KR100607042B1 - Printed Circuit Board Tact Switch - Google Patents

Abstract

The present invention relates to a PCB non-tact switch, the insulating member 100 made of a non-conductor through which the electricity does not pass in a thin plate shape; A spacing member 200 disposed on an upper surface of the insulating member 100; A lower pattern 300 attached to the lower surface of the insulating member 100 with a good conductive material; A solder mask 400 covering a portion of the lower pattern 300 except for a position where soldering is required as a non-conductor; A step portion 500 which is formed through the center portion of the gap maintaining member 200 and the insulating member 100 to form a space 510 to expose the upper surface of the lower pattern 300; An upper conductive coating layer 600 coated on the upper surfaces of the gap maintaining member 200 and the stepped part 500 for electrical contact; A lower conductive coating layer 610 coated on the outer circumference of the lower pattern 300 for electrical contacts; A conductive insulation part 700 which cuts the upper conductive coating layer 600 and the gap maintaining member 200 to electrically insulate the circumference and the center part; The center is a convex shape, which is energized and has elasticity, and the lower circumference is mounted on the outer side of the energization insulation part 700 formed in the upper conductive coating layer 600, and elastically bent when pressed, and the center is stepped portion 500 A metal dome 800 in contact with the position of the lower pattern 300 through; It is composed of a coverlay 900 which is bonded to the upper surface of the upper conductive coating layer 600 to prevent the metal dome 800 from being separated, sufficient to the position of the lower pattern 300 when the metal dome 800 is clicked The operating space is provided so that the user can easily identify the creek to reduce the occurrence of malfunction caused by the ash creek, thereby improving the operation accuracy and reliability of the applied electronic device.

Description

PCB Tact Switch {Printed Circuit Board Tact Switch}             

1 is an enlarged cross-sectional view showing a structure of a conventional PCT tact switch.

Figure 2 is a perspective view of the assembled PCB switch tact of the present invention.

Figure 3 is an exploded perspective view showing an exploded configuration of the PCT tact switch main portion of the present invention.

Figure 4 is a bottom perspective view showing the shape of the bottom of the present invention as an example.

5 is a partially enlarged perspective view of the present invention;

6 is a cross-sectional view showing a structure of the present invention.

* Description of the major symbols in the drawings *

100-Insulation member 200-Spacing member

300-Lower Pattern 310-Stepped Projection

400-Soldermask 500-Stepped

600-upper conductive coating layer 700-conducting insulation

800-Metal Dome 900-Coverlay

The present invention relates to a PCB bet tact switch, and more particularly, to improve the performance and reliability of the product by improving the creep properties and preventing malfunction due to product defects.

In general, the tact switch is a typical switch used in various electronic products such as performing the opening and closing operation of the circuit by a light contact, the role of connecting and disconnecting the circuit is accurate, easy, and simple in structure.

Recently, it is mainly used for portable communication devices such as cellular phones and miniaturized notebooks, portable cassettes, MP3s, etc., which are becoming more and more advanced. Tact switches are also small in weight, size, and thickness. Tact switches have been proposed.

The configuration of a conventional PCB-type tact switch known in the prior art is shown in FIG.

That is, the insulating member 10 formed of a non-conductive material that is not electrically conductive in a thin plate shape,

An upper pattern 20 having a conduction insulation portion 24 formed on the insulation member 10 as an electrically conductive material capable of conducting electricity and electrically insulating the central contact portion 21 and the external contact portion 23. )and,

A lower pattern 30 positioned on the lower surface of the insulating member 10 as a conductive material capable of conducting electricity;

It is made of a metal material with good elasticity and energization. The center is seated on the outer contact part 23 of the upper pattern 20 and its center is protruded convexly at a distance from the position of the center contact part 21. When the external pressing force is applied in the state in which the center is in contact with the central contact portion 21 to electrically connect and disconnect, and the metal dome 40,

A cover layer 50 for fixing the metal dome 40 to the upper surface of the upper pattern 20 with a non-conductor;

A through hole 60 penetrating through the upper pattern 20, the insulating member 10, and the lower pattern 30 so as to have a space to avoid the air filled therein when the metal dome 40 is creep;

The lower surface of the lower pattern 30 is composed of a solder mask 70 to cover the portion except the position requiring the solder as a non-conductor.

