KR20180032893A - Variable pressure sensing mat - Google Patents

Abstract

Disclosed is a variable type pressure sensing mat. The variable type pressure sensing mat according to one embodiment of the present invention comprises: an electrode cell; an electrode plate having a matrix structure in which the electrode cells are spaced apart from each other in the transverse direction and the longitudinal direction, and the same electrodes are connected to each other; and a resistance film disposed on the electrode plate and assembled to the electrode plate, a resistance value of which changes when the pressure is applied from the outside. The electrode cell is disposed along a predetermined path, and is disposed at a relatively long distance from a negative electrode while maintaining a negative distance between the negative electrode to which negative electricity is applied and the negative electrode. The electrode cell includes a first positive electrode to which positive electricity is applied, and a second positive electrode which is disposed at a relatively short distance from the negative electrode while maintaining a parallel distance from the negative electrode.

Description

Variable pressure detection mat {VARIABLE PRESSURE SENSING MAT}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a variable pressure detection mat, and more particularly, to a variable pressure detection mat capable of detecting pressure (high pressure, low pressure) of different sizes externally applied from a single pressure detection mat.

In recent years, as the interest in human health care has increased, a variety of detection related items have been developed for correct sitting posture, correct sleeping posture, and correct walking posture.

These items are connected with ICT technology and recorded with user's detection data in order to manage the health state of the user, and accordingly, articles such as a pressure detection mat that can easily detect the user's body pressure are being released.

However, since the conventional pressure detecting mat has a plurality of pressure detecting elements simply disposed at regular intervals, there is a problem that the pressure detecting mat can not be actively detected according to the magnitude of the pressure externally applied to the pressure detecting mat.

For reference, the pressure detecting element for detecting pressure can detect a lower pressure as the distance between the (+) electrode and the (-) electrode becomes closer, As the distance between the positive electrode and the negative electrode is kept constant, the pressure detection mat can detect the pressure only within a certain pressure range, There is a problem that the pressure can not be detected.

Further, since the conventional pressure detecting mat has inconvenience that both the high pressure and the low pressure can not be detected in one pressure detecting mat for the reasons described above, the (+) electrode and the (- There is a problem in that a plurality of pressure detecting mats with different intervals are required.

Further, since the conventional pressure detecting mat requires centering of n unit resistance cells to correspond to the n electrode cells and each unit must be individually installed, it takes a lot of time to install the unit, so that the assembly of the pressure detecting mat is delayed, There is a problem of deterioration.

Korean Patent No. 10-1009647 (published on Jan. 19, 2011)

The embodiment of the present invention is capable of detecting the pressure (high pressure and low pressure) of different sizes externally applied on a single pressure detection mat by changing the interval between the (+) electrode and the (- To provide a variable pressure detection mat.

In addition, the embodiment of the present invention is intended to provide a variable pressure detection mat capable of improving productivity by improving the assemblability.

According to an embodiment of the present invention, there are provided a negative electrode disposed along a predetermined path and electrically connected to the negative electrode, a positive electrode disposed at a relatively long distance from the negative electrode, A first positive electrode to which a negative electrode is applied, and a second positive electrode which is disposed at a relatively short distance from the negative electrode while maintaining a parallel distance from the negative electrode and to which (+) electricity is applied; An electrode plate having a matrix structure in which the electrode cells are spaced apart from each other in a transverse direction and a longitudinal direction, and the same electrodes are connected to each other; The variable pressure sensing mat may include a resistance film disposed on the electrode plate and assembled to the electrode plate, the resistance film varying in response to pressure from the outside.

The negative electrode, the first positive electrode, and the second positive electrode may be spirally formed to increase a contact area with the resistance film.

The negative electrode, the first positive electrode, and the second positive electrode may be formed in a rectangular spiral shape that is bent in a direction intersecting with a straight line in any one direction.

The negative electrode, the first positive electrode, and the second positive electrode may be disposed on the same plane in the electrode plate.

The resistance film may be formed to have the same size as the electrode plate.

According to the embodiment of the present invention, it is possible to change the interval between the (+) electrode and the (-) electrode as necessary and detect the pressure (high pressure and low pressure) A variable pressure detection mat can be provided.

In addition, according to the embodiment of the present invention, since the resistance film can be formed to have a size corresponding to the electrode plate and assembled without considering the position of the electrode cell, the assembly of the pressure detecting mat can be simplified.

