KR101863726B1 - switch - Google Patents

Abstract

The present invention is to provide a switch for improving usability and driving reliability by providing a smooth operation feeling while a power connection state is stably switched. The switch comprises: a case part having a mounting space formed therein and having a plurality of insertion holes, into which power supply side and load side connection lines are inserted, and provided with a slide tube portion on an upper side; a drive knob part provided inside the slide tube portion and being elastically lifted and lowered by a pressure of an external force; a rotary pressing part rotating forward and backward, hinged to a lower end of the drive knob part so as to be elastically restored to a predetermined reference position, and having a pair of pressing protrusions which are spaced apart from each other by a predetermined angle and radially projected downward; a slider provided on a lower side of the rotary pressing part, and provided with a front protrusion engagement part and a rear protrusion engagement part which are respectively engaged with the one and the other side pressurizing protruding portions so as to be selectively toggled forward and backward by being inclined and pressed in a diagonal direction corresponding to the rotating direction when the rotary pushing portion is lowered, wherein the front protrusion engagement part and the rear protrusion engagement part are spaced from each other on front and rear sides; and a switching unit accommodated in the mounting space and selectively connected to a connection portion of each of the load side connection lines according to a toggle movement of the slider.

Description

Switch {switch}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a switch, and more particularly, to a switch that improves ease of use and drive reliability by providing a smooth operation feeling while a power connection state is stably switched.

In general, electrical switches are essential in addition to unnecessary electrical appliances such as electrical appliances, electrical devices, and electrical equipment. Among the known switches, push-button switches and rocker switches are most widely used.

Here, the rocker switch generally comprises a rocker member that can be toggled between at least two optional stable operating positions corresponding to different optional operating modes. In general, the push-button switch includes a push-button that is linearly driven by a simple linear motion such as a release after the push-button switch is released.

Further, a push-button drive type switch including a rocker-type switching mechanism has already been disclosed. Such a switch provides a switching function for alternately connecting one of the pair of circuit lines, so that it is possible to provide two switches capable of controlling one electric device at a remote position such as a top, a bottom, a verandah or a living room of a staircase.

On the other hand, the conventional push button switch includes a push button for pushing, a switching mechanism for switching the connection between the circuits, and a drive converting means for converting the operation of the push button into an operation suitable for mode conversion of the switching mechanism.

In this case, the drive converting means includes a rocker member connected to the switching mechanism and providing a lateral driving force of the switching mechanism, and a slide operation member provided at a lower portion of the push button and elastically moved in the lateral direction.

A pair of wedge-shaped protruding heads are provided on both sides of the upper surface of the rocker member, and a pair of pressing protrusions corresponding to the connecting protrusions are provided on both sides of the lower surface of the slide operation member.

In the conventional push button switch, one of the connection projections of the slide operation member is slid along the inner surface of one of the projecting heads to the other projecting head side when the push button is lowered. Then, the mode switching of the switching mechanism is performed by a complicated process of rotating the rocker member to one side by pressing the other protruding head downward at the slide-moved position.

Accordingly, only when the distance between the projecting heads and the rotation angle of the rocker member is accurately designed, the mode switching of the switching mechanism can be performed, and it is difficult to change the overall structure of the switch.

In addition, even when the rotation angle of the rocker member is slightly shifted during mode conversion of the switching mechanism, the locking protrusion of the slide operation member is caught between the protruding heads of the rocker member and the rotation of the rocker member or slide movement of the slide operation member becomes impossible, There was a problem that it caused discomfort.

Korean Patent No. 10-1025679

SUMMARY OF THE INVENTION In order to solve the above-mentioned problems, the present invention provides a switch that provides a smooth operation feeling while switching the power connection state stably, thereby improving usability and driving reliability.

According to an aspect of the present invention, there is provided a battery pack comprising: a case having a mounting space formed therein and including a plurality of insertion holes into which a power supply side and a load side connection line are inserted, A drive knob portion provided inside the slide tube portion and being elastically lifted and lowered by an external force; A rotary pressing portion hinged to a lower end of the driving knob portion so as to be elastically returned to a preset reference position, the rotary pressing portion being pivoted downward in a radial direction with a pair of pressing protrusions separated from each other by a predetermined angle; And is formed at one side and the other of the other pressing protrusions so as to be selectively inclined forward and backward horizontally in the horizontal direction by being pressed downward in the diagonal direction corresponding to the rotating direction when the rotary pressing portion is lowered at the lower side of the rotary pressing portion A slider having front and rear projecting mating portions and rear mating molding portions spaced apart from each other on the front and rear sides; And a switching portion accommodated in the mounting space and selectively connected to a connecting portion of the load side connecting line in accordance with a toggle movement of the slider, wherein a pushing operation of the driving knob portion is provided between the forwardly projecting mating portion and the rearwardly projecting mating portion, And a recessed recessed portion recessed in a stepwise manner so as to have a longitudinal length and a recessed depth in which the pressing protrusion is prevented from being in contact with the inner surface, wherein a rounded contact surface having a convexly rounded outer surface profile is formed in each of the pressing protrusions And a round-shaped mating face is formed in the front protruding mating portion and the rear protruding mating portion so as to be rounded toward a diagonal direction corresponding to the inclination angle of the pressing protruding portion and having an outer profile conformable to the round contacting surface, One of the round-shaped mating surfaces may be formed in a shape Wherein the rotary pressing portion is configured such that when the push button portion is pressed, the round contact surface of either one of the pair of the pressing protrusions is vertically contacted with the rotary contact surface of the pair of pressing protrusions, And the other side is inserted into the inside of the escape groove to be hingedly rotated while being prevented from being in contact with the inner surface, and the mutual opposing faces of the front and rear projecting mating parts And a guide surface portion extending in a direction adjacent to the escape groove portion, the guide surface portion extending in a direction adjacent to the escape groove portion, the guide surface portion extending in a direction adjacent to the escape groove portion, And the load side connecting line is connected to the case part And a pair of extension portions connected to the power source side connection line, the switching portion being provided with a pair of support portions which are hooked on the swing grooves formed in the extension portions, And a body connected to the elastic portion to swing in the forward and backward direction in response to the movement of the slider, wherein the elastic portion is connected to the lower end of the slider, to provide.

