CN110075499B - climbing machine - Google Patents

Abstract

The invention discloses a climbing machine, which comprises a frame, a damper, a synchronous assembly and two body-building modules, wherein the damper is arranged on the frame and is provided with a power input shaft, the synchronous assembly comprises a synchronous gear, a synchronous belt and two pinch rollers, the synchronous belt is wound on the synchronous gear, the synchronous gear is arranged on the power input shaft, the pinch rollers are distributed on two sides of the synchronous gear and are rotatably arranged on the frame, and the pinch rollers are pressed on the outer sides of the synchronous belt on the corresponding sides; the two body building modules are distributed on two sides of the frame, each body building module comprises a climbing mechanism and a sliding guide mechanism for guiding the climbing mechanism to reciprocate up and down, each climbing mechanism comprises a handle, a pedal and a connecting frame, the handles and the pedals are respectively arranged on the connecting frames, one end part of each synchronous belt is connected with one connecting frame, and the other end part of each synchronous belt is connected with the other connecting frame. The operation noise of the climbing machine is reduced, so that the experience of a sporter is improved.

Description

Climbing machine

Technical Field

The invention relates to fitness equipment, in particular to a climbing machine.

Background

At present, along with the improvement of the living standard of people, people pay more and more attention to the health of the people, various body-building equipment is developed and marketed along with the improvement, and Chinese patent number 201820581735.1 discloses a climbing body-building device so as to realize indoor simulation of climbing body-building exercise, mainly adopts handles and pedals which are arranged on two sides of a frame and can be lifted, and realizes synchronous and reverse movement of the handles and the pedals on two sides through chain wheel assemblies. Thus, the feet of the sporter trample on the pedal plate, and the sporter can simulate rock climbing by holding the handle. However, in the practical use process, the contact friction between the chain and the sprocket can generate loud noise after long-term use, so that the user experience is affected. How to design a climbing body-building device with low using noise to improve the experience of a sporter is the technical problem to be solved by the invention.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: the utility model provides a climbing machine realizes reducing the operation noise of climbing machine to improve sporter's experience nature.

The technical scheme includes that the climbing machine comprises a frame, a damper, a synchronous assembly and two body-building modules, wherein the damper is arranged on the frame and is provided with a power input shaft, the synchronous assembly comprises a synchronous gear, a synchronous belt and two belt pressing wheels, the synchronous belt is wound on the synchronous gear, the synchronous gear is arranged on the power input shaft, the belt pressing wheels are distributed on two sides of the synchronous gear and are rotatably arranged on the frame, and the belt pressing wheels are pressed on the outer sides of the synchronous belt on corresponding sides; the two body building modules are distributed on two sides of the frame, each body building module comprises a climbing mechanism and a sliding guide mechanism used for guiding the climbing mechanism to reciprocate up and down, each climbing mechanism comprises a handle, a pedal and a connecting frame, the handles and the pedals are respectively arranged on the connecting frames, one end part of each synchronous belt is connected with one connecting frame, and the other end part of each synchronous belt is connected with the other connecting frame.

Further, the damper and the synchronization assembly are arranged at one end part of the frame, a connection assembly is arranged at the other end part of the frame, the connection assembly comprises a guide wheel and a connection belt, the guide wheel is rotatably arranged on the frame, the connection belt is wound on the guide wheel, one end part of the connection belt is connected with one of the connection frames, and the other end part of the connection belt is connected with the other connection frame.

Further, the sliding guide mechanism comprises a guide rod and at least two guide sleeve assemblies, the guide sleeve assemblies comprise an outer sleeve, an inner sleeve, an oil storage part and two installation limiting parts, the inner sleeve is slidably arranged in the outer sleeve, lubricating oil is adsorbed in the oil storage part, the oil storage part is arranged in the outer sleeve and is positioned at the end part of the inner sleeve, the installation limiting parts are arranged at the corresponding end parts of the outer sleeve, and the inner sleeve and the oil storage part are positioned between the two installation limiting parts; the inner sleeve is sleeved on the guide rod, and the outer sleeve is arranged on the connecting frame.

