CN209993509U - Switch button resilience structure, resilience assembly and switch device - Google Patents

Abstract

The utility model relates to a switch accessory technical field especially relates to a shift knob resilience structure, resilience subassembly and switching device. The utility model provides a switch button resilience structure, including resilience frame and pressing panel, in the use, through triggering pressing panel, pressing panel drives resilience trigger piece and makes reciprocating motion under the effect of resilience muscle, and then resilience trigger piece triggers micro-gap switch, realizes the break-make of circuit, and sound is minimum when pressing; meanwhile, the pressing panel reciprocates to realize the on-off design of the circuit, so that the problem that the on-off state of the traditional rocker switch cannot be parallel to the switch frame and the wall surface is solved, the pressing panel moves along with the rebound trigger piece, the moving stroke is smaller, the pressing panel cannot collide with the side frame, and the sound is smaller; in addition, when the on-off function of the switch is met, the pressing panel horizontally reciprocates, and compared with the traditional mechanical rotation, the experience of a user is further improved.

Description

Switch button resilience structure, resilience assembly and switch device

Technical Field

The utility model relates to a switch accessory technical field especially relates to a shift knob resilience structure, resilience subassembly and switching device.

Background

The wall switch is as the essential electrical apparatus annex in people's life, realizes mainly that electrical apparatus gets the electricity function, realizes the break-make of circuit, makes things convenient for people's life. In the real life, the switch structure of the majority in the market is the wane formula structure, and the panel has an angle about 15 with the frame, and people realize mechanical rotation through pressing rotating panel, reach the function of break-make, the fine function of having realized the break-make of this kind of structure, but sound has when machinery rotates, has the influence to the life.

SUMMERY OF THE UTILITY MODEL

The utility model provides a shift knob resilience structure through the resilience muscle, makes and presses the panel and drive the resilience frame and make reciprocating motion, and then makes the resilience trigger piece trigger micro-gap switch realization circuit's break-make, and it is minimum to press sound, has solved foretell technical problem effectively.

The utility model provides a switch button resilience structure, including resilience frame and pressing panel, resilience frame is including resilience trigger piece, resilience muscle and the side frame that is used for triggering micro-gap switch; the rebound trigger is connected to the side frame through a rebound rib, and the rebound trigger is configured to reciprocate along with the rebound rib; the pressing panel is connected to the rebound trigger, and the pressing panel can reciprocate along with the rebound trigger.

In one embodiment, the rebound trigger is provided in a flat plate shape, and the rebound rib is a strip-shaped structure arranged around the inner peripheral wall of the rebound trigger.

In one embodiment, a side of the resilient trigger remote from the push panel is provided with a trigger protrusion for triggering a microswitch.

In one embodiment, the resilient frame comprises at least two juxtaposed trigger protrusions, the trigger protrusions being arranged in a cross-shape.

In one embodiment, the rebound trigger is provided with a mounting hole, and the pressing panel is convexly provided with a mounting buckle matched with the mounting hole.

In one embodiment, the resilient trigger is provided with a light hole.

In one embodiment, the light-transmissive hole is provided at a central position of the rebound trigger.

In one embodiment, the resilient trigger is provided with a positioning hole, and the pressing panel is provided with a positioning column protruding to match with the positioning hole.

In one embodiment, the rebound rib comprises two first rebound strips symmetrically arranged at the upper edge and the lower edge of the rebound trigger, and two second rebound strips symmetrically arranged at the left edge and the right edge of the rebound trigger; two ends of the first resilient strip are provided with first support legs used for being connected with the side frame, and the middle part of the first resilient strip is provided with second support legs used for being connected with the resilient trigger; and third supporting legs used for connecting the rebounding trigger pieces are arranged at two ends of the second rebounding strip, and fourth supporting legs used for connecting the side frame are arranged in the middle of the second rebounding strip.

In one embodiment, the resilient rib is made of an ABS elastic plastic material.