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Through the above solution, the switch according to the present invention provides the following effects.

First, since the rotary pressing portion is hingedly rotated in a direction opposite to the present position of the slider, the sliding portion is naturally slidably engaged in a state where one of the pair of downwardly protruding pressing protrusions is engaged with the protrusion forming portion disposed to face each other, This allows a smooth switching operation with smooth operation even with a small force.

Second, when one of the pair of pressing protrusions is fitted to the protrusion fitting portion, the other side is inserted into the inside of the escape groove portion formed between the protrusion fitting portions, so that the driving force in the horizontal direction So that the slider is moved to the correct position. Thus, the driving reliability of the product can be further improved.

Third, even if an assembly tolerance occurs in the rotary pressing portion, the pressing protrusions are stably fitted to the protrusion fitting portions while being in contact with the guide surface portions and the round molding surfaces respectively provided at mutually facing inner ends of the protrusion fitting portions, The defective ratio is reduced and the assembly quality is maintained to be excellent, so that the productivity can be improved.

1 is a schematic diagram of a switch according to an embodiment of the present invention;
2 is an exploded perspective view illustrating a switch according to an embodiment of the present invention;
FIGS. 3A and 3C are cross-sectional views illustrating an operating state of a switch according to an embodiment of the present invention. FIG.

Hereinafter, a switch according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a schematic view showing a switch according to an embodiment of the present invention, FIG. 2 is an exploded perspective view showing a switch according to an embodiment of the present invention, FIGS. 3a and 3c are cross- Fig.

1 to 3C, a switch 100 according to an embodiment of the present invention includes a case 10, a drive knob 20, a rotary pusher 30, a slider 40, (60).

The switch 100 of the present invention is driven by a simple linear operation such as pressing and releasing the push button portion 70 provided at one side of the case portion 10, When pressure is applied, the load side connection line is connected to the power side connection line. When the push button unit 70 is re-pressed, the state in which the connection line on the load side and the connection line on the power source side are disconnected and the power connection state can be switched.

Here, the power source side connection line means a power source or an electric wire connected to an electric device, and the load side connection line means an electric wire connected to an electric device or another switch.

2 to FIG. 3A, the case 10 may include a main body 11 and a cover 12. In detail, the main body 11 has a plurality of insertion holes (not shown) through which one side, preferably an upper side, of the power source side and the load side connection line are inserted, and a mounting space is formed therein. At this time, a partition frame may be formed in the mounting space so that each component is installed and fixed.

The body portion 11 is formed with a guide rail portion 15 into which the slider 40 is inserted. Of course, the guide rail part 15 may be formed on the cover part 12 as occasion demands, and such modified examples belong to the scope of the present invention.

Here, the main body 11 is preferably formed of a material having insulation and heat resistance, but having a predetermined rigidity. This allows each component to be installed in a fixed position while preventing short-circuits between the components to be interlocked.

The cover 12 may cover the opened top of the main body 11 and may include a slide tube 13 at a central portion thereof to penetrate the upper side of the case 10 in a vertical direction . Here, the slide tube portion 13 may be opened upward, and the penetration portion 13b through which the rotation pressing portion 30 is inserted may be formed on the inner bottom surface portion 13a.

At this time, the cover portion 12 may be formed of a material having insulation and heat resistance, but having a predetermined rigidity. The fastening protrusions 11a and the fastening holes 12a formed on the side opposite to the main body 11 can be easily and firmly coupled to each other without any separate fastening means by hooking the fastening protrusions 11a and the fastening holes 12a. .

Meanwhile, it is preferable that the driving knob portion 20 is provided inside the slide tube portion 13. Here, the driving knob portion 20 is pressed by an external force and is operated to move up and down along the inner circumferential surface of the slide tube portion 13, thereby pressing the rotation pushing portion 30 downward. At this time, an elevation guide groove 14 is formed on the slide tube portion 13 along the elevation direction, and an elevation projection 21 inserted into the elevation guide groove 14 is formed on the outer edge of the driving knob portion 20 So that elevating and lowering in the vertical direction can be constrained.