Further, the sliding guide mechanism comprises two guide rods which are arranged in parallel; and each guide rod is provided with the guide sleeve assembly, and the connecting frame is positioned between the two guide rods.

Furthermore, in the two fitness modules, two guide rods positioned on the same side of the climbing mechanism are connected together through a connecting plate.

Further, the guide rod comprises an upper rod body and a lower rod body which are arranged up and down, and the guide sleeve assembly is respectively arranged on the upper rod body and the lower rod body.

Further, a shock absorbing component is arranged at the lower end part of at least one lower rod body.

Further, the oil storage part includes: an oil absorbing pad and a retainer ring; the oil absorption pad is used for absorbing lubricating oil, and the check ring is positioned at the outer side of the oil absorption pad and covers the oil absorption pad.

Further, the two ends of the outer sleeve are respectively provided with the oil storage components, and the inner sleeve is positioned between the two oil storage components.

Further, the damper is an electromagnetic damper or a friction damper.

Compared with the prior art, the invention has the advantages and positive effects that: synchronous reverse sliding of the body-building modules on two sides is realized by adopting a mode that the synchronous wheels are matched with the synchronous belt, and the synchronous belt has a good mute effect in the process of rotating the synchronous belt around the synchronous belt, so that the problem that large noise is generated due to friction when chain and chain wheel transmission is adopted can be solved, and the mute operation of the climbing machine is more facilitated, so that the experience of a sporter is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions of the prior art, the drawings that are needed in the embodiments or the description of the prior art will be briefly described below, it will be obvious that the drawings in the following description are some embodiments of the present invention, and that other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art.

FIG. 1 is a schematic diagram of an embodiment of a climbing machine of the present invention;

FIG. 2 is a schematic view of a partial assembly of an embodiment of the climbing machine of the present invention;

FIG. 3 is a schematic diagram illustrating the assembly of two exercise modules in an embodiment of the climbing machine of the present invention;

FIG. 4 is an exploded view of two exercise modules in an embodiment of the climbing machine of the present invention;

FIG. 5 is a schematic view of a slide guide mechanism in an embodiment of the climbing machine of the present invention;

FIG. 6 is a cross-sectional view of a slide guide mechanism in an embodiment of the climbing machine of the present invention;

FIG. 7 is an enlarged partial schematic view of area A of FIG. 6;

FIG. 8 is an exploded view of a guide sleeve assembly in an embodiment of the climbing machine of the present invention;

FIG. 9 is a schematic view of the inner sleeve of an embodiment of the climbing machine of the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1 to 9, the climbing machine generally comprises a frame 100, two exercise modules 200 and a synchronization assembly 300, wherein the exercise modules 200 are respectively arranged at two sides of the frame 100, the exercise modules 200 comprise a climbing mechanism 2 and a sliding guide mechanism 1 for guiding the climbing mechanism 2 to reciprocate up and down, the climbing mechanism 2 comprises a handle 21, a pedal plate 22 and a connecting frame 23, the handle 21 and the pedal plate 22 are respectively arranged on the connecting frame 23, and the connecting frame 23 can reciprocate up and down relative to the frame 100; the exercise modules 200 at both sides of the frame 100 are connected together by the synchronization assembly 300 to realize synchronous reverse sliding.

The improvement points for the climbing machine are explained at least in the following two ways. The first improvement is that a newly designed sliding guide mechanism 1 is adopted to ensure that the climbing mechanism 2 can smoothly slide back and forth; the second improvement is to use the new synchronization assembly 300 to reduce noise during movement. Both of the above improvements can be used in climbing machines alone, as described in detail below.

