JPS6144306A - Size measuring apparatus for clothes - Google Patents

Abstract

PURPOSE:To make it possible to measure the size without contacting the body of a person to be measured, by providing a size-measurement controlling part comprising a computer, which converts the configuration of a body of the person to be measured that is detected through light beams or sound waves into electric signals and outputs the three-dimensional coordinates of said configuration of the body based on the electric signals. CONSTITUTION:The image of a person to be measured 13, who stands in front of a background, is picked up at the front and the side. TV cemeras 1 and 2 output digital electric signals of said images. The output signals are inputted to a size measurement controlling device 3. The controlling part 3 judges the boundary between the configuration of the body of the person to be measured and the background based on the inputted electric signals. The configurations of the body at the front and side are converted into coordinates on the X axis and the Y axis, and the three-dimensional coordinates of the person to be measured are obtained. Based on the three-dimensional coordinates, the coordinates of each part necessary for forming a pattern are obtained. The data is inputted to a pattern control part 4. Based on the data inputted from the controlling part 3, the control part 4 determines the patterns of the body and others and inputs them in an automatic cutter 5.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a human body measuring device for sewing suits and the like.

When taking measurements for sewing a suit, etc., conventionally,
Measurements are taken by applying a tape measure directly to the person being measured. Therefore, there is a problem that differences in measurements occur due to differences in the skill of the measurer, and the measurer needs to be careful about touching the customer's body when taking measurements, and the person being measured needs to be careful not to touch the customer's body when taking measurements. There is a sense of bother. The entire suit is then supported only by the shoulders. In other words, in order to sew a suit that fits the body, it is necessary to accurately understand the falling state of the shoulders. Since other lengths or circumferences are only measured directly, it is quite difficult to scale a pattern that fits the shoulders.

SUMMARY OF THE INVENTION An object of the present invention is to make it possible to measure the body of a person to be measured without touching the person's body, and to accurately grasp the condition of the shoulder drop, thereby making it possible to sew a suit or the like that fits the body.

The present invention relates to a detection unit such as a television camera that detects the body shape of a person to be measured using invisible light such as visible light or infrared light, light such as a laser beam, or sound waves, and outputs the detected body shape as an electrical signal; The present invention is characterized in that it includes a measuring control section including a computer, which obtains the three-dimensional coordinates of the body shape based on the electric signal input from the section, and calculates and outputs the coordinates of each measuring part from the three-dimensional coordinates.

This device detects the body shape of the person to be measured using a detection unit such as a television camera, and inputs it to a measurement control unit as a digitized electrical signal. The measurement control unit determines the boundary between the body shape of the person to be measured and the background based on the input signal at once, and obtains three-dimensional coordinates from the boundary coordinates. From these three-dimensional coordinates, the coordinates required to obtain the pattern for each part of the garment are determined and output.

An embodiment of the present invention will be described with reference to FIG. 1. This has a television camera 1.2 configured to take pictures of the person to be measured from the front and side, and to output the images as digitized electrical signals. , these output signals are input to a measuring control section 3 using a computer. The measurement control unit 3 determines the boundary between the body shape of the person to be measured and the background based on the front and side electric signals inputted from the camera 1.2, and measures the front and side body shape on the X and Y axes. At the same time, the three-dimensional coordinates of the person to be measured are obtained by converting the coordinates into coordinates, determining a shape, such as an oval shape, for each part of the body using the front and side boundary coordinates as a reference. Then, the coordinates of each part necessary for forming the pattern are determined from the three-dimensional coordinates, and the data is input to the pattern control section 4 using a computer. Pattern control section 4
Cutting 1! determines the shape of the body and other parts of a suit etc. based on the data input from the measuring control section 3, and inputs it to the automatic cutting machine 5. Jrm5 cuts the fabric according to the input signal. 6 is a monitor, which monitors the image and other conditions.