The drive knob portion 20 is elastically deformed when the external force applied to the drive knob portion 20 is removed between the lower surface of the drive knob portion 20 and the inner bottom surface portion 13a of the slide tube portion 13, The second elastic returning means 23 can be provided.

At this time, the second resilient return means 23 may be provided as a coil spring, or a plurality of the elastic resilient return means 23 may be provided to support the corner portions of the driving knob portion 20, respectively. Of course, depending on the size of the switch 100, the second elastic returning means 23 may be formed as a leaf spring. That is, the driving knob portion 20 can always be held in the state of being disposed on the upper end side of the slide tube portion 13 by the spring force of the second elastic return means 23 in the state in which the pressing operation is released .

The inner side lower surface 13a of the slide tube portion 13 may be formed with a restricting groove 13c in which the end portion of the second elastic returning means 23 is restrained. Accordingly. Malfunction of the switch 100 can be prevented because the release of the second elastic returning means 23 is prevented even if the drive knob 20 is repeatedly pressed.

Meanwhile, it is preferable that the rotary pushing portion 30 is provided at the lower end of the driving knob portion 20. In detail, the rotary pushing portion 30 is hinged to the lower end of the driving knob portion 20 so as to be elastically returned to a predetermined reference position A, which is rotated forward and backward. The rotary pressing portion 30 is hinged to a hinge rotation portion 22 provided at a lower end portion of the driving knob portion 20 and a pair of pressing projection portions 31 are spaced apart from each other by a predetermined angle, As shown in FIG.

At this time, the predetermined reference position A may be arranged such that the pressing protrusions 31 are mutually symmetric with respect to the hinge rotation part 22. When the driving knob portion 20 is pressed by an external force, the pair of pressing protrusions 31 are hingedly rotated about the hinge rotation portion 22 toward the front side or rear side of the mounting space .

In addition, it is preferable that the slider 40 is provided on the lower side of the rotation pushing portion 30. [ At this time, the slider 40 is tilted in a diagonal direction corresponding to the rotating direction when the rotary pushing portion 30 is lowered, and is selectively toggled forward and backward.

Here, the term " toggle movement " is understood to mean that the slider 40 is horizontally moved in the lateral direction, but reciprocates at two positions spaced apart in the forward and backward directions. That is, the slider 40 is moved from the predetermined reference position A to the predetermined position (A) at a first position set forward from the predetermined reference position A when the slider 40 is pressed through the rotary pushing portion 30 2 position, or may be moved from the second position to the first position.

The slider 40 may be provided at both lateral ends thereof with a rail inserting portion 46 inserted into the guide rail portion 15. At this time, the guide rail portion 15 has a width in the vertical direction corresponding to the rail insertion portions 46 provided at both side ends of the slider 40, And may be provided with holes having a width. Of course, it is also possible that the guide rail portion 15 is provided with a groove into which the rail insertion portion 46 is inserted.

That is, the slider 40 can be slid forward and rearward with the rail inserting portion 46 inserted into the guide rail portion 15. As a result, a force acting in the diagonal direction by the rotary pressing portion 30 is accurately transmitted as a force for lateral movement of the slider 40, so that the driving reliability of the product can be improved.

At this time, the slider 40 is provided with a pair of protrusions 31 that are mutually engaged with the respective pressing protrusions 31 so as to induce the rotation of the rotation pushing portion 30 in the opposite direction in which the rotary pushing portion 30 is toggle- And includes an extending protruding portion 45 protruding downward from the protruding mating portion 41. Here, the projection fitting portion 41 may be disposed below the pressing projection 31 so as to be spaced apart from the pressing projection 31 by a predetermined distance.

More specifically, the protruding mating portion 41 includes a front protruding portion 41b that is formed to cooperate with the one-side pressing protruding portion 31b when the slider 40 is moved forward, And may be provided as a projection-shaped fitting portion 41a. It is preferable to understand that the one side pressing protrusion 31b is disposed on the front side of the pair of pressing protrusions 31. The other side pressing protrusion 31a is disposed on the rear side of the pair of pressing protrusions 31, As shown in Fig.

At this time, when the driving knob 20 is lowered, any one of the pair of the pressing protrusions 31 may be in contact with one of the mutually opposed protruding portions 41. The rotary pressing portion 30 is hingedly rotated in a direction corresponding to the protruding engagement portion 41 in which the pressing projection portion 31 is contacted, that is, in a direction opposite to the present position of the slider. Accordingly, the slider 40 can be tilted in a diagonal direction by the pressing protrusion 31 as the rotary pushing portion 30 is hingedly rotated.

The width of the front protruding portion 41b and the length of the rear protruding portion 41a in the front and rear direction may be different from each other. It is preferable that they are equally provided.

At this time, it is preferable that rounded surfaces 31c and 31d having a rounded outer surface profile are formed at the ends of the respective pressing protrusions 31. Here, the outer circumferential profiles of the respective round contact surfaces 31c and 31d may be formed in an arc shape.

