CN112295163A

CN112295163A - Running machine

Info

Publication number: CN112295163A
Application number: CN202011005995.2A
Authority: CN
Inventors: 叶光明
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-17
Filing date: 2020-09-17
Publication date: 2021-02-02

Abstract

The invention relates to a damping treadmill, wherein a motor is fixed in front of a front roller and connected on a front cross beam of a running platform, a running plate is connected with a running platform cross beam, two ends of the running platform cross beam are connected with a running platform side beam, the running platform side beam is connected with two ends of a front roller shaft core and a rear roller shaft core, the running platform side beam and a chassis side beam are connected with a running platform chassis connecting element through the running platform, the chassis side beam is fixedly connected with a bottom layer side beam, the bottom layer side beam is fixedly connected with the bottom layer cross beam, the running platform and the running platform chassis connecting element are in middle and the running platform side beam are in lower sequential connection, a foot-falling running platform and running platform chassis connecting element is stressed to be downwards elastically compressed, a linkage running platform is stressed to be downwards unloaded and damped, when the foot is lifted upwards, the gravity disappears, the running platform and the running platform chassis connecting element are elastically restored, and the running platform is linked to move upwards to the original position.

Description

Running machine

Technical Field

The invention relates to the field of fitness equipment, in particular to a running machine.

Background

The treadmill is a common fitness apparatus in families and gymnasiums, but due to the particularity of the treadmill, large pressure can be applied to soles and knees when the treadmill runs; people like the treadmill with the shock absorption function and the optimized comfortable running function, so that the treadmill with the good shock absorption effect is invented.

Disclosure of Invention

The invention provides a shock-absorbing treadmill, which comprises a control panel, a running platform underframe, a running platform and running platform underframe connecting element, wherein a running platform assembly comprises a running plate, a motor, a transmission belt, a front roller, a rear roller, a running belt, a running platform side beam and a running platform crossbeam, the running platform underframe assembly comprises a underframe side beam, a bottom layer side beam and a bottom layer crossbeam, the length and the width of the running platform are smaller than that of the running platform underframe, optional elements of the running platform and running platform underframe connecting element comprise a spring, a gas spring, an electric push rod and an electric hydraulic push rod, the motor is fixed in front of the front roller and connected to the running platform crossbeam, the motor can also be fixedly connected to the running platform crossbeam below the running plate, the transmission belt is connected with the front roller, run the board with run a crossbeam fixed connection, run the board also can with run a curb girder fixed connection, run a crossbeam both ends and both sides run a curb girder fixed connection, both sides run a curb girder with preceding cylinder back cylinder axle core both ends fixed connection, run a curb girder with run a platform and run a chassis connecting element and be connected, the chassis curb girder with run a platform and run a chassis connecting element and be connected, consequently run a platform with run a chassis and pass through run a platform and be connected with a running chassis connecting element, the chassis curb girder with bottom curb girder fixed connection, the bottom curb girder with bottom crossbeam fixed connection.

When the side beam of the base frame is sequentially connected with the upper running table, the running table and the running table base frame connecting element in the middle and the running table side beam at the lower part, the spring and the gas spring are selected as the optional elements of the running table and the running table base frame connecting element, the running machine is started, the motor drives the transmission belt to drive the front roller, and then the running belt is driven by the front roller. When running, the gravity presses downwards to the running platform when feet fall down and then is conducted to the connecting point of the running platform side beam and the connecting element of the running platform and the running platform chassis or the bearing to be stressed, the downward gravity is further conducted to the connecting element of the running platform and the running platform chassis, the connecting element of the running platform and the running platform chassis is stressed downwards and elastically stretched, the running platform is linked to be stressed downwards, the stress is unloaded downwards to damp, the running platform and the running platform chassis are elastically retracted and restored when the feet are lifted upwards, the running platform is linked to be upwards reset to the original position before no stress, the stress of the running platform when the feet fall down is downwards and backwards, and the stress of the running platform when the feet are lifted upwards is forwards and upwards reset.

