CN219595826U - Direction control device with force adjusting device - Google Patents

Abstract

The utility model provides a take direction control device of dynamics adjusting device, the cavity that includes base and shell constitution, be equipped with the lower rocking arm subassembly that mutually supports in the cavity, upper rocking arm subassembly and dynamics adjusting subassembly, dynamics adjusting subassembly includes upper rocking handle and lower rocking handle is hollow structure, press the spring and pack into lower rocking handle, the press round pin penetrates upper rocking handle centre bore from the bottom, top position stretches out upper rocking handle, press round pin lower part stretches into in the rocking handle centre bore down, lower rocking handle and press round pin will press the spring to fix in the middle, upper rocking handle and lower rocking handle are in the same place with the form of round pin and hole, lower rocking handle penetrates the shell locating hole, locate in shell centre position; the change of light and heavy force can be realized by shaking the hand feeling, so that the device is suitable for operators with different requirements, and the control experience pleasure of a user group is increased.

Description

Direction control device with force adjusting device

Technical field:

the utility model relates to a potentiometer/game machine handle, in particular to a direction control device with a force adjusting device.

The background technology is as follows:

at present, the existing remote controller is shown in fig. 1, and comprises a shell body which is matched with each other, when a rocker arm assembly A, a lower rocker arm assembly B and a rocker handle C in the upper rocker arm assembly A are assembled in the shell body to shake, the shaking force of the existing remote controller is fixed, and after the existing remote controller is assembled, the shaking force of a control device cannot be adjusted, so that clients with different requirements can have different control experiences under the same standard force, and the control fun cannot be maximized.

The utility model comprises the following steps:

the utility model aims to provide a direction control device with a force adjusting device, which has a compact structure.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a take dynamics adjusting device's direction control device, includes the cavity that base and shell are constituteed, is equipped with the lower rocking arm subassembly, the upper rocking arm subassembly and the dynamics adjusting part of mutually supporting in the cavity, and wherein, dynamics adjusting part includes mutually supporting: an upper rocking handle, a pressing pin, a pressing spring and a lower rocking handle; the upper rocking handle and the lower rocking handle are of hollow structures, the pressing spring is arranged in the lower rocking handle, the pressing pin penetrates into the central hole of the upper rocking handle from the bottom, the top part of the pressing pin stretches out of the upper rocking handle, the lower part of the pressing pin stretches into the central hole of the lower rocking handle, the pressing spring is fixed in the middle by the lower rocking handle and the pressing pin, the upper rocking handle and the lower rocking handle are combined together in a pin and hole mode, the lower rocking handle penetrates into the positioning hole of the shell, and the positioning hole of the lower rocking handle is positioned in the central part of the shell; the upper part of the force adjusting component is matched with the upper rocker arm component through an upper rocker arm, and the lower part of the force adjusting component is matched with the lower rocker arm component through a lower rocker arm.

Further, a convex ring table is formed in the middle of the pressing pin, the pressing spring is sleeved outside the center hole of the lower rocking handle, the upper end of the pressing spring abuts against the lower surface of the convex ring table, and the pressing spring is fixed in the middle by the lower rocking handle and the pressing pin.

Further, the upper rocker arm assembly comprises an upper rocker arm, an encapsulated carbon sheet, a brush and a rubber seat which are matched with each other; the two side ends of the upper rocker arm are fixed at the two center hole positions of the shell, the upper rocker arm of the force adjusting assembly extends out of the upper rocker arm and upwards penetrates through the upper rocker arm, and the upper rocker arm rotates around the center hole of the shell as a circle center and drives the upper rocker arm during rotation; the brush is riveted and fixed on the rubber seat through riveting points, the rubber-coated carbon sheet is fixed on the shell through clamping hooks at two sides, the rubber seat penetrates through a central hole of the rubber-coated carbon sheet, and the rubber-coated carbon sheet is fixed on the rubber-coated carbon sheet through the clamping hooks; the upper rocker arm is provided with a rectangular flat position at one side end, the flat position is inserted into the central groove of the rubber seat, the upper rocker arm rotates to drive the rubber seat to rotate by taking the central hole of the rubber-coated carbon sheet as the center of a circle, so that the movement change of the X axis is realized.

Further, the lower rocker arm assembly comprises a lower rocker arm, an outer spring, an inner spring, a sliding seat and an auxiliary assembly which are matched with each other; the outer spring and the inner spring are combined with the base in a riveting mode, the inner spring is surrounded by the outer spring, four outer stretching arms of the sliding seat are arranged in four sliding rails of the base, two small fixing hooks on the sliding seat are clamped into two fixing grooves of the base, and the inner spring and the outer spring are pressed under the sliding seat to form an assembly; the assembly is arranged in the cavity according to the direction and is matched with the lower rocker arm and the force adjusting component which are arranged in the cavity, the sliding seat part contacts with the lower rocker arm to generate upward acting force on the lower rocker arm, and the lower rocker arm simultaneously transmits the acting force to the pressing pin and the pressing spring.