Therefore, when the user presses and presses substantially the center portion of the metal dome 40 in the state applied to the electronic device, the circumference of the metal dome 40 is already in contact with the variable contact portion 23, and the center portion thereof is the center contact portion. By contacting with (21), a circuit connected by soldering to any corner of the lower pattern 30 is operated or an operation signal is applied.

However, according to the conventional tact switch structure having the above-described structure, when the circuit metal dome 40 is lightly pressed and an electrical circuit connection and an operation signal are desired, the center bottom portion of the metal dome 40 has an upper portion of the upper pattern 20. The contact is made near the center of the face.

In this case, the height of the central contact portion of the metal dome 40 is also relatively small to be applied to the electronic component of the ultra-light and small form, so that the outer contact portion 23 and the center contact portion 21 of FIG. According to the conventional structure set to the same height, there is a problem in that the crevice feel of the metal dome 40 is felt too fine, that is, the creep is deteriorated.

This phenomenon may cause malfunction of the whole device due to ash creek because the user does not feel the electrical contact.

On the other hand, when the metal dome 40 is creeked, the process of drilling through holes to avoid the air filled therein is processed by using a drill, so that the defect of the product in the process of drilling a small diameter hole in a very thin and small switch again. It was the cause of mass production.

In addition, since the volume of the air flow hole is significantly shorter than that of the space formed in the lower portion of the metal dome 40, the air avoidance effect cannot be expected, and thus the creep of the metal dome is deteriorated.

In addition, when the through hole 60 is drilled through the insulating member 10 and the lower pattern 30 from the upper pattern 20 in the manufacturing process, this through in the soldering process with the circuit performed at the corner position of the switch. Lead is introduced through the hole 60.                         

Therefore, in order to block the through hole 60, a solder mask 70 for blocking insulation and solder inflow is mainly performed by a printing method. Since the solder mask 70 is made in a printing process, the through hole 60 is performed. ) Was not expected to be completely blocked with ink, causing the manufacturing cost to increase due to the hassle of the number of processes that need to be performed many times 2-3 times.

However, when the through-hole 60 is cut off depending on the ink, even if the number of steps is repeated a number of times, the through-hole 60 cannot be completely blocked, resulting in a defect in the switch, thereby lowering the reliability of the product. There was a downside.

It is an object of the present invention to provide a PC bit tact switch having better creep property by sufficiently descending to the position of the lower surface of the cliché of the metal dome so as to be in contact.

It is another object of the present invention to provide a PC bit tact switch that has a sufficient volume of air flow holes to have a softer touch.

Another object of the present invention is because the through-hole penetrating the upper pattern and the insulating member and the lower pattern is not formed in advance to prevent product defects generated during the hole blocking process, and improve the productivity to provide a PCT tact switch To provide.

Another object of the present invention is to provide a fish bit tact switch that can improve the functionality and reliability of the product.

The configuration of the present invention, the insulating member 100 made of a non-conductor through which electricity is not thin in the form of a plate;

A spacing member 200 disposed on an upper surface of the insulating member 100;

A lower pattern 300 attached to the lower surface of the insulating member 100 with a good conductive material;

A solder mask 400 covering a portion of the lower pattern 300 except for a position where soldering is required as a non-conductor;

A step portion 500 which is formed through the center portion of the gap maintaining member 200 and the insulating member 100 to form a space 510 to expose the upper surface of the lower pattern 300;

An upper conductive coating layer 600 coated on the upper surfaces of the gap maintaining member 200 and the stepped part 500 for electrical contact;

A lower conductive coating layer 610 coated on the outer circumference of the lower pattern 300 for electrical contacts;

 A conductive insulation part 700 which cuts the upper conductive coating layer 600 and the gap maintaining member 200 to electrically insulate the circumference and the center part;

The center of the convex shape is electrically conductive and has elasticity. The lower circumference is placed on the outer contact portion located around the conduction insulation portion 700 formed on the upper conductive coating layer 600. A metal dome 800 in contact with the position of the lower pattern 300 through the stepped part 500;

It is achieved by being composed of a coverlay 900 that is bonded to the upper surface of the upper conductive coating layer 600 to prevent the metal dome (800) from being separated.

Therefore, since the through hole is not formed as in the prior art, the hole processing step by the drill is unnecessary.

This through hole also eliminates the need for technical efforts to completely prevent flux and solder from flowing through the through hole during soldering and significantly reduces the failure rate.