1. An improvement of the sliding guide mechanism 1. The slide guide mechanism 1 includes a guide rod 11 and a guide sleeve assembly 12, and the guide sleeve assembly 12 includes: an outer sleeve 121, an inner sleeve 122, an oil storage part 123, and two mounting stoppers 124; wherein the inner sleeve 122 is disposed in the outer sleeve 121 and is slidable relative to the outer sleeve 121, the oil storage member 123 is absorbed with the lubricating oil, and the oil storage member 123 is disposed in the outer sleeve 121 and is disposed at an end position of the inner sleeve 122; the mounting limiting pieces 124 are arranged at the corresponding ends of the outer sleeve 121, and the inner sleeve 122 and the oil storage part 123 are positioned between the two mounting limiting pieces 124; wherein the inner sleeve 122 is adapted to slide in the outer sleeve 121 to press the oil storage member 123 to release the lubricating oil; in addition, an inner sleeve 122 of the guide sleeve assembly 12 is sleeved on the guide rod 11. In particular, the inner sleeve 122 is typically formed of a wear resistant material (e.g., nylon, etc., without limitation) that is reciprocally movable relative to the guide rod 11. While the inner sleeve 122 is reciprocally sliding along the guide rod 11, the inner sleeve 122 is also movable relative to the outer sleeve 121, and in particular, the inner sleeve 122 will move relative to the outer sleeve as the guide sleeve assembly 12 slides along the guide rod 11 and reverses movement. Thus, during the reciprocating sliding of the guide sleeve assembly 12 over the guide rod 11, the inner sleeve 122 will also reciprocate within the outer sleeve 121 by a certain amount of travel. The reciprocating inner sleeve 122 presses the oil storage part 123 at the end position thereof, and the lubricating oil in the oil storage part 123 is extruded after the oil storage part 123 is pressed. The squeezed out lubricant lubricates the inner wall of the inner sleeve 122 to ensure smooth reciprocation of the inner sleeve 122 on the guide rod 11. Preferably, the oil storage parts 123 may be provided at both ends of the outer sleeve 121, respectively, with the inner sleeve 122 being located between the two oil storage parts 123, and the inner sleeve 122 being alternately pressed against the oil storage parts 123 at the corresponding ends during the reciprocating sliding. While the sliding direction of the inner sleeve 122 is reversed and the sliding is continued, the oil storage part 123 at the front end position along the moving direction is extruded and releases the lubricating oil, and the released lubricating oil enters the gap between the guide rod 11 and the inner sleeve 122 to perform a good lubricating function; meanwhile, the oil storage member 123 at the rear end position in the moving direction is in a relaxed state, and the oil storage member 123 at the rear end position can again collect the lubricating oil adhering to the suction guide 11. In the reciprocating process, on one hand, enough lubricating oil can be obtained for lubrication protection when the inner sleeve 122 slides forward and backward, and on the other hand, the lubricating oil released by the extruded oil storage part 123 is absorbed again by the oil storage part 123 in a loose state at the other end, so that the long-term repeated recycling of the lubricating oil is realized, and the purposes of maintaining and adding the lubricating oil at a longer time interval or avoiding maintenance and adding the lubricating oil are realized. Wherein the outer sleeve 121 and the inner sleeve 122 are clearance fit to reduce the amplitude of wobble of the inner sleeve 122 relative to the outer sleeve 121 while the inner sleeve 122 is capable of sliding in the outer sleeve 121. By adopting the clearance fit, the inner sleeve 122 can slide in the outer sleeve 121 smoothly, so that the generation of noise caused by resonance generated by unsmooth sliding can be effectively avoided, and the noise generated in the using process can be reduced more advantageously.

Further, the concrete representation entity for the oil storage part 123 may take various forms so as to be able to adsorb lubricating oil and release the lubricating oil when being pressed, for example: the oil storage part 123 includes: the oil absorbing pad 1231 and the retaining ring 1232, the oil absorbing pad 1231 is used for absorbing lubricating oil, and the retaining ring 1232 is positioned on the outer side of the oil absorbing pad 1231 and covers the oil absorbing pad 1231. Specifically, the oil absorption pad 1231 may be made of felt or foam pad, so that it has a function of absorbing lubricating oil; the retainer ring 1232 can protect the oil absorption pad 1231 at the outer side so as to meet the requirement of reliable installation, and meanwhile, the condition that lubricating oil leaks to the outside can be reduced by shielding the outer side of the oil absorption pad 1231 through the retainer ring 1232.

