KR100645976B1 - Pillow customizing system - Google Patents

Abstract

The present invention provides a pillow selecting unit that measures the curved shape of a head of a specific person (hereinafter, head image) and finds the same data from a database storing data representing various head shapes of the human body and types of pillows indexed by these data. And, it relates to a pillow fit system including a pillow verification unit for placing on the selected pillow to verify the pillow selected by the pillow selection unit to check the body pressure distribution by measuring the pressure for each part pressed by the head of the human body.

Pillow, fit, head, body pressure

Description

Pillow customizing system

1 is a block diagram of a pillow selection unit of the pillow alignment system according to the present invention.

Figure 2 is a detailed view of the length measuring unit of the pillow selection unit.

Figure 3 is a block diagram of a pillow verification unit of the pillow alignment system according to the present invention.

The present invention relates to a system for selecting and verifying a custom pillow suitable for a user's body shape. More specifically, the present invention measures the flexion shape (hereinafter, the head) of a specific person's head, and finds the same data from a database storing data representing various head shapes of the human body and types of pillows indexed by these data. Regarding the pillow fitting system including a pillow selecting unit and a pillow verifying unit to check the body pressure distribution by measuring the pressure for each part pressed by the head of the human body placed on the selected pillow to verify the pillow selected by the pillow selecting unit will be.

In order to solve the disadvantages of the pillow filled with cotton or grain blood, which is a traditional pillow (problems of not receiving the body pressure of the larynx), a variety of pillows of various shapes and structures are widely used.

The pillow has a good ergonomic shape and cushions the body's back head and cervical spine. In order to achieve a constant distribution of body pressure, many companies have produced various pillows of various shapes and structures for comfortable sleep and protection of the cervical spine through various studies. In particular, in the case of the memory foam pillow is easy to manufacture in a variety of shapes and structures to fit the body of the human body has been a lot of research and products are released.

But there are limits to pillows as ready-made. Because everyone's body is different, a few types of pillows from ready-made perspectives cannot be applied satisfactorily to everyone. Thus, the concept of a custom pillow is emerging.

Custom pillows are literally pillows that get the body data of each user and are tailored to the data. It is difficult to measure head and cervical spine by hand in order to obtain body data of each user, and it is difficult to select a pillow suitable for the user by using computer technology and automated measurement technology and to verify the suitability of the selected pillow. It would be desirable for productivity or to create a custom fit pillow and in all respects.

The present inventors deviate from the fact that the conventional pillow is designed according to the case of a specific standard body shape, and if the general user can select the shape of the pillow to be customized for himself, the consumer can select the shape as desired at the time of purchasing the pillow. The pillow according to the present invention has been developed in consideration of the advantages to be obtained.

Pillow fit system according to the present invention comprises a pillow selection unit and a pillow verification unit. The pillow selector measures the curved shape of the head of a specific person (hereinafter, head), and finds the same data from a database storing data representing various head shapes of the human body and the types of pillows indexed by these data. The pillow verification unit serves to confirm the body pressure distribution by placing the pressure on the selected pillow to verify the pillow selected by the pillow selection unit and measuring the pressure of each part of the head pressed by the human body.

First, the pillow selection unit will be described with reference to FIG. Looking at the composition,

The storage unit 100 stores data representing various head shapes of the human body and types of pillows indexed by the data.

Length measuring unit 110 including a plurality of sensor rods 111 to contact the surface of the head to output the electrical signal corresponding to the stretching of the length in order to measure the curved shape of the head of the specific person (hereinafter, head),

Head image data generation unit 120 for generating data describing the head phase by collecting the electrical signals of different values output from the length measuring section 110,

Pillow search and selection unit 130 for searching the head data in the storage unit 100 to select a matching pillow type,

And an output unit 140 displaying data related to the selected pillow.

Data stored in the storage unit 100 may include a photorealistic view of each pillow. By doing so, the output unit 140 displays a realistic view of the pillow so that the consumer can easily see it.

The length measuring unit 110 may be configured such that a plurality of linear potentiometers in which resistance values change depending on the one-dimensional position of the sensor rod 111 are arranged to simulate two phases so that each resistance value is different. Fig. 2 introduces the structure of the linear potentiometer in detail. The sensor rod 111 is in contact with the linear resistor 112 to reciprocate, and the sensor rod 111 is installed to be returned to its original position by the spring 113. As the position of the intermediate terminal 115 in contact with the linear resistor 112 changes, the resistance value between the first terminal 114 or the second terminal 116 and the intermediate terminal 115 of the resistor 112 changes. The circuit can be configured to output an electric signal having a different value according to this resistance value.

