CN2907770Y - Bishaft linkaged exercise device - Google Patents

Abstract

A dual-shaft linkage type sport device comprises a base, which is provided and fixed with a supporting board; a driving device, which is a moter integrated and fixed to the base and the moter connects and drives two rotary shafts which are integrated to the supporting board in V shape, each of the two rotary shafts stretches out a rotary arm, the ends of the two arms respectively are arranged pivotally with a gudgeon, each gudgeon combines with a cross shaft on the top; and a bearing board, the bottom of which is integrated to the two cross shafts of the driving device with one cross shaft being connected slidably to the bearing board. The utility model can effectively make the supporting board do complicated and changeable motions such as swinging, twisting, moving, hoisting etc, thereby the utility model renders efficiently the sport equipment with a favorable sport interest and excellent body-building effect.

Description

Twin shaft linkage type telecontrol equipment

Technical field

The utility model relates to a kind of health and fitness facilities, relates in particular to and a kind ofly can have beat simultaneously concurrently, reverses, moves and twin shaft linkage type telecontrol equipment that lifting changes.

Background technology

The kind of at present commercially available sports equipment is quite various, for example: exercycle, treadmill, treadmills, boating device and surfing type locomotory apparatus etc., these sports equipments generally all are to utilize mechanical realization and interlock rod member to simulate actual motion state, allow the user take exercises the usefulness of each position muscle to reach.And sports equipment design is very corrupt, depends primarily on the authenticity and the variability of simulation.

Surfing type locomotory apparatus shown in No. 300460 " surfing type sport and body-building device " of TaiWan, China patent announcement, No. 353971 " surfing exerciser ", No. 382276 " surfing utensil " and No. 547099 patent cases such as " space surfing mechanisms " at present, simulate surfing though utilize complicated connecting rod and crank to construct, but existing these surfing type sports equipments, ubiquity are formed complex structure, cost is high and the bulky problem that takes up room.And all can only provide and move the simple motion variation that reaches lifting, in the time of can't simulating real surfing, surfboard can produce beat along with wave, reverse, moves various complicated and diversified variation effects such as reaching lifting, cause because manipulate too dull and lack interesting and be difficult to attract the body-building of user's persistent movement, and be difficult to make the user to reach suitable motion exercise effect, still can't satisfy consumer's user demand.

The utility model content

Technical problem underlying to be solved in the utility model is, the action that overcomes existing surfing type sports equipment existence too simply lacks the defective that changes and be difficult to reach the appropriate exercise train on, and provide a kind of twin shaft linkage type telecontrol equipment, it can allow loading plate produce beat circulatingly, reverse, move and the complicated motion effect that changes such as lifting effectively, and it is interesting and excellent exercise effect is provided to allow telecontrol equipment possess good motion effectively.

The technical scheme that its technical problem that solves the utility model adopts is:

A kind of twin shaft linkage type telecontrol equipment is characterized in that, comprising: a pedestal is installed with a frame plate; One drive unit, it is to be provided with a motor that is consolidated in this pedestal, and this motor links simultaneously and drives the rotating shaft that two V-shaped configurations are incorporated into this frame plate, and each fixed stretching of this two rotating shaft sets out a spiral arm, the end of each spiral arm respectively is pivoted and is combined with a jack-post, and the top of this two jack-post respectively is combined with a transverse axis; One loading plate, its bottom is to combine with two transverse axis of this drive unit, wherein is to be connected with form slidably between this transverse axis and this loading plate.

Aforesaid twin shaft linkage type telecontrol equipment is characterized in that described motor is installed with a worm screw at motor drive shaft, and this worm engaging driving two is fixedly arranged on the worm gear of described two rotating shafts respectively.

Aforesaid twin shaft linkage type telecontrol equipment, its medium frame plate are to be made as the form that both sides form the inclined-plane, and the bottom of described two rotating shafts is to be resisted against described pedestal, respectively utilize an axle bed to run through on the inclined-plane that is incorporated into these frame plate both sides with rotatable form; Wherein said spiral arm is to set out to stretch perpendicular to the form of described rotating shaft axle body, respectively is installed with one in the end of each spiral arm and is the axle sleeve that the inclination form is provided with corresponding rotating shaft, and described jack-post is to be pivoted to be incorporated into corresponding axle sleeve.

It is the supporting plate at center on the inclined-plane of both sides with described axle bed that aforesaid twin shaft linkage type telecontrol equipment, its medium frame plate respectively are provided with one, and respectively is provided with a support wheel that is resisted against corresponding supporting plate in the bottom of described two spiral arms.

Aforesaid twin shaft linkage type telecontrol equipment, wherein spiral arm is to set out to stretch perpendicular to the form of described rotating shaft axle body, and the end of each spiral arm respectively is installed with one and is the axle sleeve that the inclination form is provided with corresponding rotating shaft, and described jack-post is to be pivoted to be incorporated into corresponding axle sleeve.