7 is the background of the measurement location placed opposite camera 1.2, and this is a color that clearly differs in tone from that of the person taking the measurement.
It's bright. The output of the pattern control section 4 can be input to a printer instead of the automatic cutting machine 5 to scan the pattern.
It is also possible to manually output the output.

When taking measurements, it is best for the person to be measured to stand in front of the camera 1.2 wearing a cut-off shirt that easily shows their body shape, so that the data can be accurately measured. Note that when lighting the person to be measured, the position or angle of the light should be considered so that the shadow of the person to be measured does not appear on the camera. When the measurement area is large, shadows can be removed from the background by increasing the distance between the background and the person being measured, making it easier to process shadows.

To explain the measurement using this device, the person to be measured stands in front of the background 7. Then, the person to be measured is imaged using cameras 1 and 2. The camera 1.2 converts the image into an electrical signal and sends it to the measurement control section 3 manually. The measurement control unit 3 determines the boundary between the subject and the background from the input video, and coordinates the front and side body shapes on the X and Y axes. Three-dimensional coordinates are obtained from these coordinates to determine the coordinates of each part necessary for forming the paper pattern, and these are output to the paper pattern control section 4. The pattern control unit 4 determines the pattern of each part of the suit etc. based on the input data, inputs it to the automatic cutting machine [5, and the automatic cutting machine 5 cuts the fabric.

The camera 1 and 2 should be positioned so that they can move around the body shape of the person to be measured in three dimensions. It is also possible to place It is also possible to measure in two directions, the front and the top, which is suitable when the measuring area is small and there is space at the top. It is also possible to arrange it in two directions: on the side and on the back of the person being measured.

Additionally, on each side of the above-mentioned camera arrangement, as shown in Figure 2, cameras are placed diagonally above the front of both the left and right shoulders of the person to be measured, and the back is viewed from above, or as shown in the chain line in Figure 2. As shown in Figure 3, cameras are placed diagonally above the backs of both shoulders to examine the chest from above, or as shown in Figure 3, cameras are placed diagonally above the sides of both shoulders to examine the chest. It is also possible to add a shot of the back from above. If the camera is placed diagonally above the person being measured, it can be placed only on one shoulder side. In this way, by placing a camera diagonally above the person being measured and photographing the person from three directions, it is possible to capture data on one or both of the person's chest and back. It is possible to obtain more accurate three-dimensional coordinates using data in one or two horizontal directions.

On each side of the camera arrangement, the cameras that take pictures of the person to be measured in the horizontal direction can be placed separately for the upper and lower body of the person to be measured, as shown in Figure 2. By placing cameras on each of the upper and lower body parts, it is possible to reduce the space required for measurements.

Furthermore, using one television camera, for example, it is possible to first take pictures of the front of the person to be measured, and then to take images of the sides of the person as the person changes by approximately 90 degrees.

FIG. 4 shows still another example, in which a mirror 8 is arranged at an angle with respect to the camera so that the person to be measured is reflected therein. One camera is placed at a position that shows the front of the person being measured.

After photographing the person to be measured from the front, the camera can be moved to capture the image in the mirror to obtain the three-dimensional coordinates of the person to be measured, making it possible to place the camera above the person. It is possible.

As is clear from the above, the camera is placed in one direction of the subject.
It may be arranged in either two directions or three directions, and the camera that takes pictures in the horizontal direction may take pictures of the whole body with one camera, or may take pictures with a plurality of cameras.

As the detection unit for detecting the body shape of the person to be measured, an infrared sensor that captures images of the front and side faces of the person as a heating element and converts them into electrical signals can also be used. In addition, a laser beam (unidirectional A1 color light) or an ultrasonic beam (unidirectional ultrasonic wave) is used to scan the front and side surfaces of the subject, and the difference between reflection and incidence is converted into a digital signal and output. Devices that do this can also be used.

If the background is a constant color and the lighting is constant, the difference in tone between the person being measured and the background can be reduced by changing the person being measured into clothes that tend to have a difference in tone from the background. I can do that.