Wherein, in order to facilitate assembling the oil storage part 123, a stepped surface 1211 for positioning the oil storage part 123 is provided in the outer sleeve 121, and the oil suction pad 1231 is abutted against the stepped surface 1211. Specifically, the oil absorbing pad 1231 and the retainer ring 1232 are sandwiched between the step surface 1211 and the corresponding mounting limiter 124, and the step surface 1211 can function to support and position the oil absorbing pad 1231. In assembly, after the inner sleeve 122 is installed in the outer sleeve 121, the oil suction pad 1231 and the retainer 1232 are sequentially placed in the outer sleeve 121, the oil suction pad 1231 is positioned by the stepped surface 1211, and then the installation stopper 124 is installed at the port position of the outer sleeve 121. The display entity of the installation limiting member 124 may take various forms, such as a snap spring or a retainer ring with external threads. In the case of using a clamp spring, a clamping groove 1212 is correspondingly formed in the outer sleeve 121, and the clamp spring is clamped in the clamping groove 1212; in the case of a retainer ring, the port of the outer sleeve 121 is a threaded port and the retainer ring is threaded into the outer sleeve 121. Since the oil suction pad 1231 is positioned and supported by the step surface 1211, when the inner sleeve 122 presses the oil suction pad 1231 during the reciprocating movement of the inner sleeve 122, the oil suction pad 1231 is effectively supported and positioned by the step surface 1211, so that the use reliability is improved.

In addition, for the specific structural form of the oil absorbing pad 1231, a gasket structure may be adopted, or a pad structure may be adopted. The oil absorbing pad 1231 of the gasket structure is sleeved on the guide rod 11, and the oil absorbing pad 1231 of the cushion block structure is distributed around the outer circumference of the guide rod 11.

Preferably, in order to increase the contact area of the inner sleeve 122 with the oil absorbing pad 1231, a burring structure 1221 extending outward is provided at one end of the inner sleeve 122. Specifically, during the moving process, the inner sleeve 122 presses the oil suction pad 1231 at the corresponding side through the flange structure 1221, so as to effectively press out the lubricating oil in the oil suction pad 1231. In the case where the oil storage members 123 are provided at both ends of the outer sleeve 121, two inner sleeves 122 may be provided in the outer sleeve 121, the inner sleeves 122 being inserted into the outer sleeve 121 from the corresponding ports of the outer sleeve 121, respectively, and the burring 1221 of the inner sleeve 122 being located outside the step surface 1211.

Through dispose the oil storage part in guide pin bushing subassembly, the oil storage part can store lubricating oil, and in the reciprocal sliding process of inner skleeve cooperation guide arm, the inner skleeve can produce the extrusion action to the oil storage part so that oil storage part release lubricating oil, like this, alright realize the automatic lubrication in the motion process to ensure that guide pin bushing subassembly can smooth and easy slip on the guide arm, on the one hand reduce friction, on the other hand can also reduce the production of noise, more be favorable to improving user experience nature.