By adopting the technical scheme, a group of force adjusting devices are added on the basis of the original product, and the devices can be adjusted through the structure exposed outside, so that the shaking hand feeling of the control device can realize the change of light and heavy force, the control device is suitable for operators with different demands, and the control experience pleasure of a user group is increased.

Description of the drawings:

the utility model is described in detail below with reference to the attached drawings:

FIG. 1 is a schematic diagram of a prior art structure of the present utility model;

FIG. 2 is a schematic diagram of an exploded construction of the present utility model;

FIG. 3 is a schematic diagram of the combination of the present utility model;

FIG. 4 is a schematic cross-sectional view of the present utility model.

The specific embodiment is as follows:

the utility model is described in detail below with reference to the attached drawings and examples:

fig. 2-4 illustrate an embodiment of the present utility model.

The utility model provides a take dynamics adjusting device's direction control device, includes the cavity that base 1 and shell 2 constitute, is equipped with lower rocking arm subassembly 3, upper rocking arm subassembly 4 and dynamics adjusting part 5 of mutually supporting in the cavity, and wherein, dynamics adjusting part 5 includes mutually supporting: an upper rocking handle 51, a pressing pin 52, a pressing spring 53, and a lower rocking handle 54; the upper rocking handle 51 and the lower rocking handle 54 are of hollow structures, the pressing spring 53 is arranged in the lower rocking handle 54, the pressing pin 52 penetrates into the top of the central hole of the upper rocking handle 51 from the bottom and stretches out of the upper rocking handle, the lower part of the pressing pin 52 stretches into the central hole of the lower rocking handle 54, the pressing spring 53 is fixed in the middle by the lower rocking handle 54 and the pressing pin 52, the upper rocking handle 51 and the lower rocking handle 54 are combined together in a pin and hole mode, and the lower rocking handle 54 penetrates into the positioning hole of the shell 2 and is positioned at the central part of the shell 2; the upper part of the force adjusting component 5 is matched with the upper rocker arm component 4 through an upper rocker arm 51, and the lower part is matched with the lower rocker arm component 3 through a lower rocker arm 54.

Further, a convex ring table 521 is formed in the middle of the pressing pin 52, the pressing spring 53 is sleeved outside the central hole of the lower rocking handle 54, the upper end abuts against the lower surface of the convex ring table 521, and the pressing spring 53 is fixed in the middle by the lower rocking handle 52 and the pressing pin 52.

The lower rocker arm assembly 3 comprises a lower rocker arm 31, an outer spring 32, an inner spring 33, a sliding seat 34 and an auxiliary assembly 35 which are matched with each other; wherein, the outer spring 32 and the inner spring 33 are combined with the base 2 in a riveting way, the inner spring 33 is surrounded by the outer spring 32, four outer stretching arms of the sliding seat 34 are arranged in four sliding rails of the base 2, two small fixing hooks on the sliding seat 34 are clamped into two fixing grooves of the base 2, and the inner spring and the outer spring are pressed under the sliding seat 34 to form an assembly; the assembly is loaded into the cavity according to the direction and is matched with the lower rocker arm 31 and the force adjusting assembly 5 which are installed in the cavity, the sliding seat 34 contacts the lower rocker handle 54 to generate upward acting force on the lower rocker handle, and the lower rocker handle 54 simultaneously transmits the acting force to the pressing pin 52 and the pressing spring 53.

When the pressing pin is released, the force fed back when the upper rocking handle is rocked at the moment is the force of the inner spring and the outer spring plus the force of the pressing spring, when the pressing pin is pressed downwards and kept at a certain position, the downward acting force of the pressing spring is increased, so that the feedback force when the upper rocking handle is rocked is increased, the feedback force is proportional to the pressing depth of the pressing pin until the part of the pressing pin, which is exposed out of the upper rocking handle, is flush with the upper rocking handle and cannot be pressed downwards, and the principle of changing the rocking force is realized.

The rocker is divided into X-axis and Y-axis motions, and the transmission principle of the X-axis motion and the Y-axis motion is consistent, taking the X-axis as an example:

the upper rocker arm assembly 4 comprises an upper rocker arm 41, an encapsulated carbon sheet 42, a brush 43 and a rubber seat 44 which are matched with each other, and other auxiliary parts thereof; the two side ends of the upper rocker arm 41 are fixed at the two center hole positions of the shell 1, the upper rocker arm 51 of the force adjusting assembly 5 extends out of the upper rocker arm 41 and penetrates through the upper rocker arm upwards, and the upper rocker arm 51 rotates around the center hole of the shell 1 as a circle center and drives the upper rocker arm 41 during rotation; the brush 43 is riveted and fixed on the rubber seat 44 by riveting points, the rubber-coated carbon sheet 41 is fixed on the shell 1 by clamping hooks at two sides, the rubber seat 44 passes through a central hole of the rubber-coated carbon sheet 41, and is fixed on the rubber-coated carbon sheet by the clamping hooks; the upper rocker arm 41 has a rectangular flat shape at one side end, the flat is inserted into a central groove of the rubber seat 44, the upper rocker arm 41 rotates to drive the rubber seat 44 to rotate by taking a central hole of the rubber-coated carbon sheet 42 as a circle center, so that the motion change of the X axis is realized.

