KR20180085267A - Connecting structure of sensor for measuring skin conductivity - Google Patents

Abstract

The present invention relates to a connection structure of a skin conductivity measuring sensor comprising a main circuit substrate, a supporting plate, and a skin conductivity measuring sensor. A connector unit including a magnet and a pogo pin module is connected to one end of the main circuit substrate. A guide unit for supporting the main circuit substrate to allow the pogo pin module to face the other side direction is combined with one surface of the supporting plate. A space unit which exposes the pogo pin module to the other surface is formed in the supporting plate. The skin conductivity measuring sensor forms a connection electrode with a skin measuring electrode on one surface of a base substrate, and forms a curved unit by curving one end of the base substrate, in which the connection electrode is formed, in the direction of the other surface. A magnetic substance is provided between the curved unit and the skin conductivity measuring sensor. The skin conductivity measuring sensor comes into contact with the connection electrode and the pogo pin module which are formed in the curved unit with attraction of the magnet and the magnetic substance in the direction which allows the other surface of the base substrate to face the other surface of the supporting plate. The present invention can provide a reliable connection structure.

Description

[0001] The present invention relates to a skin conductivity measuring sensor,

The present invention relates to a connection structure of a skin conductivity measuring sensor.

When a person is stressed, the sympathetic nervous system becomes excited, and the sweat glands present in the skin act according to the excitement of the sympathetic nervous system. The electrical characteristics of the skin change according to the activity of the sweat glands present in the skin. These changes are called electrodermal activity (EDA), and the skin electrical activity is measured using a skin conductivity measuring sensor. Can be measured.

Conventionally, in order to measure the skin electrical activity, it has been necessary to measure in an institution having a measuring device such as a hospital. However, recently, with the development of the IT field, various kinds of information of the body can be measured by using a sensor .

In addition, due to the development of the semiconductor manufacturing process, a sensor having a specific purpose can be mass-produced using a semiconductor manufacturing process, and an environment for collecting body information using sensors can be popularized.

KR 10-2016-0089718 A

An object of an embodiment of the present invention is to provide a connection structure capable of easily detaching the skin conductivity measuring sensor.

In addition, the connector including the magnet and the pogo pin module is connected to the main circuit board, which is supported by the support plate. One end of the sensor for measuring conductivity of the skin is formed with the other end bent to form a bent portion, And the connection electrode formed on the bent portion is brought into contact with the pogo pin module by the attracting force of the magnet and the magnetic body of the connector portion so as to be detached toward the support plate on the other side of the skin conductivity measurement sensor.

The present invention also provides a connection structure for guiding one end of the main circuit board so that the pogo pin module of the connector portion is located in the space portion of the support plate so that the guide portion coupled to the support plate guides the pogo pin module of the connector portion toward the other surface direction of the support plate .

The connection structure of the skin conductivity measuring sensor according to an embodiment of the present invention includes a main circuit board having a connector and a pogo pin module, the connector including a magnet and a pogo pin module. The pogo pin module supports the main circuit board And a connection electrode is formed on one surface of the base substrate, and one end of the base substrate on which the connection electrode is formed is connected to the other surface of the base plate, Wherein the skin conductivity measuring sensor comprises a sensor for measuring the skin conductivity of the base plate, the sensor being mounted on the other surface of the base plate in a direction opposite to the other surface of the support plate, the attraction force of the magnet and the magnetic body The connection electrode formed on the bent portion and the pogo pin module are brought into contact with each other.

The guide portion may include a first guide portion and a second guide portion disposed to face each other with respect to the space portion. The first guide portion and the second guide portion may have a guide And one end thereof is coupled to one surface of the support plate and the other end is extended from the support plate to a position corresponding to the space portion.

In addition, the support plate, the guide portion, the main circuit board, and the skin conductivity measuring sensor may be formed of a flexible material so as to be deformed corresponding to the bending of the body, and the guide portion may further include a support portion for connecting and supporting the other end and the support plate.

In addition, the magnet is coupled to both sides of the pogo pin module, and is arranged so that the end of the magnet is positioned within a pin operating range of the pogo pin module.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings.

Prior to that, terms and words used in the present specification and claims should not be construed in a conventional and dictionary sense, and the inventor may properly define the concept of the term in order to best explain its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

According to an embodiment of the present invention, there is an advantage that the user can easily physically detach the skin conductivity measuring sensor in the process of exchanging the skin conductivity measuring sensor.

Further, since the skin conductivity measuring sensor is coupled using the attraction between the magnet of the connector portion and the magnetic body of the skin conductivity measuring sensor, a reliable connection structure is provided regardless of the physical aging of the coupling portion.

