CN105336529A - Reset switch - Google Patents

Abstract

The disclosed mode of execution of the invention relates to a reset switch. The reset switch comprises a button (1), a driving part (2) that is mounted on the button (1) in a pivoting manner, a shell (6), and an oscillating bar (4) that is mounted on the shell (6) in a pivoting manner for driving a switch-on element (7) to move between the position of a switch-on circuit and the position of a disconnecting circuit, wherein a reset spring (3) is mounted on the oscillating bar (4); and the reset spring (3) abuts on the driving part (2). The reset switch is high in working efficiency, stable and reliable in switching and easy to manufacture.

Description

Reset switch

Technical field

Each execution mode of the present disclosure relates to field of switches, particularly relates to reset switch.

Background technology

Reset switch be a kind of after each pressing operation button can get back to the switch of original position.After once pressing, reset switch can be switched to the state of being turned on or off, and after upper once pressing operation, reset switch will be switched to its contrary (disconnecting or conducting) state from the state of being turned on or off.

A kind of existing reset switch has been shown in Fig. 1, and it comprises button 101, drive block 102, rotary drive 103, fork 104, the first back-moving spring 105 and the second back-moving spring 106.Make rotary drive 103 can make against one end of fork 104 fork 104 counterclockwise or turn clockwise by pressing button 101, to drive the connection element below fork to swing between on-position and open position, thus be switched on or switched off circuit.

In order to enable fork swing in two opposite directions enough amplitudes with reach switch on and off position and be not driven in rotation part 103 not with its against the other end stopped, need to make rotary drive 103 can according to the swaying direction of fork in the two directions run-off the straight think that the swing of fork is stepped down.In the existing scheme of Fig. 1, drive block 102 arranges two confined planes 107 and 108, make rotary drive 103 can in the scope between these two confined planes run-off the straight to step down.

When not pressing button 101, rotary drive 103 mediates.When after pressing button 101, first one end of rotary drive 103 touches one end (left side in Fig. 1) of fork 104 tilting.Continue pressing button 101, under the stop of one end that fork 104 tilts, the direction tilted towards fork 104 also rotates (for turning clockwise in Fig. 1) by rotary drive 103, until rotary drive 103 is encountered confined planes 107 and cannot continue to rotate, step down with the inclination completing rotary drive 103.Now, rotary drive 103 just enters into operating state by initial intermediateness.Continue pressing button 101 again, the tilting end that the rotary drive 103 that cannot continue to rotate could start to oppress fork 104 makes it rotate, thus completes the switching action of switch.After no longer pressing button 101, under the effect of the first back-moving spring 105, the rotary drive 103 tilted will be returned to centre position, and under the effect of the second back-moving spring 106, rotary drive 103, drive block 102 and button 101 will be returned to the initial position be not pressed.In upper pressing operation once, first rotary drive 103 will just start to promote fork 104 and swing to another switching position after the inclination certain angle in direction contrary with previous pressing.

In existing such scheme, owing to driving rotary drive 103 fork action first will rotate inclination certain angle from pressing the button to, this makes to there is time delay the switching action from the operation of button to switch, and this is unfavorable for the control promptly and accurately to switch.In addition, in rotary drive 103 rotary course, generation rubs by the contact-making surface of rotary drive and fork, on the one hand, if this rubbing surface because of the reasons such as dust, manufacture, use become coarse time, likely make actuator 103 not rotate, thus switch loses function; On the other hand, the wearing and tearing that this friction causes for a long time may change the size and dimension of the contact point of rotary drive 103 and fork 104, thus make rotary drive cannot drive fork action with fork accurate fit.This makes the job insecurity of this switch reliable.And the part of this switch of the prior art is more, requires higher to the manufacture of part and assembly precision, which increases the manufacturing cost of this switch.

Summary of the invention

In view of the foregoing, embodiment of the present disclosure provides a kind of reset switch, and it is for solving problem existing in above-mentioned existing reset switch at least partially.