As shown in the drawing, a plurality of sensor rods 111 are in contact with two heads, and since the positions of the sensor rods 111 are different according to the curves of two heads, electric signals having different values will be output for each potentiometer. By collecting the signals, curvature data of two phases of the surface where the sensor rod 111 is in contact with each other can be obtained. Of course, even if the sensor rod 111 is arranged not only in one dimension but also in two dimensions (that is, area), the head image data can be easily obtained by a known method.

The electrical signal passing from the length measuring unit 110 to the head image data generating unit 120 may need to be converted from analog to digital. For this purpose, an AD converter (not shown) may be added. Of course, if the sensor directly outputs a digital signal, an AD converter will not be needed.

On the other hand, the pillow verification unit for verifying the pillow selected by the pillow selection unit. The configuration will be described with reference to FIG.

The weight measuring unit 310 is placed on the selected pillow 300 and a plurality of pressure sensors 312 are arranged to measure the pressure for each part pressed by the head of the human body,

A conversion unit 320 for converting the magnitude of each electric signal output from the pressure sensor 312 of the weighing unit 310 into a weight value;

And a body pressure distribution display unit 330 for collecting the data converted by the conversion unit 320 to display the distribution of body pressure applied to the head.

The weight measuring unit 310 should be a flat plate of a flexible material that bends as it is when placed on the pillow, so that the body pressure can be measured by simulating the shape of the pillow, that is, the contour. A plurality of pressure sensors 312 are arranged on the flexible plate to output electric signals of different values depending on the weight.

If the pressure sensor of the weighing unit outputs an analog signal, and the converter 320 requires a digital signal, an AD converter (not shown) for converting the analog signal into a digital signal should be further included.

The body pressure distribution display 330 may display the distribution of body pressure in various ways. That is, by collecting and analyzing the electrical signals output for each pressure sensor 312, it is possible to calculate the pressure currently applied for each part (either relative or absolute) and display the calculated value in any manner. For example, it can be displayed by a change in color, and the change in color is a method widely used as a display method such as body pressure or body heat.

In the case of color display, a pillow with less color change is an ideally selected pillow. However, it is not limited thereto. That is, the criterion for the body pressure distribution of the pillow can be determined by the pillow maker and the user.

By the pillow verification unit configured as described above, it is possible to verify whether the pillow selected by the pillow selection unit of FIG. 1 is correctly selected according to the head of the user.

As described above, according to the present invention, a pillow suitable for a human body can be easily selected and easily verified.

Claims (7)

A storage means for storing data representing various head shapes of the human body and types of pillows indexed by the data; In order to measure the curved shape of the head of a specific person (hereinafter, head), the sensor rod installed to contact the surface of the head contacts the linear resistor and reciprocates to change the resistance value and output an electric signal corresponding to the resistance value. Length measuring means comprising a plurality of linear potentiometers, Means for generating head image data by collecting the electrical signals output from the length measuring means; Means for retrieving said head data from said storage means for selecting a matching pillow type. The electrical signal output from the linear potentiometer of the length measuring means is And a resistance value generated between the linear resistor and an intermediate terminal connected to the sensor rod moving in one dimension in contact with the linear resistor. The pillow fit system according to claim 1, further comprising an AD converter for converting the electrical signal output from the length measuring means into a digital value. The method of claim 1, The storage means stores the actual view of each pillow, Pillow alignment system, characterized in that the display means for displaying the actual view of the selected pillow is added. The method according to any one of claims 1 to 4, In order to verify the pillow selected by the pillow selecting means, A weighing means for placing pressure on the selected pillow and measuring the pressure for each part of the head pressed by the human body, Conversion means for converting the magnitude of the pressure measured in the weighing means into a weight value; A body pressure distribution display means for collecting the data converted by the converting means and displaying a distribution of body pressure applied to the head, The weighing means outputs an electric signal having a different value according to the pressing pressure, and includes a plurality of pressure sensors arranged in a plurality of two-dimensional on a flexible flat plate delete The pillow fit system according to claim 5, wherein an AD converter for converting each electric signal output from the pressure sensor of the weighing means into a digital value is added.

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