KR101154492B1 - Push the switch terminals - Google Patents

Abstract

PURPOSE: A terminal structure of a pushup switch is provided to obtain a stable support function by forming a position fixing pin on the lower side of a terminal body. CONSTITUTION: A terminal body(14a) is closely adhered to a PCB(200). A main ground terminal(15a), a first branch ground terminal(16a), a second branch ground terminal(17a) are fixed to a terminal installation surface. The terminal body forms an adhesion terminal(14c) and comprises two or more hitching terminals(14d). The hitching terminals are downwardly protruded from the lower side of the adhesion terminal.

Description

Push the switch terminals

The present invention relates to a terminal structure of a push-up switch, and in particular, induces the position selection when installing the switch to be contacted with the PCB substrate and is engaged through the PCB substrate so that the engagement strength of the switch is fixed and the movement is fixed to stabilize the contact. It relates to the terminal structure of the push-up switch.

In general, a push switch is a switch in which contacts are connected and disconnected by an external operating force, and in view of the configuration, a rod that is elastically operated by a spring is installed into a case, and a movable contact is installed on one side of the lower side of the rod. The inner surface of the cover coupled to one side of the case is provided with a fixed contact on the upper side and the lower side, respectively.

Therefore, when the rod of the push switch is not pressed, the lower movable contact installed on the rod is connected to the lower fixed contact installed on the cover, while the upper movable contact is separated from the upper fixed contact installed on the cover, and the electrical signal by the push switch is turned off. To be.

When the rod of the push switch is pressed, the upper and lower movable contacts installed on the rod are connected to the upper and lower fixed contacts installed on the cover, and the electrical signal by the push switch is turned on.

However, when a conventional push switch is coupled to a PCB substrate for contact, the terminal pin of the terminal penetrates the PCB substrate to contact the PCB substrate by soldering.

As such, when only the terminal pin of the push switch is fixed to the PCB substrate by contact, when a lateral force is generated in the push switch, a portion contacted with the PCB substrate is dropped, thereby preventing a smooth contact.

In addition, when the push switch is coupled to the PCB substrate, there is a problem that it is difficult to accurately position by inserting the terminal pin.

As a result, when the push switch is directly contacted with the PCB substrate, it is easy to select a position, and even if a lateral force is applied to the push switch, the terminal structure of the push switch that does not cause a contact failure for signal transmission is desperately required. to be.

Accordingly, the present invention has been made in view of the above-described problems of the prior art, and the terminal structure of the push-up switch does not allow the switch to be easily detached from the PC substrate even though the terminal is fixed by soldering through the PCB and the side force is generated. The purpose is to provide.

In addition, another object of the present invention is to maintain the contact in a stable state without being released even if a lateral force is generated throughout the switch by the locking end that is caught through the PCB to the lower portion of the terminal body.

In addition, another object of the present invention is to provide a positioning pin to the lower portion of the terminal body to guide the position setting when the switch is coupled to the PCB substrate and to respond to the lateral force with the locking end and to ensure a stable support function.

In order to achieve the above object, the present invention is a push switch configured to switch the flow direction of the power supply by grounding operation to the grounding terminal arranged in a plurality of movable terminals moving to push, pull out operation of the push button is coupled to the PCB In the structure of the terminal, the ground terminal, the main ground terminal, the first branch ground terminal, the second branch ground terminal is coupled to the terminal body of the terminal, the main ground terminal is the power supply and the movable terminal is always supplied, contact The main terminal pin is integrally formed under the ground terminal, and the first branch ground terminal is integrally formed with the first branch terminal pin under the first branch ground terminal selectively contacted with the movable terminal. The branch ground terminal has a second branch terminal pin integrally formed under the second branch ground terminal that is selectively contacted with the movable terminal, and the terminal body has a main ground terminal, a first branch ground terminal, and a second branch terminal pin. The branch ground end is in close contact with the PCB to be orthogonal to the lower part of the terminal installation surface fixed to the surface, and forms a close end through which the main terminal pin, the first branch terminal pin, and the second branch terminal pin are exposed. The terminal structure of the push-up switch comprising a two or more locking ends protruding downward from the lower surface, the locking end of the terminal body through the PCB to prevent the movement of the push switch. to provide.

As described above, the present invention has an effect of preventing the switch from being easily detached from the PCB substrate even if the terminal is penetrated through the PCB and fixed by soldering so that a lateral force is generated.

In addition, even when a lateral force is generated in the entire switch by the locking end that is caught through the PCB to the lower portion of the terminal body, it is supported without being separated and there is an effect of maintaining the contact in a stable state.

In addition, the position fixing pin is formed in the lower portion of the terminal body to guide the position setting when the switch is coupled to the PCB substrate, it has the effect of responding to the lateral force with the locking end and a stable support function.