Aforesaid twin shaft linkage type telecontrol equipment, wherein loading plate is provided with a plate body, the bottom surface spaced and parallel of this plate body is installed with two side levers, the relative inner of a wherein end of this two side lever respectively is installed with a slide rail, the two ends of the described transverse axis of one of them of described drive unit respectively are provided with one and are incorporated into the roller of corresponding slide rail with form slidably, and allow another described transverse axis be hubbed between two side levers.

Aforesaid twin shaft linkage type telecontrol equipment, wherein pedestal is to comprise that the cross bar of two parallel interval settings and a winding are fixedly arranged on the seat bar between two cross bars, the central part spaced and parallel of this bar is provided with two columns, described frame plate is the top that cross-over connection is fixedly arranged on two columns, one end of described two cross bar equidirectionals, cross-over connection is installed with an arm-rest frame.

Aforesaid twin shaft linkage type telecontrol equipment, wherein two columns are installed with a board in a side of equidirectional.

Aforesaid twin shaft linkage type telecontrol equipment, wherein pedestal comprises that the cross bar of two parallel interval settings and a winding are fixedly arranged on the seat bar between two cross bars, the central part spaced and parallel of this bar is provided with two columns, described frame plate is the top that cross-over connection is fixedly arranged on two columns, and in an end of described two cross bar equidirectionals, cross-over connection is installed with an arm-rest frame.

Aforesaid twin shaft linkage type telecontrol equipment, its medium frame plate respectively is provided with a supporting plate at the periphery of described two rotating shafts, and the bottom of described two spiral arms respectively is provided with a support wheel that is resisted against corresponding supporting plate.

Advantage that the utility model can obtain and effect:

1, the utility model utilizes the innovative design of V-arrangement twin shaft interlock loading plate, can allow loading plate produce and have beat simultaneously concurrently, reverse, move complicated and diversified action variations such as reaching lifting circularly, can carry out the muscle strength at each position such as balance training and exercise hand, waist, shank, foot effectively simultaneously, allow telecontrol equipment can produce excellent sport and body-building effect.

2, the utility model has beat concurrently, reverses, moves complicated and diversified action variations such as reaching lifting, simulate the true aspect of surfing realistically, not only increase the interest of telecontrol equipment significantly, effectively avoid the user to feel to be bored, and can allow the user practise and experience the peculair motion pattern of surfing, have practicality.

Description of drawings

Below in conjunction with drawings and Examples the utility model is further specified.

Fig. 1 is the three-dimensional appearance schematic diagram of the utility model first preferred embodiment.

Fig. 2 is the combination schematic perspective view of the utility model first preferred embodiment major part.

Fig. 3 is the decomposition texture schematic diagram of the utility model first preferred embodiment major part.

Fig. 4 is the combination section of the utility model first preferred embodiment major part.

Fig. 5 is the action schematic diagram () of the utility model first preferred embodiment.

Fig. 6 is the action schematic diagram (two) of the utility model first preferred embodiment.

Fig. 7 is the action schematic diagram (three) of the utility model first preferred embodiment.

Fig. 8 is the combination perspective view of the utility model second preferred embodiment major part.

Fig. 9 is the combination section of the utility model second preferred embodiment major part.

The number in the figure explanation:

10 pedestals, 11 cross bars

12 bar 13 columns

14 frame plates, 141 supporting plates

15 boards, 16 arm-rest frames

20 drive units, 21 motors

22 worm screw 23A, 23B worm gear

24A, 24B rotating shaft

241 axle beds, 242 spiral arms

243 axle sleeves, 244 jack-posts

245,246 transverse axis

247 bolts, 248 rollers

249 support wheels

30 loading plates, 31 plate bodys

32 side levers, 321 pivot holes

33 slide rails, 331 conduits

40 control device, 41 control circuit boards

42 leads, 43 control instruments

The specific embodiment

First preferred embodiment as shown in Figure 1 to Figure 3, comprise that a pedestal 10, installs the loading plate 30 that the drive unit 20, that is incorporated into pedestal 10 is assembled in drive unit 20 tops and driven by drive unit 20, and a control device 40 in order to control drive unit 20;

Wherein:

This pedestal 10 is that a support body that can firmly be placed in ground is constructed, the pedestal 10 of embodiment is to be made as I-shaped support body form as shown in the figure, comprise the cross bar 11 that two parallel interval are provided with, and be fixedly arranged between two cross bars 11 with bar 12 windings, upright two columns 13 that are provided with of the middle part spaced and parallel of present bar 12, the top cross-over connection of two columns 13 is installed with the frame plate 14 that both sides form the inclined-plane form, is mounted between two columns 13 and frame plate 14 places so as to drive unit 20 is installed.Moreover, be installed with the board 15 of a usefulness in a side of two columns, 13 equidirectionals for these control device 40 assemblings, and an end of two cross bars, 12 equidirectionals, cross-over connection is installed with the arm-rest frame 16 that without exception is ㄇ shape.