When the running platform side beam is arranged at the upper part, the running platform is connected with the running platform chassis connecting element in the middle part and the chassis side beam is arranged at the lower part in sequence, the optional elements of the running platform and the running platform chassis connecting element comprise the spring, the gas spring, the electric push rod and the electric hydraulic push rod, and when the running platform and the running platform chassis connecting element is the electric push rod and the electric hydraulic push rod, the electric wire and the signal wire of the electric hydraulic push rod and the control panel are connected and control the thrust. The motor of the treadmill is started to drive the transmission belt to drive the front roller, and then the front roller drives the running belt. When running, gravity presses downwards to the running platform when one foot falls down and then is conducted to the running platform side beam and the connecting point of the running platform and the running platform chassis connecting element or the bearing is stressed, the downward gravity is further conducted to the running platform and the running platform chassis connecting element, the running platform and the running platform chassis connecting element are stressed to be downwards elastically compressed, the running platform is linked to be downwards unloaded and damped, the gravity disappears pressure when the foot is lifted upwards to reduce the elastic recovery of the running platform and the running platform chassis connecting element, the running platform is linked to be upwards reset to the original position before no stress, the stress of the running platform when the foot falls down is downwards and backwards, and the stress of the running platform when the foot is lifted upwards is forwards and upwards reset.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

FIG. 1 provides a side view of a treadmill with an armrest according to one embodiment of the present application.

FIG. 2 is a side view of a treadmill with an armrest according to one embodiment of the present application.

FIG. 3 is a side view of a treadmill with an armrest according to one embodiment of the present application.

Fig. 4 is a schematic view of a spring protection sleeve and a spring of a connecting element of a running table and a running table chassis according to an embodiment of the present application.

FIG. 5 is a side view of an armless treadmill according to one embodiment of the present application.

Detailed Description

The invention will be further described with reference to specific examples, but the scope of the invention is not limited thereto

An embodiment of the present application is described with reference to fig. 1: FIG. 1 shows the running machine 100, wherein the motor 3 is fixed and connected to the running cross beam 5 in front of the front roller 4, the motor 3 is connected to the driving belt 6 and connected to the front roller 4, the running board 18 is fixedly connected to the running cross beam 17, two ends of the running cross beam 5 are fixedly connected to the running side beams 7, two ends of the running cross beam 17 are fixedly connected to the running side beams 7, two ends of the running side beams 7 are fixedly connected to two ends of the front roller 4 shaft core and two ends of the rear roller 8 shaft core, the running side beams 7 and the running table are connected to the running table chassis connecting element springs 9, the running table and running table chassis connecting element springs 9 are connected to the running table side beams 7 and the running table side beams 11, the running table side beams 11 and the bottom layer side beams 20 are fixedly connected to each other through the front and rear side small upright columns 15, the bottom side beams 20 are fixedly connected with the bottom cross beams.

The control board 2 starts the running machine, the motor 3 drives the transmission belt 6 to drive the front roller 4, and then the front roller 4 drives the running belt 19. When running, when one foot falls down, gravity presses downwards to the running platform 12 and then is conducted to the running platform side beam 7 and the connecting point of the running platform and the running platform chassis connecting element 9 or the bearing is stressed, the downward gravity is further conducted to the running platform and the running platform chassis connecting element 9, the running platform and the running platform chassis connecting element 9 is stressed to stretch downwards, the force is removed and the shock is absorbed, the running platform 12 is linked to be stressed downwards, when the foot is lifted upwards, the gravity disappears, the pressure is reduced, the running platform and the running platform chassis connecting element 9 elastically retract and recover, the running platform 12 is linked to be upwards reset to the original position before no stress, the cycle that the foot falls down, the running platform is stressed backwards downwards, and when the foot is lifted upwards, the running platform 12 is stressed to be upwards reset is formed.

An embodiment of the present application is described with reference to fig. 2: note that in the treadmill 200 shown in FIG. 1, FIG. 2, the same parts are numbered the same, the motor 3 is fixed in front of the front roller 4 and connected to the running platform beam 5, the motor 3 is connected to the driving belt 6 and connected to the front roller 4, the running board 18 is fixedly connected to the running platform beam 17, both ends of the running platform beam 5 are fixedly connected to the running platform side beam 7, both ends of the running platform beam 17 are fixedly connected to the running platform side beam 7, both ends of the two side running platform side beams 7 and the front roller 4 shaft core, both ends of the rear roller 8 shaft core are fixedly connected, the running platform side beam 7 and the running platform are connected to the running platform chassis connecting element gas spring 10, the chassis side beam 11 and the running platform are connected to the running platform chassis connecting element gas spring 10, so that the running platform 12 and the running platform chassis 14 are connected to the running platform chassis connecting element 10 through the running platform, the underframe side beam 11 is fixedly connected with the bottom side beam 20, and the bottom side beam 20 is fixedly connected with the bottom cross beam.