According to the utility model, a group of force adjusting devices are added on the basis of the original product, and the force adjusting devices can be adjusted through the structure of exposing the outside, so that the shaking hand feeling of the control device can realize the change of light and heavy force, thereby being suitable for operators with different requirements and increasing the operating experience pleasure of user groups.

While the foregoing description illustrates and describes the preferred embodiments of the present utility model, as noted above, it is to be understood that the utility model is not limited to the forms disclosed herein but is not to be construed as excluding other embodiments, and that various other combinations, modifications and environments are possible and may be made within the scope of the inventive concepts described herein, either by way of the foregoing teachings or by those of skill or knowledge of the relevant art. And that modifications and variations which do not depart from the spirit and scope of the utility model are intended to be within the scope of the appended claims.

Claims (4)

1. A directional control device with a force adjusting device, which is characterized in that: including the cavity that base and shell are constituteed, be equipped with the lower rocking arm subassembly, go up rocking arm subassembly and dynamics regulation subassembly of mutually supporting in the cavity, wherein, dynamics regulation subassembly includes mutually supporting: an upper rocking handle, a pressing pin, a pressing spring and a lower rocking handle; the upper rocking handle and the lower rocking handle are of hollow structures, the pressing spring is arranged in the lower rocking handle, the pressing pin penetrates into the central hole of the upper rocking handle from the bottom, the top part of the pressing pin stretches out of the upper rocking handle, the lower part of the pressing pin stretches into the central hole of the lower rocking handle, the pressing spring is fixed in the middle by the lower rocking handle and the pressing pin, the upper rocking handle and the lower rocking handle are combined together in a pin and hole mode, the lower rocking handle penetrates into the positioning hole of the shell, and the positioning hole of the lower rocking handle is positioned in the central part of the shell; the upper part of the force adjusting component is matched with the upper rocker arm component through an upper rocker arm, and the lower part of the force adjusting component is matched with the lower rocker arm component through a lower rocker arm.

2. A direction control device with a force adjusting device as defined in claim 1, wherein: the middle of the pressing pin forms a convex ring table, the pressing spring is sleeved outside the central hole of the lower rocking handle, the upper end of the pressing spring is propped against the lower surface of the convex ring table, and the pressing spring is fixed in the middle by the lower rocking handle and the pressing pin.

3. A direction control device with a force adjusting device according to claim 1 or 2, characterized in that: the upper rocker arm assembly comprises an upper rocker arm, an encapsulated carbon sheet, a brush and a rubber seat which are matched with each other; the two side ends of the upper rocker arm are fixed at the two center hole positions of the shell, the upper rocker arm of the force adjusting assembly extends out of the upper rocker arm and upwards penetrates through the upper rocker arm, and the upper rocker arm rotates around the center hole of the shell as a circle center and drives the upper rocker arm during rotation; the brush is riveted and fixed on the rubber seat through riveting points, the rubber-coated carbon sheet is fixed on the shell through clamping hooks at two sides, the rubber seat penetrates through a central hole of the rubber-coated carbon sheet, and the rubber-coated carbon sheet is fixed on the rubber-coated carbon sheet through the clamping hooks; the upper rocker arm is provided with a rectangular flat position at one side end, the flat position is inserted into the central groove of the rubber seat, the upper rocker arm rotates to drive the rubber seat to rotate by taking the central hole of the rubber-coated carbon sheet as the center of a circle, so that the movement change of the X axis is realized.

4. A direction control device with a force adjusting device as defined in claim 3, wherein: the lower rocker arm assembly comprises a lower rocker arm, an outer spring, an inner spring, a sliding seat and an auxiliary assembly which are mutually matched; the outer spring and the inner spring are combined with the base in a riveting mode, the inner spring is surrounded by the outer spring, four outer stretching arms of the sliding seat are arranged in four sliding rails of the base, two small fixing hooks on the sliding seat are clamped into two fixing grooves of the base, and the inner spring and the outer spring are pressed under the sliding seat to form an assembly; the assembly is arranged in the cavity according to the direction and is matched with the lower rocker arm and the force adjusting component which are arranged in the cavity, the sliding seat part contacts with the lower rocker arm to generate upward acting force on the lower rocker arm, and the lower rocker arm simultaneously transmits the acting force to the pressing pin and the pressing spring.