This drive unit 20 is to be provided with a motor 21, this motor 21 is to be installed in two columns 13 away from the side that board 15 is set, the motor drive shaft of this motor 21 stretches between two columns 13 and is installed with a worm screw 22, between these worm screw 22 both sides and two columns 13, be respectively equipped with a worm gear 23A who is meshed and driven by worm screw 22 with worm screw 22,23B, two worm gear 23A, 23B utilizes key piece cover to be fixedly arranged on a rotating shaft 24A respectively, on the axle body of 24B (as shown in Figure 4), two rotating shaft 24A, the bottom of 24B is the seat bar 12 that is resisted against pedestal 10, and utilize an axle bed 241 to run through the inclined-plane, both sides that is incorporated into frame plate 14 respectively with rotatable type, allow two rotating shaft 24A, the 24B attitude setting that is in the shape of the letter V.

Brought forward is described, top at two rotating shaft 24A, 24B sets out a spiral arm 242 with each fixed the stretching of form that is approximately perpendicular to axle body, the free end of each spiral arm 242 respectively is installed with one and is the tubular axle sleeve 243 that the inclination form is provided with corresponding rotating shaft 24A, 24B, the shaft core position of each axle sleeve 243 each in conjunction with being provided with a jack-post 244, the top of each jack-post 244 respectively set firmly be combined with one with the perpendicular transverse axis 245,246 of jack-post 244.Wherein respectively be provided with a screw, can supply a bolt 247 screw lock combinations respectively, respectively be provided with a roller 248 in the end at second transverse axis, 246 two ends in the end at first transverse axis, 245 two ends.

This loading plate 30 is provided with the rectangle plate body 31 that an end angle is modified into arc angle, the bottom surface spaced and parallel of plate body 31 is installed with two side levers 32, near two parallel side levers 32 wherein the shaft of a corresponding end respectively run through and be provided with a pivot hole 321, and utilize the screw lock of two bolts 247 to fix, the two ends of first transverse axis 245 of drive unit 20 are hubbed at 321 places, pivot hole of two side levers 32, in the relative inner of two parallel side levers 32 away from the end that pivot hole 321 is set, respectively be installed with a slide rail 33 accordingly, and roller 248 with second transverse axis, 246 two ends of drive unit 20, be embedded in the conduit 331 of corresponding slide rail 33 with form slidably, allow loading plate 30 can cooperate the driving of drive unit 20 and produce exercises and change.

Can also add control circuit board 41, this control circuit board 41 that a control device 40 is provided with tool interlock circuit structure in the utility model and be and be fixedly arranged on the set board 15 of pedestal 10, and be connected in the motor 21 of drive unit 20 with relevant circuit, this control circuit board 41 is located at the control instrument 43 of arm-rest frame 16 center of top positions again with a lead 42 connections one, allow the user set action variation, responsiveness and run duration etc., and relevant data can be clearly illustrated out by control instrument 43;

So, utilize aforesaid pedestal 10, drive unit 20, loading plate 30 and control device 40, group constitutes the twin shaft linkage type telecontrol equipment shown in each drawing.

See also Fig. 1, Fig. 4, Fig. 5, shown in Figure 6, the utility model is by worm screw 22 transmissions two worm gear 23A, the design of 23B and frame plate 14, dexterously with two rotating shaft 24A, 24B is set as the V-arrangement configuration of upwards gradually opening, cooperate and be fixedly arranged on rotating shaft 24A, the spiral arm 242 on 24B top, and respectively to be pivoted and sliding establish form and be incorporated into first of loading plate 30 bottoms, two transverse axis 245,246, allow motor 21 by worm screw 22 transmissions two rotating shaft 24A, when 24B rotates, can allow loading plate 31 produce beat circularly, reverse, moving complicated and diversified actions such as reaching lifting changes, simulate the true aspect of surfing realistically, not only can allow the user in exercise, experience motor pattern in the surfing, and can carry out balance training effectively and temper hand, waist, shank, the muscle strength at each position such as foot, dark tool practicality.

See also Fig. 8, second preferred embodiment shown in Figure 9, be smoothness, durability and rotating shaft 24A, the 24B of further reinforcement the utility model running and the support steadiness of spiral arm 242, the utility model is the center with two axle beds 241 respectively, respectively be provided with the supporting plate 141 of a rounded plate body form at the both sides oblique top face of pedestal 10 set frame plates 14, and correspond to the appropriate location of each supporting plate 141 in two spiral arms, 242 bottoms, respectively be provided with one and can support and be resisted against the support wheel 249 of supporting plate 141 near marginal position.Embodiment is the bottom of support wheel 249 being located at position, spiral arm 242 stage casing as shown in the figure.

