AU2023201441A1 - Training device with changeable operating direction - Google Patents

Abstract

A training device with changeable operating direction is disclosed, including a seat, which is disposed horizontally on an XY plane, with the XY plane being constituted by an X-direction and a Y-direction that are 5 perpendicular to each other; a stand, which is pivoted on the seat by a pivot shaft in a Z-direction, with the Z-direction being perpendicular to the XY plane; a vertical turntable, which is pivoted on the stand; and a first grip and a second grip, with the first grip and/or the second grip driving the vertical turntable to rotate by applied force, the stand rotating 10 relative to the seat within a rotation angle selectively against the pivot shaft, and being fixed on the seat by a securing unit after rotation. 1/10 6 4 5 9 8 24 22 26 13 21 1 x F IG.1

Description

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P/00/011 Regulation 3.2 AUSTRALIA

Patents Act 1990

COMPLETE SPECIFICATION FOR A STANDARD PATENT ORIGINAL TO BE COMPLETED BY APPLICANT

Name of Applicant: Chih-Yung HSU

Invention Title: Training device with changeable operating direction

Address for Service: A.P.T. Patent and Trade Mark Attorneys PO Box 833, Blackwood, SA 5051

The following statement is a full description of this invention, including the best method of performing it known to me/us:

TRAINING DEVICE WITH CHANGEABLE OPERATING DIRECTION BACKGROUND OF THE INVENTION

(a) Field of the Invention

The present invention relates to a training device with changeable

operating direction, and more particularly to a training device that the

position of a stand can be changed, allowing an operator to apply force

to a first grip and/or a second grip on the stand in different direction, so

as to achieve multiple training effects.

(b) Description of the PriorArt

People are now interested in exercising; they no longer only choose

outdoor exercising, but will also select indoor exercising machines.

However, most of the exercising machines, such as treadmill, bike

fitness, or elliptical trainer, can only train muscles in a lower part of body,

and cannot fully train muscles in an upper part of body.

A Taiwanese utility model patent M600638, discloses a symmetrical

vertical turntable movement device, wherein an operating space is

formed by two vertical turntables with their vertical table surfaces being

disposed opposite to each other. In addition, each vertical table surface

is provided with a grip, and the grip is disposed in the operating space, which in turn allows an operator to stand or sit in the operating space, with both hands holding the grips to train the upper part of body.

However, there must be two vertical turntables in the

abovementioned patent, and the operating space between the two

vertical turntables should be also large enough to allow the operator to

operate comfortably. Therefore, the entire size of the symmetrical

vertical turntable movement device will be too large to be put in an

ordinary home for the operator to train at home.

Furthermore, a Taiwanese utility model patent M616525, discloses a

multi-directional training device, including a seat, a stand, a spindle, a

vertical turntable, a first grip and a second grip. The seat includes a

main operating region, a first side operating region, and a second side

operating region. An operator can choose any one location among the

main operating region, the first side operating region, and the second

side operating region, to operate the first grip and/or the second grip for

training.

However, as the abovementioned seat includes the main operating

region, the first side operating region, and the second side operating

region, the area will be too large and the training device will take up too

much space. In addition, it is not convenient to transport and move the training device as well.

SUMMARY OF THE INVENTION

Accordingly, the present invention provides a training device with

changeable operating direction, comprising a seat which is disposed

horizontally on an XY plane, with the XY plane being constituted by an

X-direction and a Y-direction that are perpendicular to each other; a

stand, which is pivoted on the seat in a Z-direction by a pivot shaft, with

the Z-direction being perpendicular to the XY plane, and the stand

including a first side and a second side; a spindle, which is disposed on

the stand and is extended along a spindle axis, with the spindle axis

being parallel to the XY plane; a vertical turntable, which is pivoted on

the stand by the spindle, with the vertical turntable including a first table

surface and a second table surface that are opposite to each other; a

first grip, which is extended along a first axis parallel to the spindle axis,

with the first axis being at a distance to the spindle axis, and the first grip

being extended and connected to the spindle on the first side; and a

second grip, which is extended along a second axis parallel to the

spindle axis, with the second axis being at a distance to the spindle axis,

and the second grip being extended and connected to the spindle on the

second side. The first grip and/or the second grip drive the vertical turntable to rotate by applied force, the stand rotates relative to the seat within a rotation angle selectively against the pivot shaft and is fixed on the seat by a securing unit after rotation.