The control board 2 starts the running machine, the motor 3 drives the transmission belt 6 to drive the front roller 4, and then the front roller 4 drives the running belt 19. When running, the gravity presses downwards to the running platform 12 when feet fall down and then is conducted to the connecting point of the running platform side beam 7 and the air spring 10 of the connecting element of the running platform and the running platform underframe or the bearing is stressed, the downward gravity is further conducted to the spring 10 of the connecting element of the running platform and the running platform underframe, the air spring 10 of the connecting element of the running platform and the running platform underframe is stressed to elastically contract downwards, the running platform 12 is linked to be stressed downwards, the gravity disappears pressure when the feet are lifted upwards to reduce the elastic recovery of the air spring 10 of the connecting element of the running platform and the running platform underframe, the running platform 12 is linked to be upwards reset to the original position before no stress, the cycle that the stress of the running platform is downward and backward when the feet are lifted upwards is formed.

An embodiment of the present application is described with reference to fig. 3: note that FIG. 1, FIG. 2, FIG. 3, the same parts are numbered the same, the treadmill 300 of FIG. 3, the motor 3 is fixed and connected to the treadmill cross beam 5 in front of the front roller 4, the motor 3 is connected to the front roller 4 through the driving belt 6, the treadmill 18 is fixedly connected to the treadmill cross beam 17, both ends of the treadmill cross beam 5 are fixedly connected to the treadmill side beam 7, both ends of the treadmill cross beam 17 are fixedly connected to the treadmill side beam 7, both ends of the two-sided treadmill side beam 7 and the front roller 4 shaft core, both ends of the rear roller 8 shaft core are fixedly connected, the treadmill side beam 7 and the treadmill are connected to a treadmill chassis connecting element electric push rod 16, the chassis side beam 11 and the treadmill are connected to a treadmill chassis connecting element electric push rod 16, the treadmill and treadmill chassis connecting element electric push rod 16 are connected to the treadmill side beam 7 and the chassis side beam 11, the running platform is connected with a running platform underframe connecting element and an electric push rod 16 through wires, signal wires and a control panel 2 and controls the electric push rod 16.

The control board 2 starts the running machine, the motor 3 drives the transmission belt 6 to drive the front roller 4, and then the front roller 4 drives the running belt 19. When running, one foot is pressed downwards by gravity to the running platform 12 and then conducted to the running platform side beam 7 and the connecting point of the running platform and the running platform chassis connecting element electric push rod 16 or the bearing is stressed, the downward gravity is further conducted to the running platform and the running platform chassis connecting element electric push rod 16, the running platform and the running platform chassis connecting element electric push rod 16 is stressed to contract downwards, the running platform 12 is linked to be stressed downwards, the running platform and the running platform chassis connecting element electric push rod 16 are elastically restored when the foot is lifted upwards, the running platform 12 is linked to be upwards reset to the original position before the stress is not applied, and the cycle that the foot falls, the running platform is stressed backwards downwards and the running platform 12 is stressed to be upwards reset when the foot is lifted upwards is formed.

An embodiment of the present application is described with reference to fig. 4 and 5: note that the same parts in figures 1, 2, 3 and 5 have the same reference numerals, the running platform in figure 4 and the running platform underframe are connected with a component spring, the spring is externally provided with a metal protective sleeve to ensure that the spring has good elasticity and does not deform or break due to impact force during running, the metal protective sleeve is formed by piston combination of a large sleeve and a small sleeve, the contact tail end of the large sleeve and the small sleeve is regularly convex, one end of the small sleeve can be sleeved in, the other end of the large sleeve and the small sleeve is provided with a spring hanging opening or a hanging buckle, the contact tail end of the small sleeve and the large sleeve is regularly convex and can be sleeved in the large sleeve, the other end of the small sleeve and the large sleeve is, then the small sleeve is sleeved in the large sleeve, the sleeve is rotated to be staggered, the inner convex part at the tail end of the large sleeve and the outer convex part of the small sleeve are correspondingly overlapped and are respectively connected to the side beam of the running platform and the side beam of the running frame, and the convex parts at the tail end of the large sleeve and the small sleeve are overlapped to hook up the protection spring when the spring is impacted by a large force.

