CN204034221U - Push-and-pull rod-type bike riding-balance simulator - Google Patents

Abstract

The utility model relates to a kind of push-and-pull rod-type bike riding-balance simulator.This simulator comprises the bascule for placing front wheel and is positioned at the drum apparatus being used for placing bicycle rear at bascule rear; Described bascule comprises base, the sliding part be slidably connected on base, the revolving meber be rotationally connected with on sliding part, the pull bar that is fixedly connected on the fork on revolving meber and is rotationally connected with between fork and base; Described revolving meber is also provided with the stopping means horizontally slipped for restriction front wheel.This simulator not only fidelity is high, and structure is simple, low cost of manufacture.

Description

Push-and-pull rod-type bike riding-balance simulator

Technical field

The utility model relates to a kind of body-building apparatus, particularly a kind of and bicycle matching used push-and-pull rod-type bike riding-balance simulator.

Background technology

Chinese patent ZL200710121938.9 discloses a kind of bike riding-balance simulator, primarily of rotating disk, turntable shaft, semicircular arc internal gear, pinion, gear shaft, floating bearing, bearing block, movable plate, roller, roller shaft, anti-falling piece, gear wheel, long tooth bar and the composition such as drum apparatus placing bicycle rear.This device also can realize the simulation of cycling, but this device exists following shortcoming: 1, Multi-stage transmission, and operation resistance is large; 2, structural design is unreasonable, easy displacement, and fidelity is poor; 3, complex structure, quality of fit requires high, processing, assembling difficulty, and production cost is high; 4, heavier-weight, is operated, is carried, to deposit etc. and bring inconvenience.

Utility model content

The purpose of this utility model is to overcome above shortcoming, and provide a kind of push-and-pull rod-type bike riding-balance simulator, this simulator not only fidelity is high, and structure is simple, low cost of manufacture.

The utility model is achieved in that a kind of push-and-pull rod-type bike riding-balance simulator, and this simulator comprises the bascule for placing front wheel and is positioned at the drum apparatus being used for placing bicycle rear at bascule rear; Described bascule comprises base, the sliding part be slidably connected on base, the revolving meber be rotationally connected with on sliding part, the pull bar that is fixedly connected on the fork on revolving meber and is rotationally connected with between fork and base; Described revolving meber is also provided with the stopping means horizontally slipped for restriction front wheel.

In order to improve the flexibility that revolving meber rotates, the middle part of described sliding part is provided with bearing block, described bearing block is provided with at least one bearing, is installed with gyroaxis in the middle part of described revolving meber, to realize being rotationally connected of revolving meber and sliding part on the endoporus that described gyroaxis is inserted in bearing.

In order to prevent revolving meber, sliding part and base from mutually throwing off, described revolution shaft lower end adopts screw thread to be installed with anti-raising one's hat, and described anti-bigger diameter end of raising one's hat matches with base lower surface, and described base is provided with the bar shaped escape groove matched with anti-movement locus of raising one's hat.

In order to ensure that sliding part slides neatly on base, described sliding part is provided with some rollers for sliding, and described base is provided with the raceway matched with roller.

In order to make sliding part not depart from raceway, the left and right sides of described base erects limited location plate respectively; In order to slow down the collision of sliding part to limiting plate, improve the life-span of limiting plate, each limiting plate end face is inwardly installed with cushion pad respectively.

In order to make base and earth surface more steady, the lower surface of described base is installed with rubber cushion.

In order to coordinate with bicycle rear better, described drum apparatus comprises frame and is rotationally connected with frame rear and front end and two cylinders arranged along left and right horizontal direction.

Compared to prior art, the utility model has the following advantages:

(1) the push-and-pull rod-type bike riding-balance simulator that the utility model provides is provided with fork and pull bar on revolving meber, and revolving meber one rotates, and under the effect of pull bar, just can sliding part be driven rapidly to horizontally slip, fidelity be high;

(2) connection of the utility model revolving meber and sliding part adopts bearing arrangement, substantially increases the flexibility that revolving meber rotates;

(3) revolution shaft lower end of the present utility model adopts screw thread to be installed with anti-raising one's hat, and no matter to carry or in use procedure, revolving meber, sliding part and base all can not be thrown off mutually;

(4) the utility model revolving meber is provided with the stopping means horizontally slipped for restriction front wheel, front wheel is not only made to drive revolving meber to rotate better, and can not be excessive from landing revolving meber because of pendulum angle, ensure that the security of motion;

(5) bascule of the present utility model can adjust according to the different of bicycle wheels distance from drum apparatus, expand simulator and different specification size bicycle with the use of scope;

(6) not only structure is simple, serviceability is reliable, low cost of manufacture for the utility model, and easy to carry, be easy to apply.

