensioning steering wheel group arranged on the bracket.