In addition, since the support plate, the guide portion, the main circuit board, and the skin conductivity measuring sensor are formed of flexible material, they change according to the bending of the body, so that they can be worn on any part of the body.

1 is a perspective view showing a connection structure of a skin conductivity measuring sensor according to an embodiment of the present invention.
2 is an exploded perspective view of FIG.
3 is a cross-sectional view taken along line A-A 'in Fig.
4 is a view showing that the skin conductivity measuring sensor according to FIG. 1 is connected to the connector portion.
5 is a perspective view illustrating a structure in which a support portion is attached to a guide portion constituting a connection structure of a skin conductivity measuring sensor according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The objects, particular advantages and novel features of one embodiment of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings and the preferred embodiments thereof. It should be noted that, in the present specification, the reference numerals are added to the constituent elements of the drawings, and the same constituent elements are assigned the same number as much as possible even if they are displayed on different drawings. Also, the terms "one side," " first, "" first," " second, "and the like are used to distinguish one element from another, no. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In the following description of the present invention, a detailed description of known arts which may unnecessarily obscure the gist of an embodiment of the present invention will be omitted.

Hereinafter, one embodiment of the present invention will be described in detail with reference to the accompanying drawings, in which like reference numerals refer to like elements.

FIG. 1 is a perspective view showing a connection structure of a skin conductivity measuring sensor according to an embodiment of the present invention, FIG. 2 is an exploded perspective view of FIG. 1, FIG. 3 is a sectional view taken along line A- Is a view showing that the skin conductivity measuring sensor according to Fig. 1 is connected to the connector portion.

The connection structure of the skin conductivity measuring sensor 150 according to an embodiment of the present invention includes a main circuit board 120 having a connector portion 130 including a magnet 133 and a pogo pin module 132 connected to one end, A guide part 140 for supporting the main circuit board 120 is coupled to one side of the pogo pin module 132 so that the pogo pin module 132 faces the other side and a space part 111 where the pogo pin module 132 is exposed at the other side A skin measurement electrode 152 and a connection electrode 153 are formed on one surface of the formed support plate 110 and the base substrate 151 and one end of the base substrate 151 on which the connection electrode 153 is formed is bent in the other surface direction And a skin conductivity measuring sensor 150 having a bent portion 154 and a magnetic body 155 between the bent portions 154. The skin conductivity measuring sensor 150 measures the skin conductivity of the base substrate 151, The magnetic force of the magnet 133 and the magnetic body 155 is applied to the bent portion 154 in the direction opposite to the other surface of the support plate 110 Generated is desorbed by being connected to electrodes 153 and pogo pin module 132 is in contact.

As shown in FIGS. 1 and 2, the connector 130 is connected to one end of the main circuit board 120. The main circuit board 120 has a circuit area 120.1 in which a circuit for signal processing is formed and a connector 130 connected to one end of the main circuit board 120 in the circuit area 120.1. 150 for electrical connection with a wire 120.2.

The connector 130 includes a PCB connector 131 connected to one end of the main circuit board 120 and connected to a lead 120.2 connected to the circuit area 120.1, a PCB connector 131 connected to the PCB connector 131, A pogo pin module 132 including pins, and a pair of magnets 133 positioned at opposite positions about the pogo pin module 132.

The PCB connector 131 refers to a socket that is connected to a PCB or an FPCB (Flexible PCB) and relays so that it is difficult to directly connect to the PCB and information transmission / reception of the PCB. 2, one end of the main circuit board 120 is connected to one side of the PCB connector 131 and the pogo pin module 132 is connected to the other side of the PCB connector 131 to connect the pogo pin module 132 and the main circuit board 120 and electrically connected to transmit and receive information from the pogo pin module 132 to the main circuit board 120.

The pogo pin module 132 operates so that an elastic body such as a spring pushes the pin head 132.1 in the connection target direction when the connection object comes into contact with the pin head 132.1 of the pogo pin (POGO PIN) 132.1 < / RTI > and the object of connection. 4 (b), the pogo pin module 132 is connected to the other side of the PCB connector 131, and the pin head 132.1 of the pogo pin module 132 is provided with a skin conductivity measurement The connection electrode of the sensor 150 is contacted.

4, the pogo pin module 132 may include at least one pogo pin P according to the number of the connection electrodes 153 of the skin conductivity measurement sensor 150. [ The pogo pin module 132 may include a terminal (CT shown in Fig. 2) that is connected to at least one PCB connector 131 according to the number of pogo pins, And may include a coupling member. The terminal CT of the pogo pin module 132 is electrically connected to each pogo pin P and can be formed integrally with the pogo pin P. [ The PCB connector 131 and the pogo pin module 132 may be integrally formed. Alternatively, one end of the main circuit board 120 and the terminal CT of the pogo pin formed in the pogo pin module 132 may be directly connected by using solder or the like without using a PCB connector.