It is preferable that round-shaped mating faces 41c and 41d having an outer profile conforming to the round-mating faces 31c and 31d are formed in the front-side projection fitting portion 41b and the rear projection fitting portion 41a, respectively. At this time, the outer circumferential profile of each of the round type mating faces 41c and 41d may be formed in an arc shape so that the respective round contact faces 31c and 31d are mated.

That is, each of the round contact surfaces 31c and 31d is formed to be convex toward the end, and each of the round joined surfaces 41c and 41d is formed in a concave shape and has an arc-shaped outer peripheral profile corresponding to each of the round contact surfaces 31c and 31d, , 31d and the respective round-shaped mating faces 41c, 41d can be mutually combined.

The round-shaped mating surfaces 41c and 41d are formed on the upper surface of each of the protruding mating portions 41. The rounded mating surfaces 41c and 41d include a front rounded mating surface 41d formed on the upper surface of the front protruding mating portion 41b and a front round mating surface 41d formed on the upper surface of the rear protruding mating portion 41a. And a round-shaped mating surface 41c.

In detail, the round contact surfaces 31c and 31d may be formed in an outer profile protruding radially outward from the ends of the pressing protrusions 31 in a round manner. The round-shaped mating faces 41c and 41d are formed on the round-mating faces 31c and 31d and may have an outer profile that is rounded toward the diagonal direction.

That is, the front round type mating face 41d may be formed to be rounded in a diagonal direction inclined downward toward the front side, and the rear round type mating face 41c may be rounded in a diagonal direction inclined downwardly toward the rear side have.

At this time, the respective round-shaped mating faces 41c and 41d may be rounded in a diagonal direction so as to correspond to the inclination angle of the pressing protrusion 31. [ For example, when the one-side pressing protrusion 31b is radially outwardly spaced toward the front side at a predetermined angle with reference to the predetermined reference position A, the front round-type mating face 41d is pressed against the one- 31b may extend in a direction corresponding to the extending direction.

It is preferable that any one of the round-shaped mating surfaces 41c and 41d is arranged to face the rounded mating surfaces 31c and 31d corresponding to each other when the slider 40 is toggled. That is, in a state in which the slider 40 is toggled to the first position, the rear round type mating face 41c is vertically aligned with the other side mating face 31c formed on the other side pressing protrusion 31a . In a state where the slider 40 is toggled to the second position, the front round type mating face 41d is disposed to face each other in the vertical direction with one side round contact face 31d formed on the one side pressing protrusion 31b .

Accordingly, when the rotary pushing portion 30 is lowered corresponding to the lowering of the drive knob portion 20, the round contact surfaces 31c and 31d and the round type mating faces 41c and 41d disposed thereon are first brought into contact with each other .

Preferably, stopper step-like projections 43a and 43b are formed on the outer ends of the pair of protruding portions 41, respectively. Here, the stopper stepped portions 43a and 43b may be formed so that the inner side surfaces thereof are formed into substantially continuous profiles on the respective round type mating faces 41c and 41d. At this time, as the lifting and lowering driving unit is lowered, the round contact surfaces 31c and 31d and the round shaped facing surfaces 41c and 41d can be hingedly rotated in a state of being in close contact with each other, The end of the pressing projection 31 can be caught by the inner surface of the stopper step 43a or 43b.

The pressing protrusions 31 are engaged with the stopper stepped portions 43a and 43b so that the round contact surfaces 31c and 31d and the rounded mating surfaces 41c and 41d are engaged with each other, And substantially presses the stopper stepped portions 43a and 43b and the rounded mating surfaces 41c and 41d in an inclined manner.

The pressing protrusions 31 provide a pressing force in a state where the round contact surfaces 31c and 31d and the round type mating surfaces 41c and 41d are mutually mated so that the upper surface portion of the protruding mating portion 41 is pressed As a result, the pressing force transmission area is widened, and the switching operation can be clearly performed even with a small force.

Further, the round contact surfaces 31c and 31d are hingedly rotated in a state in which the round contact surfaces 31c and 31d are mated with the rounded mating surfaces 41c and 41d to naturally slide on each other. Since the pressing protrusion 31 is prevented from being slidably moved along the rounded mating surfaces 41c and 41d in a state where the load is partially concentrated on the upper surface of the protruding mating portion 41, It is possible to provide a smooth operation feeling.

On the other hand, the front projection extensions 41b and the rear projection extensions 41a are spaced apart from each other in the longitudinal direction. Here, the pressing protrusion 31 is selectively disposed inwardly between the front protrusion engaging portion 41b and the rear protrusion engaging portion 41a during the pressing operation of the driving knob portion 20, It is preferable to form the recessed recessed portion 44 recessed in a stepped manner.

At this time, the escape groove 44 may be recessed between the front protrusion fitting portion 41b and the rear protrusion fitting portion 41a, that is, the central portion of the slider 40, An escape space is formed so that any one of the pressing protrusions 31 is selectively inserted into the inside.