Accompanying drawing explanation

The utility model is described in further detail in conjunction with the embodiments with reference to the accompanying drawings:

Fig. 1 is the three-dimensional structure schematic diagram of the utility model push-and-pull rod-type bike riding-balance simulator;

Fig. 2 is the three-dimensional structure schematic diagram of bascule in Fig. 1;

Fig. 3 is the explosive view of Fig. 2 bascule;

Fig. 4 is the three-dimensional structure schematic diagram of the numerous embodiments of stopping means in Fig. 2;

Fig. 5 is the three-dimensional structure schematic diagram that in Fig. 2, stopping means and revolving meber are integrated;

Fig. 6 is the three-dimensional structure schematic diagram of Fig. 1 intermediate roll device;

Fig. 7 is three-dimensional structure schematic diagram when front wheel turns left in Fig. 1;

Fig. 8 is three-dimensional structure schematic diagram when front wheel turns right in Fig. 1.

Symbol description in figure: 1, bascule, 1-1, base, 1-1-1, bar shaped escape groove, 1-1-2, raceway, 1-2, sliding part, 1-2-1, bearing block, 1-2-2, bearing, 1-2-3, roller, 1-3, revolving meber, 1-3-1, gyroaxis, 1-4, fork, 1-5, pull bar, 1-6, stopping means, 1-7, anti-to raise one's hat, 1-8, limiting plate, 1-9, cushion pad, 1-10, rubber cushion, 2, drum apparatus, 2-1, frame, 2-2, cylinder, 3, front wheel, 4, bicycle rear.

Detailed description of the invention

Below in conjunction with Figure of description and specific embodiment, the utility model content is described in detail:

As Figure 1-Figure 8, for a kind of push-and-pull rod-type bike riding-balance simulator that the utility model provides, this simulator comprises the bascule 1 for placing front wheel 3 and is positioned at the drum apparatus 2 being used for placing bicycle rear 4 at bascule 1 rear; Described bascule 1 comprises base 1-1, the sliding part 1-2 be slidably connected on base 1-1, the revolving meber 1-3 be rotationally connected with on sliding part 1-2, the pull bar 1-5 that is fixedly connected on the fork 1-4 on revolving meber 1-3 and is rotationally connected with between fork 1-4 and base 1-1; Described revolving meber 1-3 is also provided with the stopping means 1-6 horizontally slipped for restriction front wheel 3.The shape of described stopping means 1-6 is not confined to the mode of the present embodiment, as long as front wheel 3 can be limited to horizontally slip, it can be shape as shown in Figure 2, also can be various shapes as shown in Figure 4, also can be other shape, dismountable mode can be made with revolving meber 1-3, also can be made of one (as shown in Figure 5) with revolving meber 1-3.

In order to improve the flexibility that revolving meber 1-3 rotates, as shown in Figure 3, the middle part of described sliding part 1-2 is provided with bearing block 1-2-1, described bearing block 1-2-1 is provided with two bearing 1-2-2 side by side, bearing plate is provided with to limit moving axially of bearing 1-2-2 above bearing 1-2-2, also by installing moving axially of the mode restrictive axes bearing outer-ring of endoporus jump ring, gyroaxis 1-3-1 is installed with, to realize being rotationally connected of revolving meber 1-3 and sliding part 1-2 on the endoporus that described gyroaxis 1-3-1 is inserted in two bearing 1-2-2 in the middle part of described revolving meber 1-3.

Mutually throw off to prevent revolving meber 1-3, sliding part 1-2 and base 1-1, as shown in Figure 3, described gyroaxis 1-3-1 lower end adopts screw thread to be installed with the anti-1-7 that raises one's hat, the bigger diameter end of the described anti-1-7 that raises one's hat matches with base 1-1 lower surface, and described base 1-1 is provided with the bar shaped escape groove 1-1-1 matched with anti-1-7 movement locus of raising one's hat.The mousing-hook of other form can certainly be adopted.

In order to ensure that sliding part 1-2 slides neatly on base, as shown in Figure 3, described sliding part 1-2 is provided with the roller 1-2-3 be rotationally connected of six, and described base 1-1 is provided with the raceway 1-1-2 matched with roller 1-2-3.Roller 1-2-3 is connected with sliding part 1-2 by bolt, the quantity of roller 1-2-3 more than three, and concrete quantity can be determined according to the length of sliding part 1-2 and load capacity.Being slidably connected of alternate manner can certainly be adopted, as line rail, hard rail etc.

In order to make sliding part 1-2 not depart from raceway, the left and right sides of described base 1-1 erects limited location plate 1-8 respectively; In order to slow down the collision of sliding part 1-2 to limiting plate 1-8, improve the life-span of limiting plate 1-8, each limiting plate 1-8 end face is inwardly installed with cushion pad 1-9 respectively.

In order to make base 1-1 and earth surface more steady, the lower surface of described base 1-1 is installed with rubber cushion 1-10.Alternate manner can certainly be adopted, as the lower surface at base 1-1 installs vacuum cup.