FIG. 5 shows the running machine 500, wherein the motor 3 is fixed and connected to the running platform beam 5 in front of the front roller 4, the motor 3 is connected to the driving belt 6 and connected to the front roller 4, the running board 18 is fixedly connected to the running platform beam 17, two ends of the running platform beam 5 are fixedly connected to the running platform beam 7, two ends of the running platform beam 17 are fixedly connected to the running platform beam 7, two ends of the running platform beam 7 and two ends of the front roller 4 core, two ends of the rear roller 8 core are fixedly connected, the running platform beam 7 and the running platform and running platform chassis connecting element are connected by metal protective sleeve springs 9, the chassis beam 11 and the running platform are connected to the running platform chassis connecting element springs 9, the running platform and running platform chassis connecting element springs 9 are connected to the running platform beam 7 and the chassis beam 11, the chassis beam 11 and the bottom layer beam 20 are fixedly connected by the front and rear side small upright posts 15, the bottom side beams 20 are fixedly connected with the bottom cross beams.

The application is characterized in that in one embodiment: the running platform and the running platform underframe connecting element is the electric hydraulic push rod.

In the description herein, reference to the terms "one embodiment," "some embodiments," "an example," "a specific example" or the like, means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention, and it is not necessary for the illustrative representations of such terms to be directed to the same embodiment or example in this specification, and the particular feature, structure, material, or characteristic described may be combined in any suitable manner in any one or more embodiments or examples.

In the description of the present invention, it is to be understood that the terms "middle", "center", "upper", "lower", "left", "right", "front", "rear", "inner", "outer", and the like, indicate orientations or positional relationships based on the drawings, are only for convenience in describing the present invention or simplifying the description, and do not indicate or imply that the indicated device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the present invention, unless otherwise specifically stated or limited, the terms "mounted," "connected," "fixed," and the like are used in a broad sense, and unless otherwise specifically stated or limited, they may be connected, either fixedly, detachably, or integrally, mechanically, electrically, or mutually communicable, directly, or indirectly through an intermediate medium, or connected internally or in mutual relationship between two elements, and unless otherwise specifically stated or limited, those skilled in the art will understand the specific meaning of the above terms in the present invention as per the specific situation.

The foregoing shows and describes the general principles, features and advantages of the present invention. Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are illustrative and not restrictive, and that various changes, modifications, substitutions and alterations in the embodiments without departing from the scope of the invention may be made by those skilled in the art without departing from the scope of the invention.

Claims

1. The utility model provides a shock attenuation treadmill which characterized by: the invention relates to a damping treadmill, which comprises a control panel, a running platform underframe, connecting elements of the running platform and the running platform underframe, wherein a running platform assembly comprises a running plate, a motor, a transmission belt, a front roller, a rear roller, a running belt, a running platform side beam and a running platform cross beam, the running platform underframe assembly comprises an underframe side beam, a bottom layer side beam and a bottom layer cross beam, and optional elements of the connecting elements of the running platform and the running platform underframe comprise a spring, an air spring, an electric push rod and an electric hydraulic push rod. Two sides run a platform curb girder with preceding cylinder back cylinder axle core both ends fixed connection, run a platform curb girder with run the platform and be connected with running a platform chassis connecting element, the chassis curb girder with run the platform and be connected with running a platform chassis connecting element, consequently run the platform with run a platform chassis and pass through run the platform and be connected with running a platform chassis connecting element, the chassis curb girder with bottom curb girder fixed connection, the bottom curb girder with bottom crossbeam fixed connection.

When the side beam of the base frame is sequentially connected with the upper running table, the running table and the running table base frame connecting element in the middle and the running table side beam at the lower part, the spring and the gas spring are selected as the optional elements of the running table and the running table base frame connecting element, the running machine is started, the motor drives the transmission belt to drive the front roller, and then the running belt is driven by the front roller. When running, the gravity presses downwards to the running platform when feet fall down and then is transmitted to the connecting point of the running platform side beam and the running platform and running platform chassis connecting element or the bearing to be stressed, the downward gravity is further transmitted to the running platform and running platform chassis connecting element, the running platform and running platform chassis connecting element is stressed downwards and elastically stretched to link the running platform stressed downwards, the force is unloaded downwards to damp, the pressure is reduced when the feet rise upwards, the running platform and running platform chassis connecting element elastically retracts back to recover, the running platform is linked to upwards reset to the original position before no stress, and the cycle that the feet fall down, the running platform is stressed downwards and backwards, and the running platform is stressed forwards and upwards reset when the feet rise upwards is formed.