It is preferable that the escape groove 44 be disposed to face the other pressing protrusion 31 opposite to the pressing protrusion 31 disposed opposite to the protrusion fitting portion 41 in a state in which the slider 40 is toggled Do. For example, when the slider 40 is toggled to the first position and the other pressing protrusion 31a is disposed in confrontation with the rear protrusion fitting portion 41a, the escaping groove portion 44 is pressed by the one- (31b) so as to face each other in the vertical direction.

It is preferable that the escape groove 44 is formed to have a longitudinal length and a recess depth in which the pressing projection 31 is prevented from being in contact with the inner surface. That is, the escaping groove portion 44 is disposed below the vertical height of the tangent line which is in contact with the lowermost side of the rotation locus of the pressing projection portion 31, exceeding the front-rear direction and the lateral width of the pressing projection portion 31 And may be formed into a groove having a depth of recess as much as possible.

At this time, as the external pressing force of the push button portion 70 is continuously applied, the round contact surfaces 31c and 31d of the pressing protrusion 31 face each other in the up-and-down direction, The rotary pushing portion 30 can be hingedly rotated in a state of being engaged with the round type mating faces 41c and 41d. The other pressing protrusion 31 opposed to the pressing protrusion 31 formed in the protruding fitting portion 41 can be stably inserted into the inside of the escape groove 44 in a state of being prevented from being in contact with the inner surface of the escape groove 44 .

One of the pair of pressing protrusions 31 is engaged with the corresponding protrusion fitting portion 41 while the other is inserted into the inside of the escape groove portion 44 so that the rotation pressing portion 30 Hinged. At this time, the pressing protrusion 31 inserted into the escape groove 44 is prevented from being in contact with the inner surface of the escape groove 44, so that interference with the toggle movement of the slider 40 can be prevented .

This prevents the interference of the pressing projection 31 inserted in the inside of the escape groove 44 to improve the operation feeling and allows the pressing projection 31 formed in the projection fitting portion 41 to move in the horizontal direction The driving force is transmitted and the slider 40 is toggled to the correct position, so that the driving reliability of the product can be further improved.

Preferably, guiding surface portions 41e and 41f extending in the front-rear direction are formed at the inside ends of the front protrusion fitting portion 41b and the rear protrusion fitting portion 41a facing each other.

More specifically, the guide surface portions 41e and 41f are formed in a continuous profile from the round-shaped mating surfaces 41c and 41d and are formed to be flat in the lateral direction to correspond to the moving direction of the slider 40 in the toggle direction.

At this time, each of the guide surface portions 41e and 41f may extend from the respective round-shaped mating surfaces 41c and 41d in a direction adjacent to the escape groove portion 44. [ For example, the front guide surface portion 41f of the front protruding engagement portion 41b is horizontally extended from the inner end of the front rounded mating surface 41d toward the rear side, and the inner surface of the escape groove portion 44 May be formed in a continuous profile. The rear guide surface portion 41e of the rear protrusion fitting portion 41a is extended horizontally from the inner end of the rear rounded mating surface 41c toward the front side and the inner surface of the escape groove portion 44 May be formed in a continuous profile.

Therefore, a predetermined clearance may be formed between the respective round-shaped mating faces 41c and 41d in the forward and backward directions by the guide face portions 41e and 41f. Accordingly, even when the rotary pushing portion 30 is located at a position deviated from the design position due to an assembly tolerance, the pressing projection portion 31 is pressed against the guide surface portions 41e, 41f and 41e when the drive knob portion 20 is lowered, The rotary pressing portion 30 can be hingedly rotated while being in contact with the round type mating surfaces 41c and 41d to be formed into the respective mating protruding portions 41. [

The pressing protrusion 31 is stably fitted to the protrusion fitting portion 41 by the guide surface portions 41e and 41f even if an assembly tolerance is generated in the rotary pressing portion 30, So that the defective rate is reduced and the assembly quality is maintained to be high, so that the productivity can be improved.

When the slider 40 is toggled in correspondence to the direction in which the rotary pushing portion 30 is hinged, the extending protrusion 45 is pivotally moved in the direction opposite to the predetermined reference position A, do. The switching unit 60 provided at the lower end of the extending protrusion 45 is selectively connected to the connection unit 52a of the connection terminal unit 50 to be described later while swinging in the diagonal direction with respect to the extending protrusion 45 .

When the external force that presses the driving knob portion 20 so as to move up and down is removed, the second elastic returning means 23 is elastically lifted and returned by the elastic restoring force. At the same time, the rotation pressing portion 30 can be elastically rotated and returned at an angle that is hinged by the elastic restoring force of the first elastic returning means 33.

Therefore, the pressing portion 30 is hingedly rotated in a state where the pressing projection portion 31 is engaged with either one of the protrusion fitting portions 41 only when the driving knob portion 20 is lifted or lowered, The reference position A can be quickly returned to the predetermined reference position A.