When the metal dome 800 is creeked, the stepped portion 500 is provided as much as the thickness of the gap maintaining member 200, so that the creme may have a sufficient creek feeling, thereby preventing a malfunction of the device for the ash creek.

In addition, since a sufficient volume of air flow space is provided to provide a softer texture than the creek.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 shows the structure of a conventional tact switch in cross section.

Figure 2 shows a perspective view of the appearance of the completed tact switch of the present invention.

3 is an exploded perspective view showing the main configuration of the present invention, and FIG. 4 is a perspective view showing the shape of the bottom of the completed tact switch.

5 shows that the stepped protrusion 310 is extended by forming an edge part of the present invention, and FIG. 6 shows an enlarged cross-sectional view of the configuration of the present invention than it actually is.

As shown in the drawing, the insulating member 100 is a non-conductor in a thin plate shape, and electrically insulates the space keeping member 200 and the lower pattern 300 positioned at an upper portion thereof.

The gap maintaining member 200 is located on the upper surface of the insulating member 100 and has a function similar to that of a conventional upper pattern. The material may be a conductive material, that is, a thin sheet copper (Cu) material and a non-conductive non-conductive material. The sheet material of synthetic resin series may be selected.

On the other hand, the lower pattern 300 attached to the lower surface of the insulating member 100 is made of a thin plate-like conductive material to electrically connect to the circuit of the electronic device, mainly selected as a thin thin copper (Cu) material. .

Here, the epoxy resin of the synthetic resin series is suitable as a material of the insulating member 100 to electrically insulate the gap maintaining member 200 and the lower pattern 300.

At this time, it is advantageous in the manufacturing process that the insulating member 100 is selected as a sheet member having adhesive performance on one or both surfaces, such as a tape.

That is, it is perforated together in the press to form the step portion 500 made in the next process by simply adhering the gap maintaining member 200 located above the insulating member 100.

After the perforation of the stepped part 500, the lower pattern 300 is thermally bonded in a state of being positioned on the lower surface of the insulating member 100.

The lower portion of the lower pattern 300 is a solder mask 400 is attached.

That is, the solder mask 400 covers a portion of the lower pattern 300 except the position where soldering is required, most of the soldering portion except the soldering portion located at the corners as shown in FIG. 4 as a non-conductor. It is usually made of nonconductive ink.

As described above, the gap maintaining member 200 and the insulating member 100 are bonded to each other, and a step portion 500 is formed by a press mold at a central portion thereof.
The space 510 is formed in the center by the stepped part 500.

Accordingly, the upper surface of the lower pattern 300 made of the conductor is exposed to be in contact with the metal dome 800 by the space 510, and the upper conductive coating layer 600, which is a post process, is formed on the lower pattern 300. It may also be coated on the top exposed portion of.

Here, since both the lower pattern 300 and the upper conductive coating layer 600 are made of the same material as will be described later as an electrically conductive material, it is necessarily exposed to the upper surface of the lower pattern 300 by the stepped part 500. The upper conductive coating layer 600 does not need to be coated to the portion, but the conductive material is coated on the upper exposed portion of the lower pattern 300 in the plating process.

As such, the upper conductive coating layer 600 is coated with a thin thickness on the upper surface of the gap maintaining member 200 with a conductive material for electrical contact.

The material of the upper conductive coating layer 600 can be uniformly good working and is selected as a good electrical conductivity material, mainly coated with a copper material plating method.

In this case, the upper conductive coating layer 600 is also formed at the periphery of the step portion 500 drilled in the gap maintaining member 200 and the insulating member 100.

Meanwhile, the lower conductive coating layer 610 is formed on the lower exposed surface as a whole by coating with the upper conductive coating layer 600 together with the copper plating method while the lower pattern 300 is already attached to the lower portion of the insulating member 100. do.

In this case, as shown in FIG. 4, at least one conductive insulation portion 710 is formed to cut the lower conductive coating layer 610 by etching in the vicinity of a corner for electrical insulation.

Then, the upper conductive coating layer 600 and the gap maintaining member 200 are cut out together to form an electrically conductive insulating part 700 so as to electrically insulate the outer periphery and the central part positioned around the periphery.

Therefore, in the state where the metal dome 800 is placed on the upper portion, the circumference of the metal dome 800 is positioned at the outer circumference of the conduction insulation unit 700 as a boundary, and the center of the metal dome 800 is located at the stepped portion 500. Since it is brought to the center position of the space 510 formed by the convex state, the distance is maintained and enough creek spacing.