The utility model provides a pair of shift knob resilience structure compares with prior art, possesses following beneficial effect at least:

the utility model provides a switch button resilience structure, including resilience frame and pressing panel, in the use, through triggering pressing panel, pressing panel drives resilience trigger piece and makes reciprocating motion under the effect of resilience muscle, and then resilience trigger piece triggers micro-gap switch, realizes the break-make of circuit, and sound is minimum when pressing; meanwhile, the pressing panel reciprocates to realize the on-off design of the circuit, so that the problem that the on-off state of the traditional rocker switch cannot be parallel to the switch frame and the wall surface is solved, the pressing panel moves along with the rebound trigger piece, the moving stroke is smaller, the pressing panel cannot collide with the side frame, and the sound is smaller; in addition, when the on-off function of the switch is met, the pressing panel horizontally reciprocates, and compared with the traditional mechanical rotation, the experience of a user is further improved.

The utility model also provides a resilience subassembly, the resilience subassembly includes two at least the foretell shift knob resilience structures that set up side by side.

The utility model provides a resilience assembly is owing to including foretell shift knob resilience structure, consequently also possesses and has foretell beneficial effect.

The utility model also provides a switching device, switching device includes micro-gap switch and foretell resilience subassembly, the resilience trigger piece is constructed for triggering micro-gap switch opens or closes.

The utility model provides a switching device is owing to including foretell resilience subassembly, consequently also possesses and has foretell beneficial effect.

Drawings

The present invention will be described in more detail hereinafter based on embodiments and with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of a rebound assembly with two switch button rebound structures according to an embodiment of the present invention at a first viewing angle;

fig. 2 is a schematic structural diagram of a rebound assembly with two switch button rebound structures according to an embodiment of the present invention at a second viewing angle;

fig. 3 is a schematic structural diagram of a rebound assembly with two switch button rebound structures according to an embodiment of the present invention at a third viewing angle;

fig. 4 is a schematic structural diagram of a rebound assembly with three switch button rebound structures according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a rebound assembly with four switch button rebound structures according to an embodiment of the present invention.

In the drawings, like parts are provided with like reference numerals. The figures are not drawn to scale.

Reference numerals:

10-switch button rebound configuration; 11-a rebound frame; 111-a rebound trigger; 113-a resilient rib; 1131 — a first resilient bar; 1131a — first leg; 1131b — a second leg; 1133 — a second resilient strip; 1133a — third leg; 1133b — fourth leg; 114-a trigger protrusion; 115-side frame; 116-mounting holes; 117 — light hole; 118-positioning holes; 13-pressing the panel; 131-installing a buckle; 20-a rebound assembly.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

Referring to fig. 1 to 5, the switch button rebound structure 10 provided by the present invention includes a rebound frame 11 and a pressing panel 13, wherein the rebound frame 11 includes a rebound trigger 111 for triggering the micro switch, a rebound rib 113 and a side frame 115; the rebound trigger 111 is connected to the side frame 115 through a rebound rib 113, and the rebound trigger 111 is configured to reciprocate with the rebound rib 113; the pressing panel 13 is connected to the resilient trigger 111, and the pressing panel 13 can reciprocate with the resilient trigger 111.

The utility model provides a switch button resilience structure 10, including resilience frame 11 and pressing panel 13, in the use, through triggering pressing panel 13, pressing panel 13 drives resilience trigger 111 and makes reciprocating motion under the effect of resilience muscle 113, and then resilience trigger 111 triggers micro-gap switch, realizes the break-make of circuit, and sound is minimum when pressing; meanwhile, the pressing panel 13 reciprocates to realize the on-off design of the circuit, so that the problem that the on-off state of the traditional rocker switch cannot be parallel to the switch frame and the wall surface is solved, the pressing panel 13 moves along with the rebound trigger 111, the moving stroke is small, the pressing panel cannot collide with the side frame 115, and the sound is smaller; in addition, when the on-off function of the switch is met, the pressing panel 13 horizontally reciprocates and rotates in a manner of being compared with the traditional machine, and the experience of a user is further improved.

In one embodiment, the resilient trigger 111 is configured as a flat plate, and the resilient rib 113 is a strip-shaped structure disposed around an inner peripheral wall of the resilient trigger 111. The rebounding trigger 111 is arranged to be flat, so that a user can conveniently press the rebounding trigger, the rebounding rib 113 is arranged to surround the strip-shaped structure of the rebounding trigger 111, rebounding can be further achieved, and the phenomenon that the rebounding rib 113 is extruded to be irreversibly deformed due to the fact that no gap exists in the rebounding process can be avoided.