At this time, a restoring projection 32 is radially formed on one side of the rotary pressing part 30, and the first elastic returning part 33 is fixed to the outer side of the restoring projection 32 so that both ends thereof It is preferable to be provided with a spring. Accordingly, since the first resilient returning means 33 is compactly provided inside the switch 100, malfunction due to interference with peripheral components during the switching operation can be minimized.

When the rotary pushing portion 30 is hinged about the hinge turning portion 22, the restoring protrusion 32 presses one end of the both ends of the first elastic returning means 33 corresponding to the rotating direction, While being hingedly rotated. As a result, one end of the first elastic returning means 33 is elastically deformed while expanding outward corresponding to the end turning radius of the restoring projection 32.

When the external force for lifting and lowering the driving knob unit 20 is removed, the driving knob unit 20 is returned and retracted by the elastic restoring force of the second elastic returning unit 23, . At this time, when the end portion of the rotary pressing portion 30 is separated from the upper surface portion of the slider 40, the restoring projection 32 is reversely pressed by the elastic restoring force of the first elastic returning means 33, The portion 30 can be restored to the preset reference position A.

As a result, any one of the pressing protrusions 31 is first brought into contact with the protrusion fitting portion 41 disposed on the lower side so that the pressing force is applied so that the slider 40 is toggled in accordance with the direction in which the pressing portion hinges So that the switching unit 60 can alternately swing.

Preferably, the switching unit 60 swings in the diagonal direction of the extending protrusion 45 as the slider 40 is toggled in the mounting space.

In detail, the connection terminal portion 50 is provided on the inside of the case portion 10. The connection terminal portion 50 includes a base terminal portion 51 to which a power source side connection line is connected and a switching terminal portion 52 to which a load side connection line is connected. Here, a connection portion 52a is formed at the end of the switching terminal portion 52. Of course, the switching terminal portions 52 may be provided as a pair, and the connection portions 52a of the switching terminal portions 52 may be disposed on both sides of the lower center portion of the mounting space, .

The swinging part 60 is swingably engaged with the swinging part 60 of the swinging part 60. The swinging part 60 of the swinging part 60 is swingably engaged with the base part 51, Grooves 54a may be formed.

The switching unit 60 includes a body portion 61, a support portion 62, and an elastic portion 63. In detail, the body portion 61 is provided with a contact projection 61a which is disposed to face the switching terminal portion 52 and selectively contacts the connection portion 52a. The support portion 62 extends from the body portion 61 and has an engagement step 62a which is engaged with the swing groove 54a at an end thereof.

In addition, the elastic portion 63 is preferably provided so that the switching portion 60 and the extending protrusion 45 are elastically connected. The elastic portion 63 may be formed of a coil spring or the like and a coupling portion 61b is formed in the body portion 61 to receive and retain one end of the elastic portion 63, 45 may be formed with a coupling groove in which the other end of the elastic part 63 is fitted and constrained.

That is, when the swinging motion of the switching unit 60 is performed, the elastic part 63 may be smoothly driven while being elastically deformed. When the swinging motion of the switching unit 60 is completed, the body portion 61 is elastically supported by the restoring force of the elastic portion 63 so that the connection between the contact protrusion 61a and the connection portion 52a The force can be stably supported.

The connection terminal portion 50, the body portion 61 and the support portion 62 are made of a material having high conductivity such as brass, copper, platinum or the like so as to minimize a resistance loss of a current transmitted through each of the connection lines .

The swing groove 54a may have a V-shaped groove whose both ends are spaced apart from each other in correspondence with the swing motion radius of the switching unit 60. Accordingly, when the switching unit 60 swings in one direction or the other, the outer surface of the engaging step 62a and the inner surface of one side or the other side of the swing groove 54a are substantially in surface contact with each other, And can be stably energized.

In addition, a plurality of elastic pieces 18 may be provided to reinforce contact forces of the connection lines and the contact terminal portions. The elastic piece 18 may be integrally formed with the base terminal portion 51 and the switching terminal portion 52. The elastic piece 18 may be integrally formed with the connection terminal portion 51 and the switching terminal portion 52, But may be provided in various forms. In addition, a fuller portion 19 may be further provided for selectively pressing one side of each elastic piece 18 to stably separate the connection lines.

That is, the switching unit 60 is connected to the extending protrusion 45 by the elastic portion 63 while being supported by the swing groove 54a, and when the slider 40 is toggled, 45 in the diagonal direction opposite to the pendulum movement direction. Accordingly, the contact protrusion 61a can be selectively connected to the connection portion 52a so that current can be conducted or disconnected.

3A, when the slider 40 is toggled to the first position, the switching unit 60 swings in the backward direction of the main body 11, and the contact protrusions 61a May be in contact with the connection portion 52a.

On the other hand, the push button portion 70, which is pressed by an external force and has a pressing protrusion 72 protruded from the bottom portion, may be further provided on the upper side of the case portion 10. In detail, the push button portion 70 includes a button base 71 having a hinge connection portion 73 protruded downward on the rear side of the lower portion. The push button portion 70 may be provided at a rear side of the upper surface portion of the case portion 10 with a hinge connection portion 17 hinged to the hinge connection portion 73, And can be pivoted up and down about the connected hinge shaft 74.

