CN220530649U - 1800-degree rotating structure and game steering wheel - Google Patents

Abstract

The utility model relates to the technical field of game steering wheels, in particular to an 1800-degree rotating structure and a game steering wheel, which comprise an input assembly, a limiting assembly and an induction assembly; the limiting assembly is connected with the input assembly and the sensing assembly, the input assembly comprises a main support, an input shaft and an input gear, the input shaft is rotatably arranged on the main support, the input gear is connected with the input shaft, the limiting assembly comprises a fixed support and a limiting ring, the fixed support is provided with a rotating cavity, the input gear penetrates through the rotating cavity and is connected with the limiting ring, a first limiting block is arranged in the rotating cavity, the limiting ring is provided with a second limiting block, and the first limiting block is used for being matched with the second limiting block to enable the limiting ring to rotate and limit; the sensing assembly comprises a sensing bracket, a sensing gear, a direction sensing element, a first detecting element and a second detecting element, wherein the sensing gear is meshed with the input gear, the first detecting element is used for detecting the sensing gear, and the second detecting element is used for detecting the direction sensing element. The utility model has high simulation degree and good operation body feeling.

Description

1800-degree rotating structure and game steering wheel

Technical Field

The utility model relates to the field of game steering wheels, in particular to an 1800-degree rotating structure and a game steering wheel.

Background

Currently, the entertainment industry is developing rapidly, especially the gaming industry, and gaming machines are a very popular product because people's work and life pressures need to be relieved by relaxation. Game machine products on the market are various, particularly a game steering wheel, and a user simulates driving actions to finish a game, so that the game machine can be relaxed and meanwhile, the game machine can be used for achieving the fun of sports and driving.

The existing game steering wheel has the problems that the transmission structure is simple in design, the structure is too single, the hand feeling is poor in operation and use, the actual operation experience cannot be realized, the game experience is poor, and the like.

Disclosure of Invention

Based on this, it is necessary to provide an 1800 ° turning structure and a game steering wheel that enhance the simulation degree and the operation experience, aiming at the problems of the prior art.

The technical scheme of the utility model is that the 1800-degree rotating structure comprises an input assembly, a limiting assembly and an induction assembly; the two ends of the limiting assembly are respectively connected with the input assembly and the sensing assembly, the input assembly comprises a main support, an input shaft and an input gear, the input shaft is rotatably arranged on the main support, the input gear is connected with one end of the input shaft, the limiting assembly comprises a fixed support and a limiting ring, the fixed support is provided with a rotating cavity, one end of the input gear penetrates through the rotating cavity and is connected with the limiting ring, the input gear is used for driving the limiting ring to rotate in the rotating cavity, a first limiting block is arranged in the rotating cavity, a second limiting block is arranged on the limiting ring, and when the limiting ring rotates, the first limiting block is matched with the second limiting block to enable the limiting ring to rotate and limit; the sensing assembly comprises a sensing bracket, a sensing gear, a direction sensing element, a first detecting element and a second detecting element, wherein the sensing gear is meshed with the input gear, the first detecting element is used for detecting the sensing gear, and the second detecting element is used for detecting the direction sensing element.

Preferably, the input shaft is provided with a feedback gear, the feedback gear and the input shaft are integrally arranged, and the input shaft drives the feedback gear to rotate when rotating.

Preferably, the motor further comprises a feedback motor, one side of the feedback motor facing the feedback gear is connected with a feedback connecting gear, and the feedback connecting gear is meshed with the feedback gear.

Preferably, an inner gear ring is arranged on the inner diameter of the limiting ring, and the input gear is meshed with the inner gear ring.

Preferably, the main support is provided with a mounting groove, a bearing is mounted in the mounting groove, and the input shaft is rotatably connected with the bearing.

Preferably, the first limiting block is located at two sides of the input gear and protrudes outwards, and the second limiting block is located at the limiting ring and protrudes inwards.

Preferably, the gear ratio of the sensing gear to the input gear is 1:5.

Preferably, the induction gear is provided with an induction ring, the induction ring is provided with an induction groove, and the direction induction element is semicircular.

Preferably, the first detecting element is configured to detect the induction slot.

In order to achieve the above purpose, the present utility model provides a game steering wheel, which comprises the 1800 ° rotating structure.

The beneficial effects of the utility model are as follows:

1. when a player rotates the steering wheel, the input shaft drives the input gear to rotate, the input gear drives the limiting ring to rotate, the second limiting block of the limiting ring is matched with the first limiting block of the rotating cavity to enable the limiting ring to rotate and limit, the steering wheel can only rotate for a certain angle, the simulation degree is high, and the operation body feel is good.

2. The input gear drives the sensing gear, and when the sensing gear rotates, first detecting element is used for detecting the rotation circle number of the sensing gear, and second detecting element is used for detecting the direction sensing element, so that the rotation circle number and the rotating left and right directions of the steering wheel can be sensed rapidly, and the operation body is good.