The magnet 133 may be provided on at least one side of the pogo pin module 132. The magnet 133 may be formed of a permanent magnet such as neodymium, ferrite, or the like. The skin conductivity measuring sensor 150 is connected to the pogo pin module 132 of the connector by the magnet 133 pulling the magnetic body 155 provided in the bent portion 154 of the skin conductivity measuring sensor 150.

The support plate 110 carries and supports the main circuit board 120 on one side, and the skin conductivity measurement sensor 150 is detached on the other side. The support plate 110 is formed with a space portion 111 and the space portion 111 is formed in a shape of a square hole or a shape corresponding to the shape of the connector and the bending portion 154 of the skin conductivity measuring sensor 150 do. The space portion 111 may not be a hole and may be a space formed concavely in a central direction from one side of the support plate 110.

A guide part 140 is provided on one surface of the support plate 110 on which the main circuit board 120 is supported. The guide unit 140 guides one end of the main circuit board 120 such that a connector connected to one end of the main circuit board 120 is disposed at a position corresponding to the space 111. [ The guide part 140 supports a connector connected to one end of the main circuit board 120 and the main circuit board 120.

The guide part 140 includes a first guide part 141 and a second guide part 142 disposed to face each other with the space part 111 as a center and the first guide part 141 and the second guide part 142, And a guide groove 143 for guiding the main circuit board 120 is formed in a direction facing each other with one end thereof being engaged with one surface of the support plate 110 and the other end being spaced apart from the support plate 110, And extends to a position corresponding to the portion 111. [

The guide portion 140 supports one end of the main circuit board 120 in such a manner that the side surface of the main circuit board 120 is fitted into the guide groove 143.

The skin conductivity measuring sensor 150 is formed on one side of the base substrate 151 with a connecting electrode 153 connected to the skin measuring electrode 152 and the skin measuring electrode 152. The skin conductivity measuring sensor 150 includes a bent portion 154 formed by bending one end of the base substrate 151 on which the connecting electrode 153 is formed in the other surface direction of the base substrate 151. The bent portion 154 is formed such that the base substrate 151 on which the connection electrode 153 is formed is bent so that the other surface of the base substrate 151 faces.

A magnetic substance 155 is provided between the base substrate 151 of the bent portion 154. The magnetic substance 155 is attracted by the magnet 133 of the connector portion 130 so that the connecting electrode 153 of the bent portion 154 is brought into contact with the pogo pin module 132 of the connector portion 130. The magnetic body 155 may be in the form of a plate, and may be provided at a plurality of positions corresponding to the position of the magnet 133.

The skin conductivity measuring sensor 150 may be configured such that the other surface of the base substrate 151 is electrically connected to the connecting electrode formed on the bent portion 154 by the attraction of the magnet 133 and the magnetic body 155 in the direction opposite to the other surface of the supporting plate 110 153 and the pogo pin module 132 are brought into contact with each other.

The user can physically remove and detach the skin conductivity measuring sensor 150 while the user is exchanging the skin conductivity measuring sensor 150 and can measure the skin conductivity of the connector portion 130 and the skin conductivity Since the skin conductivity measuring sensor 150 is coupled using the attraction force between the magnetic substances 155 of the sensor 150, a reliable connection structure is provided regardless of the physical aging of the coupling portion.

4, the magnets 133 are coupled to both sides of the pogo pin module 132, and the pin movable range of the pogo pin module 132 (shown in Fig. 4 (a) C so that the end of the magnet 133 is positioned.

As shown in Fig. 4A, each pin of the pogo pin module 132 may be configured by a combination of a pin head 132.1 and a barrel 132.3 and a spring 132.2. The length of the pin head 132.1, the length of the spring 132.2 and the depth of the barrel 132.3 determine the range of motion of the pin. The magnet 133 is coupled to both sides of the pogo pin module 132 so that the end of the magnet 133 is positioned at the center of the pinion movement range C.

4 (b), when the magnet 133 pulls the magnetic body 155 of the bent portion 154 and the connecting electrode 153 contacts the pin head 132.1, C, the elastic force of the spring 132.2 is smaller than the force by which the magnet 133 pulls the magnetic body 155, which is advantageous in that a firm coupling can be expected.