For the exercise module 200 in the climbing machine using the sliding guide mechanism 1, the exercise module comprises a climbing mechanism 2 and the sliding guide mechanism 1 for guiding the climbing mechanism 2 to reciprocate up and down, the sliding guide mechanism 1 comprises at least two guide sleeve assemblies, and the outer sleeve 121 is arranged on the connecting frame 23. The connecting frame 23 can be connected and fixed with the corresponding outer sleeve 121 by adopting a bolt fixing mode and the like, so that the climbing mechanism 2 can be guided by the guide sleeve assembly 12 on the corresponding side guide rod 11 to smoothly reciprocate. Wherein, in order to ensure the stable reliability of sliding, for the sliding guide mechanism 1 configured by the climbing mechanism 2, the sliding guide mechanism 1 comprises two guide rods 11 arranged in parallel with each other; each guide rod 11 is provided with a guide sleeve assembly 12, the connecting frame 23 is positioned between the two guide rods 11, and specifically, the sliding guide mechanism 1 is provided with two parallel guide rods 11 to guide the climbing mechanism 2 to reciprocate, and the two guide rods 11 can limit the climbing mechanism 2 to rotate around the axis of the guide rod 11, so that the climbing mechanism 2 can be guided to slide more stably. In the two exercise modules 200, the two guide rods 11 on the same side of the climbing mechanism 2 are connected together through the connecting plate 201, so that the exercise modules 200 on both sides of the frame 100 can be connected together through the self-sliding guide mechanism 1, and when a person performs climbing training, the guide rods 11 of the sliding guide mechanisms 11 on both sides of the frame 100 are rigidly connected together through the connecting plate 201, so that the overall structure is firmer and more reliable. Preferably, because the height dimension of the climbing machine is higher, in order to save the usage amount of materials, the guide rod 11 comprises an upper rod body 111 and a lower rod body 112 which are arranged up and down, guide sleeve assemblies 12 are respectively arranged on the upper rod body 111 and the lower rod body 112, the guide rod 11 adopts a sectional design, and the usage amount of materials can be effectively reduced, so that the manufacturing cost is reduced. In addition, the lower end portion of at least the lower rod 112 is provided with a shock absorbing member 202, specifically, the shock absorbing member 202 may be a shock absorbing spring or a shock absorbing rubber block, and the shock absorbing member 202 is generally disposed at the bottom position of the frame 100, for example, the shock absorbing spring is sleeved on the lower rod 112 and is located at the bottom position of the frame 100, and when the pedal 22 moves to the bottom position of the frame 100, the outer sleeve 121 contacts the shock absorbing spring to perform a shock absorbing and buffering process by using the shock absorbing spring.

2. Improvements to the synchronization assembly 300. Since the exercise modules 200 configured at two sides of the climbing machine need to synchronously and reversely slide in the movement process, the exercise modules are realized by the synchronous assembly 300, and the synchronous assembly 300 in the embodiment comprises a synchronous wheel 301, a synchronous belt 302 and two pinch rollers 303, wherein the synchronous wheel 301 and the two pinch rollers 303 are rotatably mounted on the frame 100, the synchronous belt 302 is wound on the synchronous wheel 301, and the pinch rollers 303 are distributed at two sides of the synchronous wheel 301 and are pressed at the outer sides of the synchronous belt 302 at the corresponding sides; one end of the timing belt 302 is connected to one of the connection frames 23, and the other end of the timing belt 302 is connected to the other connection frame 23. Specifically, the connecting frames 23 on two sides of the frame 100 are connected together through the synchronous belt 302, and in the process of exercise and fitness of a sporter, the synchronous belt 302 rotates around the synchronous wheel 301 to have a good silencing effect, so that the problem that large noise is generated due to friction when chain and sprocket transmission is adopted can be solved. The synchronization assembly 300 may be disposed at one end of the frame 100, and correspondingly, the other end of the frame 100 is provided with a connection assembly 400, the connection assembly 400 includes a guide wheel 401 and a connection belt 402, the guide wheel 401 is rotatably mounted on the frame 100, the connection belt 402 is wound on the guide wheel 401, one end of the connection belt 402 is connected with one of the connection frames 23, and the other end of the connection belt 402 is connected with the other connection frame 23. Specifically, the connecting frames 23 on two sides of the frame 100 are connected with the corresponding ends of the synchronous belt 302 and the connecting belt 402 to form an annular structure, and the two ends of the connecting frames 23 are stressed to realize better synchronous movement through the connection of the synchronous belt 302 and the connecting belt 402.