3. The gear ratio of the sensing gear to the input gear is 1:5, so that the input gear rotates for one circle, the rotation angle of the sensing gear is 1800 degrees, and the large-angle rotation of the steering wheel is realized.

Drawings

FIG. 1 is a schematic perspective view of an 1800 rotation structure according to an embodiment of the present utility model;

FIG. 2 is an exploded view of the 1800 turn structure of FIG. 1;

FIG. 3 is a cross-sectional view taken along section A-A of the front view of the 1800 rotary structure of FIG. 1;

FIG. 4 is a front view of the stop assembly of the 1800 turn structure of FIG. 1;

FIG. 5 is a first angular view of the sensing assembly of the 1800 turn structure of FIG. 1;

FIG. 6 is a top view of the sensing assembly of the 1800 turn structure of FIG. 1;

fig. 7 is a schematic diagram of a sensing groove of the sensing assembly of the 1800 ° rotation structure of fig. 1.

Reference numerals in the drawings:

10-input assembly 20-spacing assembly 30-sensing assembly

40-feedback motor 11-main support 12-input shaft

13-input gear 14-feedback gear 41-feedback connecting gear

15-bearing 21-limiting ring 22-fixing support

23-rotation cavity 23 a-first stopper 21 b-second stopper

31-sensing bracket 32-sensing gear 33-direction sensing element

301-first detection element 302-second detection element 325-inductive loop

326-induction groove

Detailed Description

The present utility model will be described more fully hereinafter in order to facilitate an understanding of the present utility model. This utility model may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

Referring to fig. 1 to 7, an 1800 ° rotating structure and a game steering wheel according to an embodiment of the utility model is shown, and the 1800 ° rotating structure includes an input assembly 10, a sensing assembly 30, and a limiting assembly 20 connecting the input assembly 10 and the sensing assembly 30. The input assembly 10, the limiting assembly 20 and the sensing assembly 30 are locked through screw gaps, the fixing effect is good, and the rotation effect of the input gear 13, the limiting ring 21 and the sensing gear 32 is guaranteed.

The input assembly 10 includes a main frame 11, an input shaft 12 rotatably mounted in the main frame 11, and an input gear 13 connected to one end of the input shaft 12. The main support 11 is provided with a mounting groove (not shown), a bearing 15 is mounted in the mounting groove, and the input shaft 12 is rotatably connected to the bearing 15, so that the support effect is good and the rotation stability is good. The input shaft 12 is connected to the input gear 13 through a sleeve (not shown) such that the input shaft 12 drives the input gear 13 to rotate. The input assembly 10 further includes a feedback gear 14, wherein the feedback gear 14 is integrally disposed with the input shaft 12, such that the input shaft 12 drives the feedback gear 14 to rotate.

Referring to fig. 4, the limiting assembly 20 includes a fixing bracket 22 and a limiting ring 21 mounted on the fixing bracket 22, one end of the fixing bracket 22 is connected with the main bracket 11, the limiting ring 21 is mounted on the other end of the fixing bracket 22 away from the main bracket 11, further, the fixing bracket 22 is provided with a rotating cavity 23, the limiting ring 21 is mounted in the rotating cavity 23 and has an inner ring gear, and one end of the input gear 13 passes through the rotating cavity 23 to be meshed with the inner ring gear of the limiting ring 21 and drive the limiting ring 21 to rotate in the rotating cavity 23.

The rotation cavity 23 is provided with a first limiting block 23a, the limiting ring 21 is provided with a second limiting block 21b, the first limiting blocks 23a are respectively positioned at two sides of the input gear 13 and protrude outwards, the second limiting blocks 21b are arranged on the limiting ring 21 and protrude inwards, and when the limiting ring 21 rotates, the first limiting blocks 23a and the second limiting blocks 21b are matched to enable the limiting ring 21 to rotate and limit.

Referring to fig. 5 to 7, the sensing assembly 30 includes a sensing bracket 31, a sensing gear 32, a direction sensing element 33, a first sensing element 301 and a second sensing element 302 mounted on the sensing bracket 31. One end of the sensing bracket 31 is connected with the fixed bracket 22, the sensing gear 32 is mounted at the other end, the direction sensing element 33 is located at one side far away from the sensing bracket 31, the first sensing element 301 is located at a position close to the sensing gear 32, and the second sensing element 302 is located near the direction sensing element 33. In this embodiment, the sensing gear 32 has a sensing ring 325, the sensing ring 325 is provided with a sensing groove 326, the first detecting element 301 is located near the sensing ring 325 for detecting the sensing groove 326 to detect the rotation number of the sensing gear 32, and the second detecting element is located near the direction sensing element 33 for detecting the sensing element, specifically, the direction sensing element 33 is a semicircular ring extending radially outwards, so that the second detecting element 302 effectively detects the left and right rotation direction of the steering wheel, and in other embodiments, the direction sensing element 33 may be a sensing block, a sensing piece, a sensing groove, or a sensing strip, so long as the second detecting element 302 can cooperate with the second detecting element 302 to effectively identify the rotation direction.