Preferably, the first axis and the second axis are disposed on far

locations of the vertical turntable diametrically.

Preferably, the first axis and the second axis are disposed on a

same axis.

Preferably, the first grip is vertically pivoted on an end of a first

connecting member, and the other end of the first connecting member is

fixed on the spindle; whereas the second grip is vertically pivoted on an

end of a second connecting member, and the other end of the second

connecting member is fixed on the spindle.

Preferably, the first connecting member is provided with a first

groove. The first groove slides with respect to the spindle axis

selectively, changing the distance between the first axis and the spindle

axis; whereas, the second connecting member is provided with a second

groove, and the second groove slides with respect to the spindle axis

selectively, changing the distance between the second axis and the

spindle axis.

Preferably, a bottom end of the stand is provided with a swivel plate, and the seat is provided with a base plate corresponding to the swivel plate. The swivel plate is pivoted on the base plate by the pivot shaft, and the swivel plate is provided at least with a guide groove on an outer periphery of the axis of the pivot shaft. The securing unit includes a limiting member, and the limiting member is disposed in the guide groove to limit the rotation of the swivel plate. The base plate is provided at least with a second threaded hole, and the limiting member includes a male thread to be screwed in the second threaded hole. The securing unit includes an handle, the handle is connected to the limiting member, and the limiting member is provided with a sleeve which is disposed in the guide groove.

Preferably, the present invention further includes a resistance unit.

The resistance unit is disposed on the stand, and the vertical turntable is

connected to the resistance unit. The resistance unit includes a first

belt, a first driven wheel, a second driven wheel, a second belt, a third

driven wheel, and a resistance wheel. The first driven wheel and the

second driven wheel are commonly fixed on a first rotation shaft, the first

rotation shaft is rotatably fixed on the stand, and the axis of the first

rotation shaft is parallel to the spindle axis. The third driven wheel and

the resistance wheel are commonly fixed on a second rotation shaft, the second rotation shaft is rotatably fixed on the stand, and the axis of the second rotation shaft is parallel to the spindle axis. The vertical turntable is connected to the first driven wheel by the first belt, and the second driven wheel is connected to the resistance wheel by the second belt.

Preferably, the seat includes a standing plate, the standing plate is

disposed on the XY plane, and is at a distance to the stand.

According to the abovementioned technical features, the present

invention preferably can achieve the following benefits:

1. In comparison with the abovementioned Taiwanese utility model

patent M616525, the seat of the present invention is only

provided with one standing plate, without a need to provide a first

side standing plate and a second side standing plate additionally.

Therefore, the entire area of the seat is small, and the training

device does not take up too much space and thus can be

transported easily.

2. The stand rotates relative to the seat and can be fixed on the

seat. Therefore, when the operator stands at a same location,

he or she only changes the direction of stand that he or she can

choose to use two hands to hold the first grip and the second grip respectively and simultaneously, rotating and applying force in a direction perpendicular to the chest with both hands to drive the vertical turntable for training; or, the operator can choose to use a single hand to hold the first grip, rotating and applying force with one hand in a direction parallel to the chest to drive the vertical turntable for training. Furthermore, the operator can also use both hands to hold the first grip, rotating and applying force with both hands in a direction parallel to the chest to drive the vertical turntable for training. Accordingly, a multi-purpose training effect can be achieved.

3. Through the resistance unit, the operator can adjust the

resistance according to his or her personal need, thereby

acquiring the training effect in a various level.

To enable a further understanding of the said objectives and the

technological methods of the invention herein, the brief description of the

drawings below is followed by the detailed description of the preferred

embodiments.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a perspective view of the present embodiment, wherein a

relative position between a stand and a seat forms a first mode.

FIG. 2 shows a perspective exploded view of a first grip, a second grip

and a vertical turntable, according to the present embodiment.

FIG. 3 shows a structural view of a swivel plate and a base plate,

according to the present embodiment.

FIG. 4 shows a perspective exploded view of a securing unit, the swivel

plate and the base plate, according to the present embodiment.