Further, in order to increase the load to achieve better fitness requirements during the exercise of the athlete, a damper 500 is further provided on the climbing machine, the damper 500 is provided with a power input shaft, and the synchronizing wheel 301 is mounted on the power input shaft to provide power to drive the damper 500 to operate. At this time, in order to ensure that the synchronizing wheel 301 can effectively provide power, the synchronizing wheel 301 adopts a synchronizing gear, and the corresponding synchronizing belt 302 adopts a toothed belt, and the synchronizing belt 302 is meshed with the synchronizing wheel 301. In this way, the reciprocating movement of the link 23 will be converted into a rotation of the synchronizing wheel 301 to effect the driving of the damper 500. The performance entity of the damper 500 may be an electromagnetic damper or a friction damper, for example, the electromagnetic damper may be a reluctance motor, and the reluctance motor may provide additional resistance for the athlete, so as to further improve the exercise effect; the reluctance motor can also generate electric power when driven to run, so that power can be conveniently supplied to power utilization components such as a display screen and the like on the climbing machine.

Synchronous reverse sliding of the body-building modules on two sides is realized by adopting a mode that the synchronous wheels are matched with the synchronous belt, and the synchronous belt has a good mute effect in the process of rotating the synchronous belt around the synchronous belt, so that the problem that large noise is generated due to friction when chain and chain wheel transmission is adopted can be solved, and the mute operation of the climbing machine is more facilitated, so that the experience of a sporter is improved.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (6)

1. The climbing machine is characterized by comprising a frame, a damper, a synchronous assembly and two body-building modules, wherein the damper is arranged on the frame and is provided with a power input shaft, the synchronous assembly comprises a synchronous gear, a synchronous belt and two belt pressing wheels, the synchronous belt is wound on the synchronous gear, the synchronous gear is arranged on the power input shaft, the belt pressing wheels are distributed on two sides of the synchronous gear and are rotatably arranged on the frame, and the belt pressing wheels are pressed on the outer sides of the synchronous belt on the corresponding sides; the two body-building modules are distributed on two sides of the frame, each body-building module comprises a climbing mechanism and a sliding guide mechanism for guiding the climbing mechanism to reciprocate up and down, each climbing mechanism comprises a handle, a pedal and a connecting frame, the handles and the pedals are respectively arranged on the connecting frames, one end part of each synchronous belt is connected with one connecting frame, and the other end part of each synchronous belt is connected with the other connecting frame;

the damper and the synchronous component are arranged at one end part of the frame, the other end part of the frame is provided with a connecting component, the connecting component comprises a guide wheel and a connecting belt, the guide wheel is rotatably arranged on the frame, the connecting belt is wound on the guide wheel, one end part of the connecting belt is connected with one connecting frame, and the other end part of the connecting belt is connected with the other connecting frame;

the sliding guide mechanism comprises a guide rod and at least two guide sleeve assemblies, the guide sleeve assemblies comprise an outer sleeve, an inner sleeve, an oil storage part and two installation limiting parts, the inner sleeve is slidably arranged in the outer sleeve, lubricating oil is adsorbed in the oil storage part, the oil storage part is arranged in the outer sleeve and is positioned at the end part of the inner sleeve, the installation limiting parts are arranged at the corresponding end parts of the outer sleeve, and the inner sleeve and the oil storage part are positioned between the two installation limiting parts; the inner sleeve is sleeved on the guide rod, and the outer sleeve is arranged on the connecting frame;

the sliding guide mechanism comprises two guide rods which are arranged in parallel; the guide sleeve assembly is arranged on each guide rod, and the connecting frame is positioned between the two guide rods;

the oil storage part includes: an oil absorbing pad and a retainer ring; the oil absorption pad is used for absorbing lubricating oil, and the check ring is positioned at the outer side of the oil absorption pad and covers the oil absorption pad.

2. The climbing machine according to claim 1, wherein two of the exercise modules are connected together by a connecting plate, the two guide bars being located on the same side of the climbing mechanism.

3. The climbing machine according to claim 1, wherein the guide bar includes an upper bar body and a lower bar body disposed up and down, the upper bar body and the lower bar body being provided with the guide sleeve assembly, respectively.

4. A climbing machine according to claim 3, wherein a lower end of at least one of the lower bars is provided with a shock absorbing member.

5. The climbing machine according to claim 1, wherein both ends of the outer sleeve are provided with the oil storage members, respectively, and the inner sleeve is located between the two oil storage members.

6. The climbing machine of claim 1, wherein the damper is an electromagnetic damper or a friction damper.