Specifically, in the present embodiment, a side of the resilient trigger 111 away from the pressing panel 13 is provided with a trigger protrusion 114 for triggering the micro switch, and the trigger protrusion 114 is provided to facilitate triggering the micro switch.

Specifically, in this embodiment, the rebounding frame 11 includes at least two triggering protrusions 114 arranged side by side, and the triggering protrusions 114 are arranged in a cross shape. The arrangement of at least two trigger protrusions 114 arranged in parallel at intervals can further ensure that the pressing panel 13 can realize parallel reciprocating motion, avoid inclination in the pressing mode and ensure the stability of the movement of the pressing panel 13. Further, in this embodiment, the rebound frame 11 includes two trigger protrusions 114 arranged in parallel at intervals, it should be noted that the number of the trigger protrusions 114 is not limited herein, and it can be understood that in other specific embodiments, the number of the trigger protrusions 114 may also be set to be three, four, and the like according to the requirement of a user.

It should be noted that the cross-shaped trigger protrusion 114 effectively ensures the trigger contact surface, and further ensures the implementation of the trigger micro switch. It is understood that the specific shape of the trigger protrusion 114 is not limited herein, and in other specific embodiments, the trigger protrusion 114 may be configured in other shapes, such as a cylindrical or rectangular column, according to the requirement of the user.

Specifically, in this embodiment, the resilient trigger 111 is provided with a mounting hole 116, and the pressing panel 13 is provided with a mounting buckle 131 protruding and matching with the mounting hole 116. The releasable connection of the resilient trigger 111 to the press panel 13 is facilitated by the connection of the mounting hole 116 to the mounting catch 131. It should be noted that, here, a specific connection manner of the resilient trigger 111 and the pressing panel 13 is not limited, and it should be understood that, in other specific embodiments, the connection manner of the resilient trigger 111 and the pressing panel 13 may be set to be a threaded connection or the like according to a requirement of a user.

In one example, the resilient trigger 111 is provided with a light hole 117. Set up light trap 117, the LED pilot lamp on the micro-gap switch of being convenient for shines in pressing panel 13 through light trap 117, and then shows the power on-off condition. Further, in order to clearly display the power on/off condition, in the present embodiment, the pressing panel 13 may be made of a light-transmitting material or a fluorescent material.

Specifically, in this embodiment, the light hole 117 is set to be circular or polygonal, so that a user can select the light hole 117 as required, and the connecting screw can be conveniently installed while light transmission is achieved.

Specifically, in the present embodiment, the light transmission hole 117 is disposed at a central position of the rebound trigger 111. The central position facilitates the illumination of the LED indicator on the whole pressing panel 13 through the light hole 117, so that the light transmission is uniform. It should be noted that the specific location of the light-transmitting hole 117 is not limited herein, and it is understood that in other specific embodiments, the light-transmitting hole 117 may be located at other locations of the rebound trigger 111 according to the needs of the user.

In one embodiment, the resilient trigger 111 has a positioning hole 118, and the pressing panel 13 has a positioning post (not shown) protruding thereon for matching with the positioning hole 118. The positioning holes 118 and the positioning posts matched with the positioning holes are arranged, so that the installation stability of the pressing panel 13 can be further ensured, and the reciprocating stability of the pressing panel 13 can be further ensured.

In one embodiment, the resilient rib 113 includes two first resilient bars 1131 symmetrically disposed at the upper and lower edges of the resilient trigger 111, and two second resilient bars 1133 symmetrically disposed at the left and right edges of the resilient trigger 111; two ends of the first resilient strip 1131 are provided with first legs 1131a for connecting the side frame 115, and the middle of the first resilient strip 1131 is provided with second legs 1131b for connecting the resilient trigger 111; the two ends of the second rebounding strip 1133 are provided with third legs 1133a for connecting the rebounding trigger 111, and the middle of the second rebounding strip 1133 is provided with fourth legs 1133b for connecting the side frame 115. The first rebounding strip 1131 and the second rebounding strip 1133 which are arranged in pairs in an opposite mode are adopted, and the stability of the pressing panel 13 in reciprocating motion is further guaranteed. And the degree of undulation of the pressing panel 13 can be changed by changing the lengths of the first leg 1131a and the second leg 1131 b.