According to one side of the present disclosure, a kind of reset switch is provided, comprises: button; Actuator, it is pivoted on described button; Housing; Fork, it is pivoted on described housing, is configured to connection element is switched between the position connecting circuit and the position of open circuit; Wherein on described fork, be provided with back-moving spring, described back-moving spring is against described actuator.

According to another aspect of the present disclosure, described actuator has the first stop position and the second stop position, wherein said actuator can be pivoted to described first stop position towards first direction, and can be pivoted to described second stop position towards second direction opposite to the first direction.

According to another aspect of the present disclosure, described actuator is configured to when pressing described button, one end of described actuator rotates towards a direction against one end of described fork to drive described fork, and described actuator remains on its first stop position or the second stop position and non rotating simultaneously.

According to another aspect of the present disclosure, described back-moving spring is configured to when not pressing described button, makes actuator rotate to its first stop position or the second stop position against described actuator.

According to another aspect of the present disclosure, described actuator is configured to when not pressing described button, and the described actuator being in described first stop position or the second stop position is identical relative to the incline direction of described button with described fork relative to the incline direction of described button.

According to another aspect of the present disclosure, described back-moving spring is also configured to make described button be returned to the initial position be not pressed together with described actuator.

According to another aspect of the present disclosure, described button has locating part, to limit described first stop position and second stop position of described actuator.

According to another aspect of the present disclosure, described actuator has driving leg for driving fork, and described driving leg is symmetrical about the pivot of described actuator.

According to another aspect of the present disclosure, described actuator is identical relative to the angular dimension of the plane of described button when described second stop position with it relative to the angle of the plane of described button when described first stop position.

According to another aspect of the present disclosure, the side of described actuator has contact muscle and leans for described back-moving spring.

According to another aspect of the present disclosure, described contact muscle is configured to when described back-moving spring is in the obliquity relative to described button, described actuator all against described contact muscle, thus is pushed to the first stop position or the second stop position by only one side of the end of described back-moving spring or relative both sides.In execution modes more of the present disclosure, by back-moving spring is arranged on fork, after having operated reset switch at every turn, actuator can both be returned to the obliquity needed for subsequent operation, think that subsequent operation is ready, make switch motion timely, operating efficiency is high.Because actuator did not move relative to fork before driving fork, thus make the action of this reset switch more reliable and more stable.Back-moving spring simultaneously for the spinning reduction of upwards reset and the actuator of button, thus decreases number of spare parts, improves production efficiency, and provides cost savings.

According to another aspect of the present disclosure, described actuator and/or fork have and allows bit architecture.

According to another aspect of the present disclosure, described fork has hollow space, make when one end of described actuator makes described fork rotate against described fork one end, the other end of described actuator can enter in the described hollow space of described fork.

According to another aspect of the present disclosure, the side towards described button of described actuator has the inclined-plane tilted towards two different directions.

According to another aspect of the present disclosure, described fork has the contact-making surface for contacting with described actuator respectively in its pivot both sides, and described two contact-making surfaces are symmetrical about the pivot of described fork.

The reset switch of embodiments of the present invention drives at actuator in the process of fork, and actuator is large to the amount of jamming on of fork, makes fork stability under loading, thus reduces the accuracy of manufacture requirement of part.What allow bit architecture is arranged so that actuator can realize larger range of movement in the confined space, puts in place reliably to be driven by fork.

Accompanying drawing explanation

When reading the detailed description hereafter to exemplary embodiment by reference to the accompanying drawings, these and other object, feature and advantage will become apparent, in the accompanying drawings:

Fig. 1 is the sectional view of the reset switch of prior art;

Fig. 2 is the decomposition view of the reset switch according to an execution mode of the present disclosure;

Fig. 3 is the perspective, cut-away view of the reset switch in Fig. 2;

Fig. 4 A is the sectional view of the reset switch in Fig. 2, and wherein reset switch is in initial condition;

Fig. 4 B is the stereogram of the reset switch in Fig. 2, and wherein reset switch is in initial condition;

Fig. 5 A is the sectional view of the reset switch in Fig. 2, and wherein actuator starts to drive fork;

Fig. 5 B is the stereogram of the reset switch in Fig. 2, and wherein actuator starts to drive fork;

Fig. 6 A is the sectional view of the reset switch in Fig. 2, and wherein actuator drives fork to terminate;

Fig. 6 B is the stereogram of the reset switch in Fig. 2, and wherein actuator drives fork to terminate;

Fig. 7 A is the sectional view of the reset switch in Fig. 2, and wherein another initial condition got back to by reset switch;

Fig. 7 B is the stereogram of the reset switch in Fig. 2, and wherein another initial condition got back to by reset switch.