1 is a perspective view of a push switch and a PCB to which the terminal structure of the push-up switch according to the present invention is applied;
2 is a longitudinal cross-sectional view of FIG.
3 is an exploded perspective view of a terminal and a PCB of a push-up switch according to the present invention;
4 is a perspective view of a main ground terminal, a first branch ground terminal, and a second branch ground terminal;
5 is an operation cross-sectional view of the push switch to which the terminal structure of the push-up switch according to the present invention is applied.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

As shown in FIGS. 1 to 4, the terminal structure of the push-up switch of the present invention has a ground terminal 13 having a plurality of movable terminals 12 moving in a push and pull operation of the push button 11. The push switch 100 is configured to switch the flow direction of the power supply to the ground operation to the structure of the terminal 14, the contact coupled to the PCB 200.

Such a ground terminal 13 will be described taking as an example three configurations in the present invention.

In this way, the ground terminal 13 is the main ground terminal 15, the first branch ground terminal 16, the second branch ground terminal 17 is coupled to the terminal body 14a of the terminal 14.

First, the main ground terminal 15 has a main terminal pin 15b integrally formed under the main ground terminal 15a to which the power supply and the movable terminal 12 are always supplied and contacted.

The main ground terminal 15 is configured in a date form.

In addition, the first branch ground terminal 16 is integrally formed with a first branch terminal pin 16b under the first branch ground terminal 16a that is selectively contacted with the movable terminal 12.

In this case, the first branch ground terminal 16 is formed as an inverted letter 'b' and the first branch ground terminal 16a is spaced apart from the upper portion of the main ground terminal 15a.

In addition, the second branch ground terminal 17 is integrally formed with a second branch terminal pin 17b under the second branch ground terminal 17a selectively contacted with the movable terminal 12.

In this case, the second branch grounding terminal 17 is formed of a letter 'b' and the second branch grounding terminal 17a is spaced apart from the upper portion of the first branching grounding terminal 16a.

In addition, the terminal body (14a) is a PCB ratio perpendicular to the lower portion of the terminal mounting surface (14b) is fixed to the main ground terminal (15a), the first branch grounding end (16a), the second branch grounding end (17a) surface The close contact 14c is in close contact with the substrate 200 and exposed through the main terminal pin 15b, the first branch terminal pin 16b, and the second branch terminal pin 17b.

In addition, the locking end 14d protruding downward from the lower surface of the close end 14c is constituted by two or more.

In addition, two or more position fixing pins 14e penetrating through the PCB 200 are formed on the lower surface of the locking end 14d of the terminal body 14a so as to be spaced apart from each other.

That is, the position is selected so that the locking end 14d of the push switch 100 penetrates and engages with the PCB 200, and the position fixing pin 14e is coupled with the locking end 14d. It is configured to prevent the movement of the push switch 100 is coupled to penetrate through the 200.

Such, the present invention is configured to prevent the movement of the push switch 100 is locked 14d of the terminal body 14a penetrates through the PCB 200.

Hereinafter, the operation and operation of the present invention will be described.

3 and 5, the main ground terminal 15, the first branch ground terminal 16, and the second ground terminal 13 constituting the ground terminal 13 in the terminal body 14a of the terminal 14. The branch ground terminal 17 is installed to be fixed. The main ground terminal 15a, the first branch ground terminal 16a, and the second branch ground terminal 17a are fixed to the terminal installation surface 14b.

The main terminal pin 15b, the first branch terminal pin 16b, and the second branch terminal pin 17b pass through the close end 14c of the terminal body 14a to be exposed downward.

Thereafter, the terminal body 14a to which the ground terminal 13 is coupled is inserted into the switch body 101 of the push switch 100 to complete the push switch 100.

At this time, the movable terminal 12 is continuously contacted with the main ground terminal 15, the coupling is made in the state that the contact is made to one of the first branch ground terminal 16 and the second branch ground terminal 17. do.

In addition, the push switch 100 forms a locking hole 201 and a fixing hole 202 into which the locking end 14d and the positioning pin 14e are to be inserted into the PCB 200 coupled to the contact.

In addition, when the push switch 100 is installed in the PCB 200 with a plurality of the number of the engaging hole 201 and the fixing hole 202 is formed.

In this case, the coupling end 14d and the position fixing pin 14e are inserted into the locking hole 201 and the fixing hole 202 when the push switch 100 is coupled to the PCB 200.

In addition, the same number of pinholes 203 through which the main terminal pin 15b, the first branch terminal pin 16b, and the second branch terminal pin 17b penetrate through the PCB 200 is formed.

At this time, the locking end 14d is inserted into the locking hole 201 and locked, and the position fixing pin 14e is inserted and fixed by a force fitting method when the locking pin 14e is inserted into the fixing hole 202 due to the spaced apart from each other. .

On the other hand, the main terminal pin 15b, the first branch terminal pin 16b, the second branch terminal pin 17b penetrates through the pinhole 203 and protrudes below the PCB substrate 200. The main terminal pin 15b, the first branch terminal pin 16b, and the second branch terminal pin 17b are soldered to be in contact with the PCB 200.