Figures 5 and 6 show examples in which the color of the cover can be changed, and one end is fixed to a shaft 10 provided in a cylindrical case 9 and biased by a spring in the circumferential direction. A plurality of sheets 11 made of woven cloth, synthetic resin film, etc., are arranged parallel to the background 7 and lined up in the radial direction of the case 9 at the top of the front surface of the background. are in different colors. Therefore, by spreading a sheet 11 of a color different from the color of the clothes of the person being measured in front of the background, the color of the background can be changed to ]jtL, and the tone between the person being measured and the background can be changed. It's easy to make a difference. The case 9 may be placed upright on the side of the background.

Figure 7 shows an example in which semi-transparent or opaque, light-transmissive frosted glass, paper, woven fabric, film, or board is used as a background, and a light 1 for illumination is placed at an appropriate location such as the upper part of the back side.
2 are arranged so that their directions can be changed. When you want to brighten the background, turn the light t-12 toward the background, and the background will be brightened by the illumination from the background. in this case,
It is easy to erase the shadow of the person being measured. Conversely, when the background is to be darkened, it can be done by directing the light 12 in the opposite direction to the background, making it easy to change the tone.

If the background is a color such as gray, it is easier to make it darker. When making the background dark, it is also possible to place another sheet in front of the background as shown in FIG.

It is also possible to image the person to be measured as a silhouette, an example of which is shown in FIG. A plate, film, or the like made of light-transparent synthetic resin such as milky white is placed as the background 7, and the background 7 is illuminated from the back side with a fluorescent light or other light 2, so that the front of the person to be measured is from the background 7. If the person to be measured is imaged as a silhouette, it is possible to accurately image the body shape of the person to be measured without being affected by the color of the person's clothing, and it is easier to judge the boundary between the person and the background. It's easy to say that Hayashi is a 13-year-old measurer.

Since the present invention detects the body shape of the person to be measured through a television camera or other detection unit, there is no need to directly touch the person to be measured, and measurements can be easily and quickly taken. Then, the body shape obtained by the detection section is input as an electric signal to the measurement control section, and based on the three-dimensional coordinates of the body shape obtained by the measurement control section, the coordinates of each part of the clothing necessary for measurement are obtained. Therefore, it is possible to take accurate measurements, and it is possible to accurately grasp the lowering of the shoulders, which is necessary to sew a suit that fits, and to cut the fabric based on this. It is possible to wear suits and other items.

[Brief explanation of the drawing]

Fig. 1 is a plan view, Fig. 2 is a side view with the camera in a different position, Fig. 3 is a front view of another example of the camera position, Fig. 4 is a plan view of a loosened example, Fig. 5 is a side view of an example with different backgrounds,
FIG. 6 is an enlarged perspective view of the sheet, FIG. 7 is a plan view of another example of the background, and FIG. 8 is a plan view of still another example of the background. 1/2: Camera, 3: Measuring control section, 4: Pattern control section, 5
: Cutting machine, 6: Monitor, 7: Background. 3rd D3 4th■ 50th Figure 6-1 Figure 8

Claims (6)

[Claims] (1) A detection unit that detects the body shape of the person to be measured through light rays or sound waves and outputs it as an electrical signal; and based on the electrical signal input from the detection unit, obtains the three-dimensional coordinates of the body shape; A garment measuring device having a measuring control section comprising a computer, which calculates and outputs the coordinates of each measuring part from the three-dimensional coordinates. (2) The clothing measuring device according to claim 1, wherein the detection section is constituted by a television camera. (3) The clothing measuring device according to claim 1, wherein the detection section is constituted by an infrared sensor. (4) The clothing measuring device according to claim 1, wherein the detection section uses a laser beam. (5) The clothing measuring device according to claim 1, wherein the detecting section uses an ultrasonic beam. (6) The clothing measuring device according to any one of claims 1 to 5, wherein the detection units are arranged at the front and side positions of the person being measured.