So, utilize the supplemental support effect of support wheel 249, not only can significantly reduce the shearing action of rotating shaft 24A, 24B and spiral arm 242 connecting portions, strengthen the support steadiness of spiral arm 242 and avoid rotating shaft 24A, 24B to occur bending and deformation, and can allow the running of the drive unit 20 more steady and smooth that becomes.

The above, it only is preferred embodiment of the present utility model, be not that the utility model is done any pro forma restriction, every foundation technical spirit of the present utility model all still belongs in the scope of technical solutions of the utility model any simple modification, equivalent variations and modification that above embodiment did.

Claims (10)

1, a kind of twin shaft linkage type telecontrol equipment is characterized in that, comprising:

One pedestal is installed with a frame plate;

One drive unit, it is to be provided with a motor that is consolidated in this pedestal, and this motor links simultaneously and drives the rotating shaft that two V-shaped configurations are incorporated into this frame plate, and each fixed stretching of this two rotating shaft sets out a spiral arm, the end of each spiral arm respectively is pivoted and is combined with a jack-post, and the top of this two jack-post respectively is combined with a transverse axis;

One loading plate, its bottom is to combine with two transverse axis of this drive unit, wherein is to be connected with form slidably between this transverse axis and this loading plate.

2, twin shaft linkage type telecontrol equipment according to claim 1 is characterized in that described motor is installed with a worm screw at motor drive shaft, and this worm engaging driving two is fixedly arranged on the worm gear of described two rotating shafts respectively.

3, twin shaft linkage type telecontrol equipment according to claim 2, it is characterized in that described frame plate is to be made as the form that both sides form the inclined-plane, the bottom of described two rotating shafts is to be resisted against described pedestal, respectively utilizes an axle bed to run through on the inclined-plane that is incorporated into these frame plate both sides with rotatable form;

Wherein said spiral arm is to set out to stretch perpendicular to the form of described rotating shaft axle body, respectively is installed with one in the end of each spiral arm and is the axle sleeve that the inclination form is provided with corresponding rotating shaft, and described jack-post is to be pivoted to be incorporated into corresponding axle sleeve.

4, twin shaft linkage type telecontrol equipment according to claim 3, it is characterized in that it is the supporting plate at center on the inclined-plane of both sides with described axle bed that described frame plate respectively is provided with one, and respectively be provided with a support wheel that is resisted against corresponding supporting plate in the bottom of described two spiral arms.

5, twin shaft linkage type telecontrol equipment according to claim 4, it is characterized in that described spiral arm is to set out to stretch perpendicular to the form of described rotating shaft axle body, the end of each spiral arm respectively is installed with one and is the axle sleeve that the inclination form is provided with corresponding rotating shaft, and described jack-post is to be pivoted to be incorporated into corresponding axle sleeve.

6, according to each described twin shaft linkage type telecontrol equipment in the claim 1 to 5, it is characterized in that described loading plate is provided with a plate body, the bottom surface spaced and parallel of this plate body is installed with two side levers, the relative inner of a wherein end of this two side lever respectively is installed with a slide rail, the two ends of the described transverse axis of one of them of described drive unit respectively are provided with one and are incorporated into the roller of corresponding slide rail with form slidably, and allow another described transverse axis be hubbed between two side levers.

7, twin shaft linkage type telecontrol equipment according to claim 6, it is characterized in that described pedestal is to comprise that the cross bar of two parallel interval settings and a winding are fixedly arranged on the seat bar between two cross bars, the central part spaced and parallel of this bar is provided with two columns, described frame plate is the top that cross-over connection is fixedly arranged on two columns, one end of described two cross bar equidirectionals, cross-over connection is installed with an arm-rest frame.

8, twin shaft linkage type telecontrol equipment according to claim 7 is characterized in that described two columns are installed with a board in a side of equidirectional.

9, according to each described twin shaft linkage type telecontrol equipment in the claim 1 to 5, it is characterized in that described pedestal comprises that the cross bar of two parallel interval settings and a winding are fixedly arranged on the seat bar between two cross bars, the central part spaced and parallel of this bar is provided with two columns, described frame plate is the top that cross-over connection is fixedly arranged on two columns, and in an end of described two cross bar equidirectionals, cross-over connection is installed with an arm-rest frame.

10, twin shaft linkage type telecontrol equipment according to claim 1 and 2 is characterized in that described frame plate respectively is provided with a supporting plate at the periphery of described two rotating shafts, and the bottom of described two spiral arms respectively is provided with a support wheel that is resisted against corresponding supporting plate.

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