Here, the switch 100 may directly press the upper surface of the drive knob portion 20, but the push button portion 70 may be provided to securely protect each component provided inside, The aesthetic sensation can be improved.

When the upper surface portion of the button base 71 is pressed, the upper surface of the driving knob portion 20 is pressed by the pressing protrusion 72 to continuously perform the above-described driving process, so that the switching portion 60 It can be swinging motion.

Then, when the external force for the pressing operation is removed, the pressing projection 72 is reversely pressed upward by the driving knob portion 20, which is returned by the second elastic returning means 23. Accordingly, the push button unit 70 can be always kept in a state of being inclined in one direction. Of course, the pressing protrusions 72 may be provided to press both ends or the front and rear ends of the upper surface of the driving knob portion 20 as the case may be. The push button unit 70 may be provided so as to be spaced apart from the upper end of the case unit 10 at a predetermined interval and to be horizontally disposed such that the upper surface unit is always horizontally disposed by the elastic restoring force of the second elastic return unit 23. [ have.

The stopper portion 76 may be downwardly protruded on the front side of the lower surface of the push button portion 70. In detail, the stopper portion 76 may extend downward from the lower surface of the button base 71 and have a stepped portion formed on the end side thereof. A stopper mounting portion 16 may be provided on the front side of the upper surface of the cover portion 12 so that the stopper portion 76 is inserted to engage the stepped portion.

Here, when the driving knob 20 is moved backward by the elastic restoring force, the pushing protrusion 72 is upwardly pressed by the elastic restoring force of the driving knob 20, Up. At this time, as the end of the stopper portion 76 is hooked on the stopper mounting portion 16, the rotation angle of the push button portion 70 rotated about the hinge shaft 74 may be limited.

The stopper portion 76 is engaged with the stopper mounting portion 16 so that the rotation angle of the push button portion 70 is limited so that the driving knob portion 20 can be separated or disengaged So that the durability of the product can be further improved.

Referring to FIG. 3B, when the push button unit 70 is pressed, the upper surface of the driving knob unit 20 is pressed upward by the downward movement of the pushing protrusion 72. At this time, the lifting and lowering protrusion 21 restrains lifting and lowering of the driving knob portion 20 along the lifting guide groove 14, and the second elastic returning means 23 drives the driving knob portion 20 20 and the inner bottom surface portion 13a of the slide tube portion 13. [0054] Accordingly, since the driving knob 20 is stably lifted and lowered in a balanced state from the inside of the slide tube portion 13 irrespective of the position where the driving knob 20 is pressed, the operation reliability can be further improved.

The rotation pushing portion 30 is lowered in response to the lowering of the driving knob portion 20 and the end portion of the pressing protrusion 31 is brought into close contact with and close to the upper surface portion of the slider 40. At this time, since the slider 40 is toggled to the first position, the other pressing protrusion 31a first contacts the rear protrusion fitting portion 41a.

As the external force for pushing the push button portion 70 is continuously applied, the other side round contact surface 31c is engaged with the rear round type join surface 41c so that the other side pressing protrusion 31a, Is restrained to the other stopper step 43a.

The one side pressing protrusion 31b can be inserted into the escape groove 44 as the rotary pressing portion 30 is hingedly rotated in the direction corresponding to the toggle moving direction of the slider 40. [ Accordingly, the slider 40 can be inclined in the diagonal direction corresponding to the toggle movement direction by the pressing protrusion 31, and the rotation pushing portion 30 can be moved in the toggle movement direction of the slider 40 And can be hingedly rotated in the corresponding direction.

The rotary pushing portion 30 is hingedly rotated together with the lowering of the driving knob portion 20 so that the other pressing protrusion 31a is constrained to the other stopper step 43a, So that the rear projection extrusion portion 41a is inclinedly pressed. Accordingly, the slider 40 can be slid transversely toward the rear side along the inner surface of the guide rail portion 15 and can be toggled. That is, since the rotary pressing portion 30 presses the projection fitting portion 41 in the diagonal direction corresponding to the rotating direction, the rotary pressing portion 30 moves in the direction of the waterline, which acts upon the pressing operation of the driving knob portion 20, The pressing force can be switched to the driving force in the horizontal direction with respect to the slider (40).

When the rotary pushing portion 30 is hingedly rotated in the other direction, the other elastic end of the first elastic returning means 33, which is provided to surround the outer side of the rotary pushing portion 30, As shown in Fig.

When the slider 40 is toggled toward the rear side along the inner surface of the guide rail portion 15, the switching portion 60 swings in one direction of the mounting space with respect to the swing groove 54a do. Therefore, the contact protrusion 61a can be disconnected from the connection portion 52a and released from the power supply connection state.

Accordingly, the switch 100 is configured such that the rotary pushing portion 30, which is lowered by the external force that the drive knob portion 20 is lifted and lowered in the up and down direction, causes the round contact surfaces 31c, 41c, and 41d so as to provide a driving force in the horizontal direction with respect to the slider 40, so that the operation feeling can be improved. That is, since the round contact surfaces 31c and 31d and the round contact surfaces 41c and 41d are hinged to each other while being in surface contact with each other, The friction generated due to the concentrated load applied to one side is minimized and a smooth operation feeling can be provided.