In order to coordinate with bicycle rear 4 better, described drum apparatus 2 comprises frame 2-1 and is rotationally connected with frame 2-1 rear and front end and two the cylinder 2-2 arranged along left and right horizontal direction.In order to make frame 2-1 and earth surface more balance, frame also can install rubber cushion 1-10.In order to coordinate preferably with the bicycle of the overwhelming majority, the distance of two cylinder 2-2 is preferably 150mm-240mm, and the diameter of cylinder 2-2 is preferably 58mm-150mm.

The operation principle of this utility model is: as shown in Figure 1, and when the people on bicycle riding simulator does not twist bicycle handle bar, sliding part 1-2 is in the centre position on base 1-1.As shown in Figure 7, when the people on bicycle riding simulator twists bicycle handle bar left, the front wheel 3 be placed in stopping means 1-6 will be stirred revolving meber 1-3 and rotate counterclockwise centered by gyroaxis 1-3-1, revolving meber 1-3 drives fork 1-4 to swing to the right, swing to the right because pull bar 1-5 limits fork 1-4, just force the gyroaxis 1-3-1 on revolving meber 1-3 to push sliding part 1-2 to be moved to the left along the raceway 1-1-2 on base 1-1, now pull bar 1-5 then by with base 1-1 be rotationally connected forward rocking motion a little, change with the distance adapted between being rotationally connected a little of gyroaxis 1-3-1 and pull bar 1-5 and base 1-1.After front wheel 3 shifts to left side, the bicycle rear 4 that cylinder 2-2 rolls just rolls automatically to the left.Vice versa, and as shown in Figure 8, when the people on bicycle riding simulator twists bicycle handle bar to the right, front wheel 3 and bicycle rear 4 all can move right.Bicycle quick left, the speed of the size of the momentum that moves right and the speed of the translational speed size and riding speed that swing bicycle handlebar angle to cyclist is all directly proportional, thus achieves the simulated operation of riding-balance.

Above-mentioned detailed description of the invention is just explained in detail the technical solution of the utility model; the utility model has more than and is only confined to above-described embodiment; every any improvement according to the utility model principle or replacement, all should within protection domain of the present utility model.

Claims (7)

1. a push-and-pull rod-type bike riding-balance simulator, is characterized in that: this simulator comprises the bascule (1) for placing front wheel (3) and is positioned at the drum apparatus (2) being used for placing bicycle rear (4) at bascule (1) rear; Described bascule (1) comprises base (1-1), the sliding part (1-2) be slidably connected on base (1-1), the revolving meber (1-3) be rotationally connected with on sliding part (1-2), the pull bar (1-5) that is fixedly connected on the fork (1-4) on revolving meber (1-3) and is rotationally connected with between fork (1-4) and base (1-1); Described revolving meber (1-3) is also provided with the stopping means (1-6) horizontally slipped for restriction front wheel (3).

2. push-and-pull rod-type bike riding-balance simulator according to claim 1, it is characterized in that: the middle part of described sliding part (1-2) is provided with bearing block (1-2-1), described bearing block (1-2-1) is provided with at least one bearing (1-2-2), described revolving meber (1-3) middle part is installed with gyroaxis (1-3-1), to realize being rotationally connected of revolving meber (1-3) and sliding part (1-2) on the endoporus that described gyroaxis (1-3-1) is inserted in bearing (1-2-2).

3. push-and-pull rod-type bike riding-balance simulator according to claim 2, it is characterized in that: described gyroaxis (1-3-1) lower end employing screw thread is installed with to be prevented raising one's hat (1-7), the bigger diameter end of described anti-raise one's hat (1-7) matches with base (1-1) lower surface, and described base (1-1) is provided with the bar shaped escape groove (1-1-1) matched with anti-(1-7) movement locus of raising one's hat.

4. push-and-pull rod-type bike riding-balance simulator according to claim 1, it is characterized in that: described sliding part (1-2) is provided with some rollers (1-2-3) for sliding, and described base (1-1) is provided with the raceway (1-1-2) matched with roller (1-2-3).

5. the push-and-pull rod-type bike riding-balance simulator according to any one of claim 1-4, it is characterized in that: the left and right sides of described base (1-1) erects limited location plate (1-8) respectively, each limiting plate (1-8) end face is inwardly installed with cushion pad (1-9) respectively.

6. the push-and-pull rod-type bike riding-balance simulator according to any one of claim 1-4, is characterized in that: the lower surface of described base (1-1) is installed with rubber cushion (1-10).

7. the push-and-pull rod-type bike riding-balance simulator according to any one of claim 1-4, is characterized in that: described drum apparatus (2) comprises frame (2-1) and is rotationally connected with frame (2-1) rear and front end and two cylinders (2-2) arranged along left and right horizontal direction.