The transverse and longitudinal lengths of the space portion 111 are formed to correspond to the transverse and longitudinal lengths of the bending portion 154 of the skin conductivity measuring sensor 150 and the transverse and longitudinal lengths of the bending portion 154 of the skin conductivity measuring sensor 150, Can be formed to be engaged with the space portion 111 of the support plate 110. In this case, when the bent portion 154 contacts the pogo pin module 132 by the magnet 133, there is an advantage that the skin conductivity measuring sensor 150 is firmly coupled without moving forward, backward and leftward. This structure has an advantage that the bent portion 154 of the skin conductivity measuring sensor 150 can be coupled to the correct position even if the magnet 133 is one.

5 is a perspective view illustrating a structure in which a support portion is attached to a guide portion constituting a connection structure of a skin conductivity measuring sensor according to an embodiment of the present invention.

5, the support plate 110, the guide portion 140, the main circuit board 120, and the skin conductivity measuring sensor 150 are formed of a flexible material so as to be deformed corresponding to the bending of the user's body, The guide part 140 may further include a support part 144 for connecting and supporting the other end and the support plate 110. For example, the main circuit board 120 may be formed of a flexible material (for example, a flexible PCB or the like). The support plate 110 may be formed of a material such as medical silicone, rubber, or the like, so that the stimulation may be formed even if the support plate 110 is in direct contact with the skin. In addition, the support plate 110 may be formed in a curved shape in consideration of bending of the body from the beginning.

When the support plate 110 is formed of a flexible material and deformed according to the bending of the body when the other end of the guide portion 140 is spaced apart from the support plate 110 with a certain angle, It is possible to escape from the portion 111. The support portion 144 may extend from the other end of the guide portion 140 to a position adjacent to the space portion 111 and may be connected to the support plate 110. In this case, The support portion 144 holds the connector portion 130 at a position corresponding to the space portion 111 even if the support plate 110 is deformed according to the bending of the body.

One end of the guide part 140 is connected to the support plate 110 and the support part 144 starting from the other end of the guide part 140 is coupled to the support plate 110. [ The space between the guide part 140, the support part 144 and the support plate 110 is formed as an empty space. Such an empty space provides the space required when the flexible support plate 110 is deformed to allow the support plate 110 to better conform to the bending of the body.

In this structure, since the support plate 110, the guide portion 140, the main circuit board 120, and the skin conductivity measuring sensor 150 are formed of a flexible material and change according to the bending of the body, There is an advantage that the conductivity measuring sensor 150 can be worn.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the same is by way of illustration and example only and is not to be construed as limiting the present invention. It is obvious that the modification and the modification are possible.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

110: support plate 111:
120: main circuit board 120.1: circuit area
120.2: lead 130:
131: FPCB connector 132: Pogo pin module
132.1: pin head 132.2: spring
132.3: Barrel 133: Magnet
140: guide portion 141: first guide portion
142: second guide portion 143: guide groove
144: Support part 150: Skin conductivity measuring sensor
151: base substrate 152: skin measuring electrode
153: connecting electrode 154: bent portion
155: magnetic body

Claims (4)

A main circuit board connected to one end of a connector portion including a magnet and a pogo pin module;
A support plate having a guide portion for supporting the main circuit board so that the pogo pin module is oriented in a direction opposite to the first direction, and a space portion through which the pogo pin module is exposed at the other surface; And
And a skin conductivity measuring sensor having a skin measuring electrode and a connecting electrode formed on one surface of the base substrate, one end of the base substrate on which the connecting electrode is formed is bent in the other surface direction to form a bent portion, and a magnetic body is provided between the bent portions and,
The skin conductivity measuring sensor
And the connecting electrode formed on the bent portion by the attraction of the magnet and the magnetic body in the direction in which the other surface of the base substrate faces the other surface of the supporting plate contacts with the pogo pin module. The method according to claim 1,
The guide portion
A first guide portion and a second guide portion disposed to face each other with the space portion as a center,
The first guide portion and the second guide portion
And a guide groove for guiding the main circuit board in a direction in which the main circuit board and the main circuit board face each other, wherein one end is coupled to one surface of the support plate and the other end is extended from the support plate to a position corresponding to the space, Sensor connection structure. The method of claim 2,
The support plate, the guide portion, the main circuit board, and the skin conductivity measuring sensor
And is formed of a flexible material so as to be deformed corresponding to the bending of the body,
The guide portion
And a supporting portion connecting and supporting the other end and the support plate. The method according to claim 1,
The magnet
A connection structure of a pair of the pogon pin modules on both sides of the pogon pin module and disposed so that an end of the magnet is positioned within a pin operating range of the pogon pin module.

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