3C, when the external force for depressing the driving knob 20 is removed in a state in which the slider 40 is toggled toward the rear side, the driving knob 20 and the rotary pressing The portion 30 is restored to the predetermined reference position A, respectively.

The second elastic returning unit 23 provided between the driving knob unit 20 and the inner bottom surface 13d of the slide tube unit 13 is elastically restored, And can be moved up and down.

When the drive knob portion 20 is raised or lowered, the rotary pushing portion 30 is also lifted and lowered, so that the ends of the pair of the press protrusions 31 are separated from the upper surface of the slide slope portion. Therefore, the force of supporting the rotary pressing portion 30 in the hinged state is lost, and can be returned to the predetermined reference position A by the elastic restoring force of the first elastic returning means 33. At this time, since the slider 40 is toggled to the second position, the front round-type mating face 41d is disposed so as to be vertically opposed to the one-side round contact face 31d formed on the one-side pressing protrusion 31b do.

Accordingly, in the state where the external force for depressing the drive knob portion 20 is removed, the switch 100 is moved to a position where any one of the pair of the pressing protrusions 31 is mutually engaged It can be clearly switched and operated even in repetitive operations as it is restored to the position where it faces the projecting mold overlapping portion 41. [

Here, the terms "comprises", "comprising", "having", or "having" as used in the above description mean that the constituent element can be included unless otherwise stated. It is to be understood that the invention is not limited to the components but may include other components. All terms, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, unless otherwise defined. Commonly used terms, such as predefined terms, should be interpreted to be consistent with the contextual meanings of the related art, and are not to be construed as ideal or overly formal, unless expressly defined to the contrary.

As described above, the present invention is not limited to the above-described embodiments, and variations and modifications may be made by those skilled in the art without departing from the scope of the present invention. And these modifications fall within the scope of the present invention.

10: case part 13: slide tube part
20: drive knob 30: rotary pushing part
31: pressing protrusions 31c, 31d: round contact surface
40: Slider 41a: Rear protrusion fitting part
41b: forward projecting mold engagement portions 41c, 41d: round-
41e, 41f: guide surface portion 44: escape groove portion
50: connection terminal portion 60:
100: Switch

Claims (5)

A casing having a mounting space formed therein and having a plurality of insertion holes into which a power source side and a load side connection line are inserted and a slide tube portion on the upper side;
A drive knob portion provided inside the slide tube portion and being elastically lifted and lowered by an external force;
A rotary pressing portion hinged to a lower end of the driving knob portion so as to be elastically returned to a preset reference position, the rotary pressing portion being pivoted downward in a radial direction with a pair of pressing protrusions separated from each other by a predetermined angle;
And is formed at one side and the other of the other pressing protrusions so as to be selectively inclined forward and backward horizontally in the horizontal direction by being pressed downward in the diagonal direction corresponding to the rotating direction when the rotary pressing portion is lowered at the lower side of the rotary pressing portion A slider having front and rear projecting mating portions and rear mating molding portions spaced apart from each other on the front and rear sides; And
And a switching unit accommodated in the mounting space and selectively connected to a connection portion of the load side connection line in accordance with the toggle movement of the slider,
Wherein a pair of press protrusions are formed on the inner circumferential surface of the inner circumferential surface of the inner circumferential surface of the inner circumferential surface of the inner circumferential surface of the outer circumferential surface Formed,
Wherein each of the pressing protrusions is formed with a round contact surface having a convexly rounded outer surface profile toward the end thereof, and the front protrusion mold overlap portion and the rear protrusion mold overlap portion are provided with rounds Wherein the rounded mating surface is formed with a rounded mating surface having an outer surface profile that fits into the round mating surface, and wherein when one of the round mating surfaces is lowered, And are arranged to face each other in the vertical direction,
Wherein when the push button portion is pressed, the rotary pressing portion is engaged with the round-shaped mating surface in which the round mating surfaces of either one of the pair of pressing protrusions are vertically disposed, and the other side is inserted into the inside of the escape groove portion, And is hingedly rotated in a state in which the contact with the rotating shaft is prevented,
And a flat profile is formed in the transverse direction so as to correspond to the toggle movement direction of the slider in a continuous profile from the inner end of the rounded mating surface so that a clearance is formed at mutually opposite inner ends of the front projection mating portion and the rear projection mating portion And a guide surface portion extending in a direction adjacent to the escaping groove portion,
The case portion is provided with a base terminal portion extending in a lateral direction so as to be disposed on a connecting portion to which the load side connecting line is connected and having a pair of extending portions connected to the power source side connecting line,
Wherein the switching unit includes a pair of support portions which are engaged with swing grooves formed in the respective extension portions, an elastic portion coupled to a lower end portion of the slider, and a connection portion connected to a lower end of each of the support portions, And a body portion connected to the elastic portion so as to swing with the elastic portion. delete delete delete delete

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