In one embodiment, the resilient rib 113 is made of an ABS elastic plastic material. The ABS (acrylonitrile Butadiene Styrene) plastic is a terpolymer of three monomers of acrylonitrile (A), Butadiene (B) and Styrene (S), and the relative contents of the three monomers can be randomly changed to prepare various resins. ABS has the common properties of three components, A makes it resistant to chemical corrosion and heat and has a certain surface hardness, B makes it have high elasticity and toughness, and S makes it have the processing and forming characteristics of thermoplastic plastics and improves the electrical properties. It should be noted that the material of the resilient rib 113 is not limited, and it is understood that in other embodiments, the resilient rib 113 may be made of other materials, for example, PC plastic, etc.

The utility model also provides a resilience subassembly 20, resilience subassembly 20 includes two at least the aforesaid shift knob resilience structures 10 that set up side by side.

The utility model provides a rebound assembly 20 is owing to including foretell shift knob resilience structure 10, consequently also possesses and has foretell beneficial effect.

The utility model also provides a switching device (not shown in the figure), switching device includes micro-gap switch (not shown in the figure) and foretell resilience subassembly 20, resilience trigger piece 111 is constructed for triggering micro-gap switch opens or closes.

The utility model provides a switching device is owing to including foretell resilience subassembly 20, consequently also possesses and has foretell beneficial effect.

While the invention has been described with reference to a preferred embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, the technical features mentioned in the embodiments can be combined in any way as long as there is no structural conflict. The present invention is not limited to the particular embodiments disclosed herein, but encompasses all technical solutions falling within the scope of the claims.

Claims (12)

1. A switch button rebound structure, comprising:

the rebound frame comprises a rebound trigger piece, a rebound rib and a side frame, wherein the rebound trigger piece is used for triggering the micro switch; the rebound trigger is connected to the side frame by a rebound rib, the rebound trigger being configured to reciprocate with the rebound rib; and

the pressing panel is connected to the rebound trigger, and the pressing panel can reciprocate along with the rebound trigger.

2. The switch button resilient structure according to claim 1, wherein the resilient trigger is configured as a flat plate, and the resilient rib is a strip-shaped structure disposed around an inner peripheral wall of the resilient trigger.

3. The switch button resilient structure according to claim 2, wherein a side of the resilient trigger remote from the pressing panel is provided with a triggering protrusion for triggering a micro switch.

4. The switch button resilient structure according to claim 3, wherein the resilient frame comprises at least two trigger protrusions arranged side by side, the trigger protrusions being arranged in a cross shape.

5. The switch button resilience structure of claim 2, wherein the resilience trigger member is provided with a mounting hole, and the pressing panel is convexly provided with a mounting buckle matched with the mounting hole.

6. The switch button resilient structure of claim 2, wherein the resilient trigger member is formed with a light-transmitting hole.

7. The switch button resilient structure according to claim 6, wherein the light transmission hole is provided at a central position of the resilient trigger.

8. The switch button resilience structure of claim 2, wherein the resilience trigger member is provided with a positioning hole, and the pressing panel is provided with a positioning post protruding to match with the positioning hole.

9. The switch button resilient structure according to claim 2, wherein the resilient rib comprises two first resilient strips symmetrically disposed at upper and lower edges of the resilient trigger, and two second resilient strips symmetrically disposed at left and right edges of the resilient trigger;

two ends of the first rebound strip are provided with first support legs for connecting the side frame, and the middle part of the first rebound strip is provided with second support legs for connecting the rebound trigger;

and third supporting legs used for connecting the rebounding trigger pieces are arranged at two ends of the second rebounding strip, and fourth supporting legs used for connecting the side frame are arranged in the middle of the second rebounding strip.

10. The switch button resilient structure according to claim 1, wherein the resilient rib is made of an ABS elastic plastic material.

11. A rebound assembly, characterized in that the rebound assembly comprises at least two switch button rebound structures as set forth in any one of the preceding claims 1 to 10 arranged side by side.

12. A switch arrangement, characterized in that the switch arrangement comprises a microswitch and a resilient assembly of claim 11, the resilient trigger being configured to trigger the microswitch to open or close.

Images