Embodiment

To describe various execution mode of the present disclosure in detail by means of only exemplary approach now.

With reference to figure 2-3, it illustrates the reset switch according to an execution mode of the present disclosure.This reset switch comprises button 1; Actuator 2, it is pivoted on button 1 by pivot A; Housing, it can be divided into the upper shell 5 and lower house 6 that cooperatively interact, and wherein upper shell 5 can be slidably matched pressing and reseting movement with call-on button 1 with button 1; Fork 4, it is pivoted on lower house 6 by pivot B.Be provided with back-moving spring 3 in fork 4 upper end, this back-moving spring 3 is set on the cylinder 4-1 on fork 4 alternatively, makes the axis of back-moving spring 3 be substantially perpendicular to the plane of fork 4.Back-moving spring 3 is also against the contact muscle 2-2 of actuator 2 lower end.Actuator 2 lower end also has the driving leg 2-1 to downward-extension, and this driving leg 2-1 has the both ends of the surface being positioned at pivot A both sides, rotates in two opposite directions to drive fork 4 for the two ends being positioned at its pivot B both sides jamming on fork 4 respectively.Driving leg 2-1 be positioned at pivot A two ends for driving the end face of fork 4 symmetrical about the pivot A of actuator 2.In fork 4 lower end, there is driving lever 4-2, drive connection element 7 to move between the position connecting circuit and the position of open circuit for along with fork 4 in the rotation of two different directions.Electric component necessary in the switches such as electrical contact can be held in lower house 6.

Actuator 2 is pivoted on the downside of button 1, it is about having the first stop position and the second stop position during button 1 pivotable, at the first stop position, actuator 2 is pivoted to the first extreme position towards first direction, at described second stop position, actuator 2 is pivoted to the second extreme position towards the second direction contrary with first direction.This first stop position and the second stop position can be limited by the lower surface of button 1.Alternatively, the lower surface of button 1 arranges the locating part 1-1 of two projections, to limit the first stop position and second stop position of actuator 2.By shape and the position of the shape/locating part 1-1 of the shape and button 1 lower surface that suitably arrange actuator 2, make at the first stop position and the second stop position, actuator 2 is about the angle identical relative to the Plane Rotation of button 1 on two different rotary directions of pivot A.Because above-mentioned two end faces of driving leg 2-1 are symmetrical structures about the pivot A of actuator 2, when actuator 2 arrives the first stop position and the second stop position about pivot A respectively towards two rightabouts rotation equal angular, these two end faces of driving leg 2-1 tilt to two positions about pivot A symmetry by rotating respectively, to drive fork in same degree ground respectively by the both ends of the surface of driving leg 2-1.

Fork 4 to be pivoted on lower house 6 and to be positioned at the below of the driving leg 2-1 of actuator 2.The pivot B of fork 4 and the plane at pivot A place of actuator 2 and the plane orthogonal of button 1.Fork 4 has the contact-making surface for contacting with actuator 2 respectively in its pivot B both sides, and described two contact-making surfaces are symmetrical about the pivot B of fork 4.Therefore, two contact-making surfaces have identical radius of turn about pivot B.Like this, when the two ends of the driving leg 2-1 of actuator jam on two contact-making surfaces of fork 4 respectively with identical degree, thus fork 4 will rotate identical angle in contrary direction.Therefore, fork 4 can drive and connect element 7 and to swing back and forth towards two contrary directions switching.

