KR100832471B1 - Compression Spring and Touch Type Switch with the Same - Google Patents

Abstract

Disclosed is a compression spring and a touch switch having the same, which can simplify manufacturing and assembly, and can effectively absorb a shock even when applying excessive force. The touch switch of the present invention includes a frame providing an operation part in contact with a human body, a sensor electrode disposed away from the frame, and a compression spring arranged at both ends to be in close contact with the inner surface of the frame and the sensor electrode to form a conductive elastic body. do. The contact portion where the compression spring is in contact with the inner surface of the frame has a spirally formed structure in which a metal wire is wound to form a flat portion of a predetermined area so as to be elastically in close contact with the frame. The compression spring is composed of a relatively large diameter first elastic portion and a relatively small diameter second elastic portion.

Description

Compression Spring and Touch Type Switch with the Same

1 is a view schematically showing the structure of a touch switch according to the present invention.

Figure 2 is a view showing a compression spring installed in the touch-type switch according to the invention acting as a conductive elastic body, Figure 2a is a top perspective view, Figure 2b is a side perspective view.

3 is a view showing that the human body is indirectly in contact with the compression spring through the frame in the touch switch according to the present invention.

* Description of symbols on the main parts of the drawings *

1: frame 2: printed circuit board for switch

3: sensor electrode 10: compression spring

11: first elastic portion 12: contact portion

15: second elastic portion

The present invention relates to a compression spring and a touch switch having the same, and more particularly, to simplify the manufacture and assembly, to improve shock absorption, and to increase the contact sensitivity with a human body, thereby smoothly performing on / off operation. And a touch spring with the same.

The touch switch operates by sensing a change in capacitance caused by contact of a human body, and is also called a capacitive switch. This touch switch has the advantage that it does not cause a failure due to repetitive operation compared to other types of switches which are operated only by touching the switch without applying physical force, and operate only by applying a constant force. Since the switch does not protrude to the outer surface of the product structurally has the advantage of improving the appearance of the product has been usefully used in various electronic products.

As an example of such a touch type switch, Korean Utility Model Registration No. 20-0303191 discloses a capacitive switch.

The conventional touch-type switch is provided with a touch unit on an outer case forming an outer surface of a product, a printed circuit board disposed spaced apart from the outer case at a predetermined interval inside the outer case, and a sensor disposed on an upper surface of the printed circuit board. And an electrode, a conductive elastic body provided between the sensor electrode and the outer case, and a sensor circuit portion disposed on the lower surface of the printed circuit board.

In the conventional touch type switch having the structure as described above, when the human body comes in contact with the conductive elastic body indirectly through the outer case, a change occurs in the amount of charge charged to the sensor electrode due to the capacitance of the human body. The sensor circuit unit detects the contact of the human body on the printed circuit board to operate the switch.

However, since the conventional touch type switch has a structure made of a conductive rubber in which the conductive elastic body is made conductive by dispersing conductive fine particles such as carbon black in the rubber, manufacturing cost and manufacturing time are high, and structurally, There is a disadvantage that the assembly time for fixing between the outer case and the sensor electrode is increased.

In addition, the conventional touch-type switch is made of rubber and carbon black, so that when the user applies a strong force to operate the switch, the switch may not be effectively absorbed and the switch may be broken. There is a disadvantage.

The present invention is to solve the above-mentioned problems of the prior art, an object of the present invention is to simplify the manufacturing and assembly, a compression spring and a touch switch having the same that can effectively absorb the impact even if applying excessive force To provide.

It is another object of the present invention to provide a compression spring and a touch switch having the same, which facilitate the on / off operation by increasing the contact sensitivity of the human body.

Touch switch according to the present invention for achieving this object is

And a frame for providing an operation part in contact with the human body, a sensor electrode disposed away from the frame, and a compression spring disposed at both ends to closely contact the inner surface of the frame and the sensor electrode to form a conductive elastic body. .

The contact portion where the compression spring is in contact with the inner surface of the frame has a structure formed by winding a metal wire to form a flat portion of a predetermined area so that the compression spring is elastically in close contact with the frame.

Preferably, the contact portion of the compression spring is formed by winding the metal wire spirally.

The compression spring comprises a first elastic portion having a relatively large diameter and a second elastic portion having a relatively small diameter.

The first elastic portion and the second elastic portion have a plurality of windings disposed along the longitudinal direction, and each winding spacing of the first elastic portion is larger than that of each of the second elastic portions.

The compression spring is disposed such that the first elastic part is located at the frame side and the second elastic part is located at the sensor electrode side.

Preferably, the sensor electrode is provided on the surface of the touch type printed circuit board.
Compression spring according to the invention is characterized in that the at least one end of the both ends in contact with the object to be installed is formed by winding a metal wire continuously from the center toward the outer circumference to form a flat portion of a predetermined area.
The compression spring includes the first elastic portion having the relatively large diameter, including the planar portion, and the second elastic portion extending from one end of the first elastic portion and having a smaller diameter than the first elastic portion. The elastic portion and the second elastic portion have a plurality of windings disposed along the longitudinal direction, and each winding spacing of the first elastic portion is larger than the respective winding spacing of the second elastic portion.

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

1 is a view schematically showing the structure of a touch switch according to the present invention.

As shown in FIG. 1, the touch switch according to the present invention forms an outer surface of a product and provides a frame 1 which provides a contact surface in contact with a human body, and is spaced apart from the frame 1 at a predetermined interval within the product. A printed circuit board 2 for switching (hereinafter referred to as a printed circuit board), a sensor electrode 3 formed by coating a metal on the surface of the printed circuit board 2, and an inner surface of the frame 1 It is provided with a compression spring 10 according to the present invention disposed between the sensor electrodes 3 to function as a conductive elastic body.