1 is a view illustrating a variable pressure sensing mat according to an embodiment of the present invention.
2 is an exploded perspective view schematically showing a variable pressure detection mat according to an embodiment of the present invention,
3 is a reference view showing an electrode cell of a variable pressure sensing mat according to an embodiment of the present invention,
FIG. 4 is a reference view showing an electrode plate in which the electrode cells of FIG. 3 are arranged in a matrix structure;
5 is an operational state diagram showing a state in which a high voltage is detected by applying (+) electricity to a first positive electrode in a variable pressure detecting mat according to an embodiment of the present invention,
6 is an operational state diagram showing a state in which a low voltage is detected by applying (+) electricity to a second positive electrode in a variable pressure detecting mat according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, configurations and operations according to embodiments of the present invention will be described in detail with reference to the accompanying drawings. DETAILED DESCRIPTION OF THE INVENTION The following description is one of many aspects of the claimed invention and the following description may form part of the detailed description of the invention.

However, the detailed description of known configurations or functions in describing the present invention may be omitted for clarity.

While the invention is susceptible to various modifications and its various embodiments, it is intended to illustrate the specific embodiments and the detailed description. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Terms including ordinals such as first, second, etc. may be used to describe various elements, but the elements are not limited by such terms. These terms are used only to distinguish one component from another.

It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, .

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

2 is an exploded perspective view schematically showing a variable pressure sensing mat according to an embodiment of the present invention, and FIG. 3 is an exploded perspective view of a variable pressure sensing mat according to an embodiment of the present invention. FIG. 4 is a reference view showing an electrode plate in which the electrode cells of FIG. 3 are arranged in a matrix structure. FIG. 4 is a reference view showing an electrode plate of the variable pressure sensing mat according to an embodiment of the present invention.

1 and 2, the variable pressure sensing mat according to an embodiment of the present invention may include an electrode cell 100, an electrode plate 200, and a resistance film 300.

The inclusion of the above-described embodiments means that the present invention is not limited to these configurations but includes these configurations basically and includes other configurations (for example, well-known technologies widely known in pressure detection matters). However, the known technology is not described in detail because it may obscure the gist of the present invention.

The electrode cell 100 may include a negative electrode 110, a first positive electrode 120, and a second positive electrode 130, as shown in FIG.

The negative electrode 110 may be disposed along a predetermined path to have a predetermined pattern and may be supplied with negative electricity. Negative electrode 110 may be negatively charged.

The first positive electrode 120 is arranged in parallel with the negative electrode 110 while maintaining a predetermined distance from the negative electrode 110. The first positive electrode 120 is relatively arranged from the negative electrode 110 (Compared to the power supply 130), and (+) electricity can be applied.

The second positive electrode 130 maintains a parallel distance from the negative electrode 110 so that the second positive electrode 130 is arranged relatively close to the negative electrode 110 (as compared with the first positive electrode 120) (+) Electricity can be applied. Here, (+) electricity may be provided to either the first positive electrode 120 or the second positive electrode 130.

The first positive electrode 120 and the second positive electrode 130 are disposed so as to maintain a distance in parallel to the negative electrode 110 so that the negative electrode 110 and the first positive electrode 120 and the second positive electrode 130 are both the same Pattern.

A second positive electrode 130 is disposed between the first positive electrode 120 and the negative electrode 110 so that the gap between the first positive electrode 120 and the negative electrode 110 is different from the distance between the second positive electrode 130 and the negative electrode 110 (Distance) between the first and second electrodes.

As described above, when the distance between the positive electrode to which positive (+) electricity is applied and the negative electrode to which negative (-) electricity is applied is arranged as described above, it is easy to detect a low pressure and it is possible to detect a precise pressure. Higher pressure can be detected if the distance is further away.

Here, the negative electrode 110, the first positive electrode 120, and the second positive electrode 130 may be spirally formed to increase the contact area with the resistance film 300. The helical shape may be defined as including a rectangular helical shape bent in a direction intersecting with a straight line in any one direction as shown in Fig.

4, the electrode plate 200 may have a matrix structure in which the electrode cells 100 are spaced apart from each other in the horizontal direction and the vertical direction, and the same electrodes are connected to each other.

That is, a plurality of electrode cells 100 having the negative electrode 110, the first positive electrode 120, and the second positive electrode 130 are provided, and are disposed on the electrode plate 200 in the horizontal direction and the vertical direction, And the negative electrode 110 is connected to the negative electrode 110 in the plurality of electrode cells 100. The first positive electrode 120 is connected to the first positive electrode 120 and the second positive electrode 130 is connected to the first positive electrode 120, The second positive electrodes 130 are connected to each other.