Under the state that button 1 is not pressed, fork 4 is in towards the state of pivot B lopsidedness (position of circuit ON or disconnection) (see Fig. 3).Thus back-moving spring 3 on fork 4 also follows fork 4 and towards same lopsidedness, and the contact muscle 2-2 on the downside of actuator 2 that therefore tilts.In this case, back-moving spring 3 is compressed a little, thus provides the thrust of inclination tilt to first stop position identical with the incline direction of fork 4 or the second stop position to make actuator 2 rotate and keep this heeling condition to actuator 2.In this state, between the driving leg 2-1 of fork 4 and actuator 2, a gap can be had a little.The central axis of back-moving spring 3, by the pivot B of fork 4, makes the back-moving spring 3 of fork when different incline direction on it can provide the thrust of basic equal angular and size at different directions to actuator 2.Suitably can mate the length of contact muscle 2-2 and the diameter of back-moving spring 3, make when back-moving spring 3 be in the obliquity relative to button 1 and tilt abutting contact muscle 2-2 time, the end of back-moving spring 3 only while can abutting contact muscle 2-2, and the another side of this end (the diametrically relative another side of spring) cannot abutting contact muscle 2-2, thus back-moving spring 3 only can provide thrust in the side of the pivot A of actuator 2 to actuator 2, with by actuator 2 rotation forces to first stop position identical with spring incline direction or the second stop position.Or contact muscle 2-2 also can long enough, make back-moving spring 3 when tilting its with contact muscle 2-2 against both sides (end face entirety) all abutting contact muscle 2-2 of one end.Now, because the decrement of the spring both sides tilted is different, the thrust that spring is applied to contact muscle 2-2 is also be greater than another side, thus can by actuator 2 rotation forces to the first stop position or the second stop position.

Alternatively, actuator 2 and/or fork 4 can have and allow bit architecture, can realize greatly tilting in the confined space between button 1 and fork 4 to make actuator 2 and do not interfered.Such as, can have hollow space 4-3 on fork 4, make when one end of actuator 2 makes fork 4 rotate against fork 4 one end, the other end of actuator 2 can enter in the described hollow space 4-3 of fork 4 and can not be blocked by fork 4.The side towards button 1 of actuator 2 also can have inclined-plane 2-3 and 2-4 tilted towards two different directions, make actuator 2 before two different directions rotate to the first and second stop positions can not block by button 1.

The course of work of reset switch is according to the embodiment of the present invention described below in conjunction with accompanying drawing 4A-7B.In Fig. 4 A-4B, reset switch is in initial condition, and wherein button 1 is not pressed, and fork 4 is in and makes to connect element 7 is in connection circuit or open circuit position towards lopsidedness towards the position of lopsidedness.Actuator 2 by the back-moving spring 3 that tilts with fork 4 against and tilt to the locating part 1-1 of inclined-plane 2-3 on the left of button 1 on the left of it, thus remain on the first stop position.Now, actuator 2 and fork 4 are towards inclined, but angle of inclination need not be identical, and the left end of the driving leg 2-1 of actuator 2 and the left end of fork 4 have gap.

When starting to press the button 1 (see Fig. 5 A-5B), the resistance that button 1 drives the actuator 2 on it to overcome back-moving spring 3 moves downward, and makes the left side of the driving leg 2-1 of actuator 2 move to the left end be upturned starting to contact fork 4.In the process, be due to button 1 power that applied to actuator 2 by pivot A and torque can not be produced, and actuator 2 is still resisted against its first stop position by back-moving spring 3 obliquely, therefore, actuator 2 can not rotate in moving downward, and is still maintained at the first stop position of inclination.