The metal dome 800 has a dome shape in which its shape is convex in the center, and the material is selected from a metal material that is energizable and has elasticity.

Therefore, the lower circumference of the metal dome 800 is elastically bent while pressing in a state in which it is in contact with the outer contact portion of the circumferential side of the current-carrying insulating portion 700 cut by the upper conductive coating layer 600 by etching. The stepped part 500 is contacted to the position of the lower pattern 300 to connect a specific circuit of the electronic device or to apply an operation signal.

The circumference of the metal dome 800 is prevented from being separated by the coverlay 900 is attached to the upper surface of the upper conductive coating layer 600.

The metal dome 800 is elastically bent when pressed to have an elastic force immediately returned by elasticity when the pressing force is released after contact with the upper surface of the upper conductive coating layer 600.

The coverlay 900 is a film of synthetic resin series and has a thermosetting adhesive applied to its lower surface. The coverlay 900 is firmly thermally bonded to the upper surface of the upper conductive coating layer 600 while the metal dome 800 is exposed to the center. Will be.

According to the tact switch structure configured as described above, the bottom surface of the metal dome 800 is in contact with the upper pattern 20 in the case of the creep of the metal dome 800, but according to the tact switch structure of the present invention, the space maintaining member ( The stepped portion 500 has a height of 200, and the metal dome 800 is in contact with the lower pattern 300 in the space 510 formed by the stepped portion 500.

Therefore, the user can be delivered as it is to feel the touch at the maximum value of the deformation range of the metal dome 800, it is possible to improve the contact feel.

On the other hand, it is preferable to form a stepped protrusion 310 on which a part of the lower pattern 300 extends, as shown in FIGS.

The stepped protrusion 310 may be firmly seated and fixed to a soldered structure than a structure without a stage when soldering a set PCB, thereby improving stability of the circuit.

According to the configuration of the present invention described above, there is no through hole for the conventional air evacuation space.

Therefore, the technical work process for processing the through-hole and blocking the through-hole is unnecessary, and there is no defect generated in the through-hole blocking.

In addition, when the metal dome 800 is creep, a sufficient operating space is provided to the position of the lower pattern 300 so that the user can easily grasp the creek, thereby reducing the malfunction caused by the ash creek, thereby reducing the operation accuracy and reliability of the applied electronic device. Is improved.

 In addition, the creep properties of the metal dome can be improved, and the production cost of the product can be reduced by the simplification of the process.

Therefore, it is a very useful invention that can improve the reliability and commerciality of the product.

Claims (5)

An insulating member (100) made of a non-conductor in a thin plate shape that does not conduct electricity; A spacing member 200 disposed on an upper surface of the insulating member 100; A lower pattern 300 attached to the lower surface of the insulating member 100 with a good conductive material; A solder mask 400 covering a portion of the lower pattern 300 except for a position where soldering is required as a non-conductor; A step portion 500 which is formed through the center portion of the gap maintaining member 200 and the insulating member 100 to form a space 510 to expose the upper surface of the lower pattern 300; An upper conductive coating layer 600 coated on the upper surfaces of the gap maintaining member 200 and the stepped part 500 for electrical contact; A lower conductive coating layer 610 coated on the outer circumference of the lower pattern 300 for electrical contacts;  A conductive insulation part 700 which cuts the upper conductive coating layer 600 and the gap maintaining member 200 to electrically insulate the circumference and the center part; The center of the convex shape is electrically conductive and has elasticity. The lower circumference is placed on the outer contact portion located around the conduction insulation portion 700 formed on the upper conductive coating layer 600. A metal dome 800 in contact with the position of the lower pattern 300 through the stepped part 500; PCB tact switch, characterized in that consisting of a coverlay 900 is bonded to the upper surface of the upper conductive coating layer 600 to prevent the metal dome (800) from being separated. The PCT tact switch according to claim 1, wherein the gap maintaining member (200) is a thin plate copper material. The PCT tact switch according to claim 1, wherein the gap maintaining member (200) is a synthetic resin sheet. The PCB tact switch according to claim 1, wherein the lower pattern (300) is formed by extending the stepped protrusion (310) to allow the soldered part to be seated. The PCB tact switch according to any one of claims 1 to 4, wherein the upper conductive coating layer (600) and the lower conductive coating layer (610) are made of copper.

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