The sensing gear 32 is meshed with the input gear 13, the input gear 13 drives the sensing gear 32 to rotate, in this embodiment, the gear ratio of the sensing gear 32 to the input gear 13 is 1:5, so that the input gear 13 rotates one circle, the rotation angle of the sensing gear 32 is 1800 degrees, and large-angle rotation of the steering wheel is realized.

The 1800 ° rotating structure further includes a feedback motor 40, one end of the feedback motor 40 is connected with a feedback connecting gear 41, in this embodiment, two feedback motors 40 and feedback connecting gears 41 are respectively installed on two sides of the fixed support 22, and the feedback motor 40 drives the feedback connecting gear 41 to mesh with the feedback gear 14 to generate resistance to the feedback gear 14, so as to control the number of rotation turns of the feedback gear 14.

According to the 1800-DEG rotating structure and the game steering wheel structure, the design is reasonable, when a player rotates the steering wheel, the input shaft 12 drives the input gear 13 to rotate, the input gear 13 passes through the rotating cavity 23 through the bearing 15 to drive the limiting ring 21 to rotate in the rotating cavity 23, and the second limiting block 21b of the limiting ring 21 is matched with the first limiting block 23a of the rotating cavity 23 to enable the limiting ring 21 to rotate and limit, so that the steering wheel can only rotate for a certain angle. At the same time, the feedback motor 40 drives the feedback connecting gear 41 to mesh with the feedback gear 14, providing resistance to control the number of rotations of the feedback gear 14. The sensing gear 32 is meshed with the input gear 13, the input gear 13 drives the sensing gear 32 to rotate, the gear ratio of the sensing gear 32 to the input gear 13 is 1:5, and large-angle rotation of the steering wheel is achieved. The first detecting element 301 detects the sensing groove 326 of the sensing ring 325 to identify the number of rotations of the sensing gear 32, the second detecting element 302 detects the direction sensing element 33 to identify the direction of the rotation of the sensing steering wheel, and the simulation degree is high and the operation body feeling is good.

The foregoing examples illustrate only a few embodiments of the utility model and are described in detail herein without thereby limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (10)

1. 1800 rotating structure, its characterized in that: comprises an input assembly, a limiting assembly and an induction assembly; the two ends of the limiting assembly are respectively connected with the input assembly and the sensing assembly, the input assembly comprises a main support, an input shaft and an input gear, the input shaft is rotatably arranged on the main support, the input gear is connected with one end of the input shaft, the limiting assembly comprises a fixed support and a limiting ring, the fixed support is provided with a rotating cavity, one end of the input gear penetrates through the rotating cavity and is connected with the limiting ring, the input gear is used for driving the limiting ring to rotate in the rotating cavity, a first limiting block is arranged in the rotating cavity, a second limiting block is arranged on the limiting ring, and when the limiting ring rotates, the first limiting block is matched with the second limiting block to enable the limiting ring to rotate and limit; the sensing assembly comprises a sensing bracket, a sensing gear, a direction sensing element, a first detecting element and a second detecting element, wherein the sensing gear is meshed with the input gear, the first detecting element is used for detecting the sensing gear, and the second detecting element is used for detecting the direction sensing element.

2. The 1800 ° turn structure of claim 1 wherein: the input shaft is provided with a feedback gear, the feedback gear and the input shaft are integrally arranged, and the feedback gear is driven to rotate when the input shaft rotates.

3. The 1800 ° turn structure of claim 2, wherein: the motor is characterized by further comprising a feedback motor, one side, facing the feedback gear, of the feedback motor is connected with a feedback connecting gear, and the feedback connecting gear is meshed with the feedback gear.

4. The 1800 ° rotating structure according to claim 1, wherein an inner diameter of the retainer ring is provided with an inner gear ring, and the input gear is meshed with the inner gear ring.

5. The 1800 ° turn structure of claim 1 wherein: the main support is provided with a mounting groove, a bearing is arranged in the mounting groove, and the input shaft is rotatably connected with the bearing.

6. The 1800 ° turn structure of claim 5 wherein: the first limiting blocks are located on two sides of the input gear and protrude outwards, and the second limiting blocks are located on the limiting rings and protrude inwards.

7. The 1800 ° rotating structure of claim 1, wherein a gear ratio of the sensing gear to the input gear is 1:5.

8. The 1800 ° turn structure of claim 1 wherein the sensing gear has a sensing ring provided with sensing grooves and the direction sensing element is semi-circular.

9. The 1800 ° turn structure of claim 8 wherein the first sensing element is configured to sense the sensing slot.

10. A steering wheel for a game, characterized by: comprising an 1800 ° rotating structure according to any one of claims 1 to 9.