The printed circuit board 2 detects a change in capacitance delivered from the sensor electrode 3, determines whether the human body is touched, and sends a detection signal to a controller (not shown) of the product so that the controller operates the switch. Make it work. The printed circuit board 2 is generally installed on a main printed circuit board (not shown) that functions as a control unit and is connected to each other in a circuit.

Accordingly, when the finger F of the human body is placed on the compression spring 10 functioning as the conductive elastic body through the frame 1, a change in the amount of charges charged to the sensor electrode 3 occurs due to the capacitance of the human body. In addition, the change of the charge amount is sensed by the printed circuit board 2 to determine whether the human body is in contact with the printed circuit board 2 to operate the switch.

Next, the structure and operation of the compression spring 10 of the touch switch according to the present invention will be described in detail with reference to FIGS. 2 and 3.

2 is a view showing a compression spring of the present invention installed in a touch type switch according to the present invention acting as a conductive elastic body, Figure 2a is a top perspective view, Figure 2b is a side perspective view, Figure 3 is a touch according to the present invention In the switch, it is shown that the human body comes into contact with the compression spring of the present invention indirectly through the frame.

2A and 2B, the compression spring 10 of the touch switch according to the present invention, which acts as a conductive elastic body, has a first elastic portion having a contact portion 12 in close contact with the inner surface of the frame 1. 11) and a second elastic portion 15 which is coupled to and fixed to the protrusion 4 protruding from the printed circuit board 2 in a state of being connected to the sensor electrode 3, is integrally formed. Accordingly, the compression spring 10 has a structure in which one end is in close contact with the inner surface of the frame 1 and the other end is in close contact with the sensor electrode 3 through the protrusion 4 to function as a conductive elastic body so that the sensor electrode 3 is electrostatic. It is possible to detect the contact of the human body according to the change of capacity.

The first elastic portion 11 having the contact portion 12 at one end thereof has a larger diameter than the second elastic portion 15 and has a plurality of windings arranged along the length direction, and has a second elasticity formed smaller in diameter. The part 15 also has a plurality of windings arranged along the longitudinal direction and is coupled to the outer circumferential surface of the protrusion 4, so that external shocks such as contact of the human body are substantially absorbed by the stretching action of the first elastic part 11. Will be.

In order for the first elastic part 11 to effectively absorb shock, the distance between the windings of the first elastic part 11 is larger than that of the second elastic part 15, and thus, the first elastic part ( The length of 11 is longer than that of the second elastic portion 15.

The contact portion 12 formed at the end of the first elastic portion 11 is made of spirally wound metal wire such as iron to form a flat portion having a predetermined area.

Therefore, as shown in Figure 3, the contact portion 12 of the compression spring 10 is the operating range of the switch by increasing the size of the operating portion (1a) to enable the finger (F) of the human body to contact the operation of the switch At the same time, the compression spring 10 can be kept in close contact with the inner surface of the frame 1 so that the switch can easily determine whether the human body is in contact.
In the embodiment of the present invention has been described by illustrating that the compression spring according to the present invention is installed in the touch-type switch, it is not limited to this can be installed on all the objects that require the expansion and contraction action of the spring can provide a stretching action.

As described in detail above, the touch-type switch according to the present invention can be configured to simplify the production and assembly of the compression spring is a conductive elastomer can reduce the cost, and can effectively absorb the impact even if applying excessive force It has the effect of being durable and not easily broken.

In addition, the compression spring installed in the touch-type switch according to the present invention can be configured to increase the size of the contact portion of the compression spring corresponding to the size of the operating unit to operate the switch in contact with the human body can widen the operation range of the switch or the object By doing so, the user can conveniently operate and at the same time have an effect of effectively providing the compressive force to the object.

Claims (11)

A frame providing an operation part in contact with the human body, a sensor electrode disposed away from the frame, and a compression spring disposed at both ends to be in close contact with the inner surface of the frame and the sensor electrode to form a conductive elastic body, And a contact portion in which the compression spring contacts the inner surface of the frame has a structure formed by winding a metal wire to form a flat portion having a predetermined area so that the compression spring is elastically in close contact with the frame. delete The touch switch of claim 1, wherein the contact portion of the compression spring is formed by winding the metal wire in a spiral shape. The touch switch of claim 1, wherein the compression spring comprises a first elastic portion having a relatively large diameter and a second elastic portion having a relatively small diameter. The method of claim 4, wherein the first elastic portion and the second elastic portion has a plurality of windings disposed along the longitudinal direction, wherein each winding spacing of the first elastic portion is formed larger than the respective winding spacing of the second elastic portion Touch switch characterized in that. 6. The touch switch of claim 5, wherein the compression spring is disposed such that the first elastic part is located at the frame side and the second elastic part is located at the sensor electrode side. The touch switch of claim 1, wherein the sensor electrode is provided on a surface of the touch switch printed circuit board. Compression spring, characterized in that the at least one end of the two ends in contact with the installed object is formed by winding a metal wire continuously from the center toward the outer circumference to form a flat portion of a predetermined area. The method of claim 8, wherein the compression spring comprises a first elastic portion having a relatively large diameter including the flat portion, and a second elastic portion extending from one end of the first elastic portion and smaller in diameter than the first elastic portion Compression spring, characterized in that it comprises. 10. The method of claim 9, wherein the first elastic portion and the second elastic portion has a plurality of windings disposed along the longitudinal direction, wherein each winding spacing of the first elastic portion is formed larger than the respective winding spacing of the second elastic portion Featured compression springs. The compression spring of claim 8, wherein the planar portion is formed by winding the metal wire in a spiral shape.

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