4, a total of nine electrode cells 100 are provided in a 3s3 matrix structure. In this case, the negative electrode 110 and the negative electrode 110 may be provided separately. 1 independent electric signals for individually operating the positive electrode 120 and the second positive electrode 130 can be a maximum of three, respectively.

For reference, a separate analog-to-digital converter may be needed to detect externally applied pressure values. Since the analog-to-digital converter is a known technique generally used for pressure detection, a detailed description thereof will be omitted.

At this time, the negative electrode 110, the first positive electrode 120, and the second positive electrode 130 may both be disposed on the same plane in the electrode plate 200.

1 and 2, the resistance film 300 is disposed on the electrode plate 200 and assembled to the electrode plate 200. When the resistance film 300 receives pressure from the outside, The value can be changed.

Since the resistance film 300 is formed in the same size as the electrode plate 200 and can be coupled to the entire electrode plate 200 irrespective of the position of the electrode cell 100, This is very easy. Conventionally, since the center of the resistance cells must be set to correspond to the positions of the electrode cells 100, it is necessary to individually install the resistive cells so that it takes much time to assemble the pressure detecting mat.

When external pressure (for example, body pressure) is applied to a specific point of the resistive film 300, the resistive film 300 is pressed and the positive electrode and the negative electrode 110 are connected to each other so that the first positive electrode 120 or the second positive electrode 130 + Electricity flows toward the negative electrode 110 through the resistive film 300. At this time, the resistance value of the resistance film 300 corresponding to a specific point at which the external pressure is applied is changed, and the magnitude of the pressure externally applied can be calculated.

5, when the first positive electrode is applied by applying (+) electricity to the first positive electrode, if an external pressure is applied to a point composed of the first positive electrode 120 and the negative electrode 110, The resistive film 300 is brought into contact with the first positive electrode 120 and the negative electrode 110 so that the positive electricity of the first positive electrode 120 passes through the resistive film 300, Since the amount of current is changed when an external pressure change occurs, the magnitude of the external pressure can be detected. Since the distance between the first positive electrode 120 and the negative electrode 110 is greater than the distance from the second positive electrode 130 to the negative electrode 110, a high pressure can be detected.

6, when the (+) electricity is converted from the first positive electrode 120 to the second positive electrode 130, the distance from the second positive electrode 130 to the negative electrode 110 is larger than the distance between the first positive electrode 130 120) to the negative electrode (110), so that it is possible to detect a relatively small pressure, thereby enabling precise pressure detection.

Since this embodiment uses a plurality of positive electrodes having different distances to the negative electrode 110, it is possible to easily extend the pressure detection range. When the positive electrode is used for measuring the attitude of a person, (+) Electricity is applied, it is possible to detect a relatively high pressure. Therefore, it is useful for detecting a sports operation corresponding to a jump operation or a running operation of a person, and when positive electricity is applied to the second positive electrode 130 It is possible to detect a relatively low pressure, which is useful for detecting a person's walking state.

Therefore, the variable pressure detecting mat according to the present invention is advantageous in that different pressure can be easily detected in one pressure detecting mat.

While the present invention has been described in connection with what is presently considered to be preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is to be understood that the invention is not limited thereto.

100: Electrode cell 110: Negative electrode (N)
120: first positive electrode (L) 130: second positive electrode (M)
200: electrode plate 300: resistance film

Claims (5)

A first positive electrode which is disposed along a predetermined path and to which electricity is applied, a first positive electrode which is disposed at a distance from the negative electrode at a relatively large distance from the negative electrode and is electrically connected to the positive electrode, An electrode cell including a second positive electrode which is disposed at a relatively short distance from the negative electrode and is spaced apart from the negative electrode at a relatively small distance from the negative electrode and to which (+) electricity is applied;
An electrode plate having a matrix structure in which the electrode cells are spaced apart from each other in a transverse direction and a longitudinal direction, and the same electrodes are connected to each other; And
A resistance film disposed on the electrode plate and assembled to the electrode plate, the resistance value of which changes when the pressure is applied from the outside;
And a pressure sensor for detecting the pressure of the fluid. The method according to claim 1,
Wherein the negative electrode, the first positive electrode, and the second positive electrode are formed in a spiral shape to increase a contact area with the resistive film. 3. The method of claim 2,
Wherein the negative electrode, the first positive electrode, and the second positive electrode are formed in a rectangular spiral shape that is bent in a direction intersecting with a straight line in any one direction. The method according to claim 1,
Wherein the negative electrode, the first positive electrode, and the second positive electrode are disposed on the same plane in the electrode plate. The method according to claim 1,
Wherein the resistance film is formed to have the same size as the electrode plate.

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