FIG. 5 is a structural view of a resistance unit according to the present

embodiment, with brackets being omitted.

FIG. 6 shows a cutaway view of a limiting member in a loose condition

by rotation, according to the present embodiment.

FIG. 7 shows a schematic view of rotating handles to loosen the limiting

member, according to the present embodiment.

FIG. 8 shows a cutaway view of the limiting member in a tightened

condition by rotation, according to the present embodiment.

FIG. 9 shows a schematic view of rotating the stand to form a second

mode, according to the present embodiment.

FIG. 10 shows a perspective schematic view of the present embodiment,

with most of the brackets being enclosed by an outer casing after the

rotation of stand, under the second mode.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

Referring to FIG. 1, FIG. 2, FIG. 3 and FIG. 4, a training device with

changeable operating direction, according to the present invention,

comprises a seat 1, a stand 2, a spindle 3, a vertical turntable 4, a first

grip 5, a second grip 6, a resistance unit 8 and a control panel 9.

The seat 1 is disposed horizontally on an XY plane, and the XY

plane is constituted by an X-direction and a Y-direction that are

perpendicular to each other. In the present embodiment, the XY plane

is a flat ground surface, and when an operator operates the present

invention, the direction in which the operator's shoulder width is

extended is the X-direction, and the direction in which the operator looks

straight forward is the Y-direction.

The stand 2 is pivoted on the seat 1 in a Z-direction, and the

Z-direction is perpendicular to the XY plane. The stand 2 is pivoted to

the seat 1 by a pivot shaft 11, and in the present embodiment, the pivot

shaft 11 is a bolt. After being pivoted, the stand 2 can rotate relative to

the seat 1. The stand 2 is provided with a first side 21 and an opposite

second side 22 in the X-direction. The stand 2 can include an outer

casing 23 (as shown in FIG. 10) to protect internal structures and

prevent from stain at a same time. To facilitate describing the structures of the present invention, the outer casing 23 is omitted in some drawings.

A bottom end of the stand 2 is provided with a swivel plate 24, and

the seat 1 is provided with a base plate 12 corresponding to the swivel

plate 24. The pivot shaft 11, in association with a gasket 111 and a

bushing 112, is screwed in a first threaded hole 120 on the base plate 12,

allowing the swivel plate 24 to be pivoted on the base plate 12. The

swivel plate 24 is provided with two arc-shaped guide grooves 25 on an

outer periphery of the axis of the pivot shaft 11, and two securing units

26 are disposed in the two guide grooves 25 correspondingly. Each

securing unit 26 includes a handle 261 and a limiting member 262; in the

present embodiment, the limiting member 262 is a screw rod. The

handle 261 is connected to the limiting member 262 to apply rotational

force to the limiting member 262. The limiting member 262 includes a

male thread 264 (as shown in FIG. 6) and passes through the guide

groove 25 to be screwed in the second threaded hole 121 on the base

plate 12, thereby limiting the rotation of the swivel plate 24. Each

limiting member 262 is sheathed with a sleeve 263 to prevent the limiting

member 262 from directly hitting the guide groove 25. The securing

unit 26 in the present embodiment is only one of many feasible securing structures, and other elements, such as bolt and nut, or element like a quick release component for a bike, are all feasible embodiments of the present invention.

The seat 1 includes a standing plate 13, and the standing plate 13 is

at a distance to the stand 2 in the Y-direction. The standing plate 13

provides for the operator to stand. After the operator stands on the

standing plate 13, the stand 2 is in front of the operator.

The spindle 3 is rotatably disposed on the stand 2 and is extended

along a spindle axis 31. The spindle axis 31 is the axis of the spindle 3,

and is parallel to the XY plane. Two ends of the spindle 3 are all

provided with a threaded hole (not shown in the drawings).

Referring to FIG. 2 and FIG. 5, the vertical turntable 4 is fixed on the

spindle 3 and rotates along with the spindle 3. The vertical turntable 4

includes a circumference 41, and a first table surface 42 and an opposite

second table surface 43 are disposed on two sides of the circumference

41. The first table surface 42 is on a same side as the first side 21;

whereas the second table surface 43 is on a same side as the second

side 22.