2. The cushioning treadmill of claim 1, wherein: when the running platform side beam is arranged at the upper part, the running platform is connected with the running platform chassis connecting element in the middle part and the chassis side beam is arranged at the lower part in sequence, the optional elements of the running platform and the running platform chassis connecting element comprise the spring, the gas spring, the electric push rod and the electric hydraulic push rod, and when the running platform and the running platform chassis connecting element is the electric push rod and the electric hydraulic push rod, the electric wire and the signal wire of the electric hydraulic push rod and the control panel are connected and control the thrust. The motor of the treadmill is started to drive the transmission belt to drive the front roller, and then the front roller drives the running belt. When running, gravity presses downwards to the running platform when one foot falls down and then is conducted to the running platform side beam and the connecting point of the running platform and the running platform chassis connecting element or the bearing is stressed, the downward gravity is further conducted to the running platform and the running platform chassis connecting element, the running platform and the running platform chassis connecting element is stressed to be downwards elastically compressed, the running platform is linked to unload force downwards and absorb shock, the gravity vanishing pressure is reduced when the foot is lifted upwards, the running platform and the running platform chassis connecting element are elastically restored, the running platform is linked to upwards reset to the original position before no stress, and the cycle that the foot falls, the running platform is stressed backwards downwards and the running platform is stressed forwards and upwards reset when the foot is lifted upwards is formed.

3. The vibration-damping treadmill of claims 1 and 2, wherein: run a platform subassembly include run the board run motor, driving belt front roller the rear roller run the area run the platform curb girder run the platform crossbeam, the motor is in front roller the place ahead is fixed and is connected run also can be in on the platform crossbeam run under the board fixed connection run on the platform crossbeam, the motor is connected the belt is connected front roller, run the board with run platform crossbeam fixed connection, run platform crossbeam both ends with run platform curb girder fixed connection, run platform curb girder on both sides with front roller the rear roller axle core both ends fixed connection.

4. The vibration-damping treadmill of claims 1, 2, and 3, wherein: the running platform side beam and the running platform are connected with a running platform underframe connecting element, the running platform is connected with a running platform underframe connecting element and the underframe side beam, and the optional elements of the running platform and the running platform underframe connecting element comprise the spring, the gas spring, the electric push rod and the electric hydraulic push rod.

5. The treadmill of claims 1, 2, 3, and 4, wherein the treadmill further comprises: the running platform and running platform underframe connecting element is connected with the running platform and the running platform underframe.

6. The vibration-damped treadmill of claims 1, 2, 3, 4, and 5, wherein: the running platform underframe assembly comprises underframe side beams, bottom side beams and bottom cross beams, wherein the underframe side beams are fixedly connected with the bottom side beams, and the bottom side beams are fixedly connected with the bottom cross beams.

7. The vibration-damping treadmill of claims 1, 2, and 4, wherein: the running platform and the running platform underframe are connected with a component spring, the spring is externally provided with a metal protective sleeve, so that the spring has good elasticity and is not deformed or broken due to impact force when running, the metal protective sleeve is formed by piston combination of a large sleeve and a small sleeve, the contact tail end of the large sleeve and the small sleeve is regularly convex inwards, one end of the small sleeve can be sleeved in, the other end of the large sleeve is provided with a spring hanging opening or a hanging buckle, the contact tail end of the small sleeve and the large sleeve is regularly convex outwards and can be sleeved in the large sleeve, the other end of the small sleeve is provided with the spring hanging opening or the hanging buckle, the small sleeve and the large sleeve hang the spring, then the small sleeve is sleeved in the large sleeve and is rotated to be dislocated, the convex part at the tail end of the large sleeve and the convex part of the small sleeve are correspondingly overlapped and are respectively connected to the running platform side. The metal protective sleeve can also be used for other springs needing to be protected.

8. The treadmill of claims 1, 2, 3, 4, 5, 6, and 7, wherein the treadmill further comprises: when running, the gravity presses downwards to the running platform when feet fall down and then is transmitted to the connecting point of the running platform side beam and the running platform and running platform chassis connecting element or the bearing to be stressed, the downward gravity is further transmitted to the running platform and running platform chassis connecting element, the running platform and running platform chassis connecting element is stressed to be elastically stretched or elastically retracted downwards, the running platform is linked to be stressed to unload force downwards and absorb shock, the gravity disappears pressure when the feet are lifted upwards, the running platform and running platform chassis connecting element is reduced to be elastically restored, and the running platform is linked to be upwards reset to the original position before no stress exists.