That is, the push switch 100 is engaged with the locking end 14d is inserted into the locking hole 201, and the position fixing pin 14e is coupled to the fixing hole 202 by forcibly fitted to the push switch 100 from the outside. Even if the lateral force is applied to the fixed state is not shaken and there is an advantage that the departure is prevented.

In addition, the main terminal pin 15b, the first branch terminal pin 16b, and the second branch terminal pin 17b pass through the pinhole 203 and are coupled to the PCB substrate 200 by soldering to thereby engage the end 14d. And with the position fixing pin 14e has the advantage of preventing the movement of the push switch 100 and at the same time a contact for a stable electricity and signal flow.

As such, when the push switch 100 is coupled to the PCB 200, the main ground terminal 15 is always supplied with power.

The power is supplied to the first branch ground terminal 16 or the second branch ground terminal 17 at the contact point of the movable terminal 12 while the power is supplied to the main ground terminal 15.

At this time, one end of the movable terminal 12 is in contact with the main ground terminal 15a of the main ground terminal 15, and the other end of the first branch ground terminal 16 or the second branch ground terminal 17 The first branch ground terminal 16a or the second branch ground terminal 17a are selectively contacted. In the present invention, the first branch ground terminal (assuming that power is supplied to the second branch ground terminal 17 first) 16) will be described as an example of switching and supplying power.

Here, when the push button 11 of the push switch 100 is pressed, the movable terminal 12 moves downward while pressing the spring 11a, and the main ground terminal 15a and the first ground terminal 15a of the main ground terminal 15 are moved. The power supplied to the second branch ground terminal 17 while being grounded to the first branch ground terminal 16a of the first branch ground terminal 16 is supplied to another place.

On the other hand, if the push button 11 of the push switch 100 is pressed once more, the push button 11 moves upward while the movable terminal 12 moves together, so that the main ground terminal 15a of the main ground terminal 15 is moved. ) And the second branch ground terminal 17a of the second branch ground terminal 17 are supplied to a place requiring power.

In this case, the position of the push switch 100 is described as an up, down position as an example, but if the front, rear, left, right position is changed to the push switch 100 in the front and rear or left and right directions Explanation will be possible.

In the above, the present invention has been illustrated and described with reference to specific preferred embodiments, but the present invention is not limited to the above-described embodiments and is not limited to the spirit of the present invention. Various changes and modifications can be made by those who have

11: push button 11a: spring
12: movable terminal 13: ground terminal
14 Terminal 14a Terminal Body
14b: Terminal mounting surface 14c: Close contact
14d: Locking End 14e: Position Lock Pin
15: main ground terminal 15a: main ground terminal
15b: Main terminal pin 16: 1st quarter ground terminal
16a: 1st branch ground terminal 16b: 1st branch terminal pin
17: 2nd quarter ground terminal 17a: 2nd quarter ground terminal
17b: 2nd branch terminal pin 100: Push switch
200: PCB substrate 201: engaging hole
202: fixing hole 203: pin hole

Claims (2)

The push switch 100 configured to switch the flow direction of the power supply by grounding operation to the ground terminal 13 having a plurality of movable terminals 12 moving by pressing and pulling out of the push button 11 is connected to the PCB 200. In the structure of the terminal 14 is contact-coupled to
The ground terminal 13 is the main ground terminal 15, the first branch ground terminal 16, the second branch ground terminal 17 is coupled to the terminal body 14a of the terminal 14,
The main ground terminal 15 has a main terminal pin 15b integrally formed under the main ground terminal 15a to which the power supply and the movable terminal 12 are always supplied and contacted.
The first branch ground terminal 16 has a first branch terminal pin 16b integrally formed under the first branch ground terminal 16a selectively contacted with the movable terminal 12,
The second branch ground terminal 17 has a second branch terminal pin 17b integrally formed under the second branch ground terminal 17a selectively contacted with the movable terminal 12,
The terminal body 14a may include a PCB substrate orthogonal to a lower portion of the terminal installation surface 14b on which the main ground terminal 15a, the first branch ground terminal 16a, and the second branch ground terminal 17a are fixed to the surface. It is in close contact with the 200 and forms a close end 14c through which the main terminal pin 15b, the first branch terminal pin 16b, the second branch terminal pin 17b penetrates, and the lower portion of the close end 14c. By constructing two or more engaging ends 14d protruding downward from the surface,
The terminal structure of the push-up switch, characterized in that the locking end (14d) of the terminal body (14a) is configured to prevent the movement of the push switch (100) is penetrated through the PCB 200. The push switch 100 of claim 1, wherein at least two position fixing pins 14e penetrating the PCB 200 are formed on the lower surface of the terminal 14a of the terminal body 14a to be spaced apart from each other. Select the position so that the engaging end 14d of the C) penetrates and engages with the PCB 200, and the position fixing pin 14e penetrates and engages with the PCB 200 with the engaging end 14d. The terminal structure of the push-up switch, characterized in that configured to prevent the movement of the push switch (100).

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