When continuing pressing button 1 (see Fig. 6 A-6B), the obliquity that the left end jamming on fork 4 makes fork 4 rotate to its right-hand member to upwarp by the left side of the driving leg 2-1 of actuator 2.Due to the rotation of fork 4, the driving lever 4-2 of fork 4 lower end stirs and connects element 7 and swing towards opposite side, with by switching over to disconnecting or on-position.Can see from Fig. 6 A, owing to having the bit architecture that allows of hollow space 4-3 in fork 4, in the process that actuator 2 presses down, the right side of the driving leg 2-1 of actuator 2 can enter into the hollow space 4-3 of fork 4, thus the right-hand member of the tilting of fork 4 can not collide the right side of driving leg 2-1.This makes actuator 2 to be pressed down to is enough to drive fork 4 to rotate to the degree making switching over.Due to when the driving leg 2-1 of actuator 2 has just started the one end contacting fork 4, actuator 2 has been in its first stop position, namely the extreme position of side has been tilted to, therefore when continuing pressing button 1 again, actuator 2 will start to drive fork 4 to rotate immediately, and actuator 2 continues to remain on the first stop position because thus the position of rotation that reaches capacity in left side self can not rotate again.

Compared with the reset switch of prior art, the reset switch of present embodiment is arranged on fork 4 due to its back-moving spring 3, actuator just can be driven into obliquity (namely work heeling condition) needed for subsequent operation at initial position by back-moving spring 3, thus after a button pressed, actuator 2 can Direct driver fork 4 action, and without the need to first experiencing as switch of the prior art, centre position in actuator 2 is moved to the pilot process of required obliquity, therefore the action of the reset switch of present embodiment when operating postpones shorter, thus be more conducive to the exact operations of this reset switch.And in the above-mentioned pilot process of the reset switch of prior art, actuator is in the slip that can produce against rotation when fork between actuator and fork and friction.This slip may cause the relative position between actuator and fork not in place and cannot drive fork action.The actuator that this friction causes and the wearing and tearing of the contact-making surface of fork more increase and coordinate possibility not in place between actuator with fork.The reset switch of present embodiment, by eliminating this pilot process, as long as actuator contact fork, namely starts to drive fork to rotate, thus makes the action of this reset switch more reliable and more stable.

After on off state completes switching, stop pressing button 1 (see Fig. 7 A-7B), back-moving spring 3 to be moved upward being promoted actuator 2 and button 1 by restoring force the initial position being returned to and not being pressed.Meanwhile, the incline direction due to now fork 4 has been changed into its right-hand member and has been tilted namely to tilt to the left, and therefore the back-moving spring 3 on fork 4 also becomes locates towards left side.Therefore, the contact angle of the contact muscle 2-2 of back-moving spring 3 upper end and actuator 2 also changes.Back-moving spring 3 tends to make it promote actuator 2 towards the trend of the left side location self not producing deflection and rotates to the second stop position in the opposite direction towards top rake side with it, make the incline direction of actuator 2 become identical with fork 4.Like this, another obliquity required when actuator 2 is returned to lower task.When again pressing the button 1, actuator 2 need not rotate again and namely rotate to make fork 4 by Direct driver fork 4 right-hand member on the right side of its driving leg 2-1.

The action and the aforesaid description that again press the rear reset switch of button 1 are similar, the right-hand member that just actuator 2 changes into jamming on fork 4 on the right side of driving leg 2-1 makes fork tilt to the right, thus drive connect element 7 again switch get back on the left of be switched on or switched off position with diverter switch state.And the spring 3 that is reset is returned to the first stop position tilted to the right by release button 1 rear-guard moving part 2, being that subsequent operation is ready again.Now, the state of reset switch is identical with the initial condition shown in Fig. 4 A-4B.

By the inclination of back-moving spring 3 with fork 4, after having operated reset switch, actuator 2 can both be returned to the obliquity needed for subsequent operation, thinks that subsequent operation is ready at every turn, and make switch motion timely, operating efficiency is high.Drive in the process of fork 4 at actuator 2, the angle that actuator 2 drives fork 4 to rotate is large, and the stability under loading of fork 4, which ensure that the having stable behavior of switch is reliable, reduce the accuracy of manufacture requirement to part.And back-moving spring 3 for the spinning reduction of upwards reset and the actuator 2 of button 1, avoids as button arranges separately back-moving spring needs, thus decreases number of spare parts, improve production efficiency, and provide cost savings simultaneously.