The first grip 5 is extended along a first axis 51, and the first axis 51

is parallel to the spindle axis 31. In addition, the first axis 51 is at a distance to the spindle axis 31 of the vertical turntable 4 radially. The first grip 5 is vertically pivoted on an end of a first connecting member 53 on the first side 21. The first connecting member 53 is parallel to the first table surface 42, and the other end of the first connecting member

53 is provided with a first groove 531. A first screwing piece 532

passes through the first groove 531 and is screwed in the threaded hole

at the end of the spindle 3, so that the first connecting member 53 can be

fixed on the spindle 3. By releasing the first screwing piece 532, sliding

the first groove 531 with respect to the first screwing piece 532, and then

re-securing the first screwing piece 532 by screwing, the distance

between the first grip 5 and the spindle 3 can be adjusted, thereby

changing the moment arm in operating the vertical turntable 4.

The second grip 6 is extended along a second axis 61, and the

second axis 61 is parallel to the spindle axis 31. In addition, the second

axis 61 is at a distance to the spindle axis 31 of the vertical turntable 4

radially. The second grip 6 is vertically pivoted on an end of a second

connecting member 63 on the second side 22. The second connecting

member 63 is parallel to the second table surface 43, and the other end

of the second connecting member 63 is provided with a second groove

631. A second screwing piece 632 passes through the second groove

631 and is screwed in the threaded hole at the end of the spindle 3, so

that the second connecting member 63 can be fixed on the spindle 3.

By releasing the second screwing piece 632, sliding the second groove

631 with respect to the second screwing piece 632, and then re-securing

the second screwing piece 632 by screwing, the distance between the

second grip 6 and the spindle 3 can be adjusted, thereby changing the

moment arm in operating the vertical turntable 4.

Preferably, as shown in FIG. 1 and FIG. 2, the first grip 5 and the

second grip 6 are at far locations of the vertical turntable 4 diametrically,

so that when the spindle axis 31 is parallel to the X-direction and the

operator holds the first grip 5 and the second grip 6 with his or her two

hands, respectively, he or she can execute an alternate cyclic action.

However, the first axis 51 of the first grip 5 and the second axis 61 of the

second grip 6 can be also on a same axis. Therefore, when the spindle

axis 31 is parallel to the X-direction and the operator holds the first grip 5

and the second grip 6 with his or her two hands, respectively, he or she

can execute a simultaneous cyclic action on the same axis with the left

or right hand.

Referring to FIG. 2 and FIG. 5, the resistance unit 8 is disposed on

the stand 2 and is connected to the vertical turntable 4. The resistance unit 8 includes a first belt 81, a first driven wheel 82, a second driven wheel 83, a second belt 84, a third driven wheel 85 and a resistance wheel 86. The first driven wheel 82 and the second driven wheel 83 are commonly fixed on a first rotation shaft 87, the first rotation shaft 87 is rotatably fixed on the stand 2, and the axis of the first rotation shaft 87 is parallel to the spindle axis 31. The third driven wheel 85 and the resistance wheel 86 are commonly fixed on a second rotation shaft 88, the second rotation shaft 88 is rotatably fixed on the stand 2, and the axis of the second rotation shaft 88 is parallel to the spindle axis 31.

The vertical turntable 4 is connected to the first driven wheel 82 by the

first belt 81, and the second driven wheel 83 is connected to the third

driven wheel 85 by the second belt 84. The source of resistance wheel

86 can be magnetic resistance, motor, friction force resistance, water

resistance, air resistance or electromagnetic brake.

Referring to FIG. 1, the control panel 9 is disposed on the stand 2

for displaying related operation messages, such as rotation speed,

resistance, predicted heat consumption and operation time of the vertical

turntable.

Referring to FIG. 1, FIG. 6, FIG. 7 and FIG. 8, to change the relative

position between the stand 2 and the seat 1, the handles 261 are first used to release the limiting member 262 by rotation (as shown in FIG. 6 and FIG. 7), such that the swivel plate 24 will no longer be abutted to the base plate 12. Next, the stand 2 is rotated to adjust the relative position between the stand 2 and the seat 1. Then, the handles 261 are used to tighten the limiting member 262 by rotation (as shown in FIG. 8), allowing the swivel plate 24 to be abutted with the base plate 12.

Therefore, the stand 2 can be fixed on the seat 1.

For ease of description, the change in position of the stand 2 is

described by a first mode and a second mode, in the present

embodiment. As shown in FIG. 1 and FIG. 2, in the first mode, the

spindle axis 31 is in the same direction as the X-direction, and the first

axis 51 of the first grip 5 as well as the second axis 61 of the second grip

6 are parallel to the direction in which the operator's shoulder width is

extended. This means that the first axis 51 and the second axis 61 are

all in the same direction as the X-direction, and the operator stands on

the standing plate 13 and faces the stand 2, with his or her two hands

holding the first grip 5 and the second grip 6, respectively, to rotate

alternately with his or her two hands, for training muscles in the hands.

At this time, the rotation resistance of the vertical turntable 4 can be

changed by adjusting the resistance of the resistance unit 8, thereby acquiring the training effect in various strength.

FIG. 9 and FIG. 10 manifest the state of second mode. In the

second mode, the spindle axis 31 is in the same direction as the

Y-direction, and the swivel plate 24 in FIG. 9 rotates by 900 against the

pivot shaft 11 following the arrow and is fixed on the base plate 12 of the

seat 1 by the securing unit 26. Under the second mode, the first axis 51

of the first grip 5 is perpendicular to the direction in which the operator's

shoulder width is extended. It means that the first axis 51 is in the

same direction as the Y-direction, the operator also stands on the

standing plate 13 and faces the stand 2. At this time, the operator can

use a single hand to hold the first grip 5, rotating the vertical turntable

(not shown in the drawings). The operator can also use both hands to

hold the first grip 5 together, rotating the vertical turntable (not shown in

the drawings). Similarly, by adjusting the resistance of the resistance

unit (not shown in the drawings), the operator can change the rotation

resistance of the vertical turntable (not shown in the drawings) to acquire

the training effect in a various level. Under the second mode, the

operator can operate with a single hand or both hands to train the

muscles in different parts of the hands, by rotating in the direction

parallel to the shoulder (i.e., the X-direction).

For the abovementioned first mode and second mode, the stand

rotates by 900 relative to the seat. However, in the present invention,

the rotation angle is not limited to 900; the rotation by an angle of smaller

than or larger than 900 is feasible according to the embodiment of the

present invention. For the rotation angle larger than 900, it can be

achieved by properly increasing the arc length of the guide groove 25 in

FIG. 4.

Referring to FIG. 1 and FIG. 2, when the operator feels that the

operating radius of the first grip 5 or the second grip 6 is too large, i.e.,

the operator's arms swing too large, the first screwing piece 532 and the

second screwing piece 632 can be loosened by rotation so that the first

connecting member 53 and the second connecting member 63 can be

moved and the first groove 531 and the second groove 631 are

movable relative to the first screwing piece 532 and the second screwing

piece 632, respectively, which in turn enables the first grip 5 and the

second grip 6 to move close to or away from the spindle axis 31, thereby

changing the operating radius of the first grip 5 or the second grip 6.

When the operator feels that the operating radius of the first grip 5 or the

second grip 6 is proper, he or she re-tightens the first screwing piece 532

and the second screwing piece 632, enabling the first grip 5 or the second grip 6 not to be loosened, which assures that the operating radius can keep constant during operation, thereby fitting a various need of the operator.

By rotating the stand 2, the relative position between the stand 2

and the seat 1 is changed, so that the operator can rotate the vertical

turntable 4 by various angles at a same location, thereby acquiring the

various training effect. In addition, the standing plate 13 will not take up

too much area and space.

The standing plate 13 can be omitted. If the seat 1 is fixed on the

ground directly by a securing element, such as bolt, the stand 2 can also

rotate on the seat 1 relatively, and the operator can operate while

standing on the ground.

The operator can freely choose to use a single hand or both hands

to operate at various angles to execute various trainings. He or she

can train both hands simultaneously, and can carry out an intensive

training to the left hand or right hand respectively, which facilitates the

operator to enhance the training to the upper body, such as shoulder,

elbow, or wrist, according to his or her personal need.