Should understand, the object described for convenience, herein based on the button planar horizontal of reset switch and the orientation that vertically top is placed be described.The direction of " upper and lower, left and right " herein all describes based on this location.Obviously, as required, this reset switch can with various towards arranging.And the directivity of " upper and lower, left and right " between each feature described herein describe all by place along with reset switch towards change and change accordingly, but the relative position relation between each feature can not change.

Give specification of the present disclosure for the object illustrated and describe, but it is not intended to be exhaustive or be limited to disclosed form.It may occur to persons skilled in the art that a lot of amendment and variant.

Therefore; execution mode is to principle of the present disclosure, practical application are described better and enable the other staff in those skilled in the art understand following content and select and describe; namely; under the prerequisite not departing from disclosure spirit, all modifications made and replacement all will fall in the disclosure protection range of claims definition.

Claims (15)

1. a reset switch, comprising:

Button (1);

Actuator (2), it is pivoted on described button (1);

Housing (6); And

Fork (4), it is pivoted on described housing (6), is configured to connection element (7) is switched between the position connecting circuit and the position of open circuit;

Wherein on described fork (4), be provided with back-moving spring (3), described back-moving spring (3) is against described actuator (2).

2. reset switch according to claim 1, wherein said actuator (2) has the first stop position and the second stop position, wherein said actuator (2) can be pivoted to described first stop position towards first direction, and can be pivoted to described second stop position towards second direction opposite to the first direction.

3. reset switch according to claim 2, wherein said actuator (2) is configured to when pressing described button (1), one end of described actuator (2) rotates towards a direction against one end of described fork (4) to drive described fork (4), and described actuator (2) remains on described first stop position or described second stop position and non rotating simultaneously.

4. reset switch according to claim 2, wherein said back-moving spring (3) is configured to when not pressing described button (1), makes described actuator (2) rotate to described first stop position or described second stop position against described actuator (2).

5. according to the reset switch one of claim 2-4 Suo Shu, wherein said actuator (2) is configured to when not pressing described button (1), and the described actuator (2) being in described first stop position or described second stop position is identical relative to the incline direction of described button (1) with described fork (4) relative to the incline direction of described button (1).

6., according to the reset switch one of claim 1-5 Suo Shu, wherein said back-moving spring (3) is also configured to make described button (1) be returned to together with described actuator (2) initial position be not pressed.

7. according to the reset switch one of aforementioned claim Suo Shu, wherein on described button (1), there is locating part (1-1), to limit described first stop position and second stop position of described actuator (2).

8. according to the reset switch one of aforementioned claim Suo Shu, wherein said actuator (2) has driving leg (2-1) for driving fork (4), and described driving leg (2-1) is symmetrical about the pivot (A) of described actuator (2).

9. reset switch according to claim 8, wherein said actuator (2) is identical relative to the angular dimension of the plane of described button (1) when described second stop position with it relative to the angle of the plane of described button (1) when described first stop position.

10., according to the reset switch of one of aforementioned claim, the side of wherein said actuator (2) has contact muscle (2-2) to lean with described back-moving spring (3).

11. reset switches according to claim 10, wherein said contact muscle (2-2) is configured to when described back-moving spring (3) is in the obliquity relative to described button (1), the end of described back-moving spring (3) only on one side or relative both sides all against described contact muscle (2-2), so that described actuator (2) is pushed to the first stop position or the second stop position.

12. according to the reset switch one of aforementioned claim Suo Shu, wherein has to allow bit architecture on described actuator (2) and/or described fork (4).

13. reset switches according to claim 12, wherein on described fork (4), there is hollow space (4-3), make when one end of described actuator (2) makes described fork (4) rotate against described fork (4) one end, the other end of described actuator (2) can enter in the described hollow space (4-3) of described fork (4).

14. reset switches according to claim 12, the side towards described button (1) of wherein said actuator (2) has the inclined-plane (2-3,2-4) tilted towards two different directions.

15. according to the reset switch one of aforementioned claim Suo Shu, wherein said fork (4) has the contact-making surface for contacting with described actuator (2) respectively in its pivot (B) both sides, described two contact-making surfaces are symmetrical about the pivot (B) of described fork (4).