It is of course to be understood that the embodiments described

herein is merely illustrative of the principles of the invention and that a wide variety of modifications thereto may be effected by persons skilled in the art without departing from the spirit and scope of the invention as set forth in the following claims.

Claims (12)

What is claimed is:

1. A training device with changeable operating direction, comprising

a seat, which is disposed horizontally on an XY plane, with the XY

plane being constituted by an X-direction and a Y-direction;

a stand, which is pivoted on the seat by a pivot shaft in a Z-direction,

with the Z-direction being perpendicular to the XY plane, and the

stand including a first side and a second side;

a spindle, which is disposed on the stand and is extended along a

spindle axis, with the spindle axis being parallel to the XY plane;

a vertical turntable, which is pivoted on the stand by the spindle, and

includes a first table surface and an opposite second table surface;

a first grip, which is extended along a first axis, with the first axis

being parallel to the spindle axis, the first axis being at a distance to

the spindle axis, and the first grip being extended and connected to

the spindle on the first side; and

a second grip, which is extended along a second axis, with the

second axis being parallel to the spindle axis, the second axis being

at a distance to the spindle axis, and the second grip being extended

and connected to the spindle on the second side;

wherein at least one of the first grip or the second grip drives the vertical turntable by applied force, and the stand rotates relative to the seat against the pivot shaft within a rotation angle selectively and is fixed on the seat by a securing unit after rotation.

2. The training device with changeable operating direction, according

to claim 1, wherein the first axis and the second axis are disposed

on far locations of the vertical turntable diametrically.

3. The training device with changeable operating direction, according

to claim 1, wherein the first axis and the second axis are on a same

axis.

4. The training device with changeable operating direction, according

to claim 1, wherein the first grip is vertically pivoted on an end of a

first connecting member, the other end of the first connecting

member is fixed on the spindle, the second grip is vertically pivoted

on an end of a second connecting member, and the other end of the

second connecting member is fixed on the spindle.

5. The training device with changeable operating direction, according

to claim 4, wherein the first connecting member is provided with a

first groove, the first groove slides with respect to the spindle axis

selectively to change the distance between the first axis and the

spindle axis, the second connecting member is provided with a second groove, and the second groove slides with respect to the spindle axis selectively to change the distance between the second axis and the spindle axis.

6. The training device with changeable operating direction, according

to claim 1, wherein a bottom end of the stand is provided with a

swivel plate, the seat is provided with a base plate corresponding to

the swivel plate, the swivel plate is pivoted on the base plate by the

pivot shaft, the swivel plate is provided with at least one guide

groove on the outer periphery of the axis of the pivot shaft, the

securing unit includes a limiting member, and the limiting member is

disposed in the guide groove to limit the rotation of the swivel plate.

7. The training device with changeable operating direction, according

to claim 6, wherein the base plate is provided with a second

threaded hole, and the limiting member includes a male thread to be

screwed in the second threaded hole.

8. The training device with changeable operating direction, according

to claim 7, wherein the securing unit includes an handle which is

connected to the limiting member.

9. The training device with changeable operating direction, according

to claim 7, wherein the limiting member is sheathed with a sleeve which is disposed in the guide groove.

10. The training device with changeable operating direction, according

to claim 1, further comprising a resistance unit, with the resistance

unit being disposed on the stand, and the vertical turntable being

connected to the resistance unit.

11. The training device with changeable operating direction, according

to claim 10, wherein the resistance unit includes a first belt, a first

driven wheel, a second driven wheel, a second belt, a third driven

wheel and a resistance wheel, with the first driven wheel and the

second driven wheel commonly being fixed on a first rotation shaft,

the first rotation shaft being rotatably fixed on the stand, the axis of

the first rotation shaft being parallel to the spindle axis, the third

driven wheel and the resistance wheel commonly being fixed on a

second rotation shaft, the second rotation shaft being rotatably fixed

on the stand, the axis of the second rotation shaft being parallel to

the spindle axis, the vertical turntable being connected to the first

driven wheel by the first belt, and the second driven wheel being

connected to the resistance wheel by the second belt.

12. The training device with changeable operating direction, according

to claim 1, wherein the seat includes a standing plate, the standing plate is disposed on the XY plane, and the standing plate is at a distance to the stand.