KR20020052649A - Apparatus and method for measuring three demensional image - Google Patents

Abstract

PURPOSE: A device and a method for measuring a three-dimensional image is provided to use a pattern film, a photo sensor, a motor and a limit switch when measuring the three-dimensional image, so as to obtain the image having a clean pattern and acquire data having relatively low errors. CONSTITUTION: A projection unit(12) projects a pattern to a measured object. A pattern film(21) of which one end is guided is located on the front of the projection unit. A photo sensor(33) located on an upper part of the front of the projection unit senses a transfer position of the pattern film. In the pattern film, a photo sensor responding cutoff unit for cutting off the response of the photo sensor and a photo sensor responding unit for responding to the photo sensor are arranged at a predetermined distance. The pattern film is coupled to an upper part of a timing belt. A motor(36) transfers the pattern film right and left against the projection unit, to transmit the light source irradiated in the projection unit. And limit switches(37) are located in the right and left of the projection unit at a predetermined distance to suspend the transfer of the pattern film, after confirming that the transfer is performed to an end part of the pattern film by an operation of the motor.

Description

Apparatus and method for measuring three demensional image}

The present invention relates to an apparatus and method for measuring a three-dimensional image, and more particularly, in measuring a three-dimensional image, by using a photosensor, a motor, and a limit switch to quickly measure an image of a measurement object without stopping in the middle. The present invention relates to a three-dimensional image measuring apparatus and method capable of acquiring relatively little data.

The algorithm commonly used in three-dimensional measurement is shown in FIG.

Projecting a series of patterns onto the measurement object 11 through the projection means 12 controlled by the controller 14 and acquiring the image through a CCD camera as the photographing means 13, and obtaining the acquired image by the calculation unit 15. ) To obtain 3D data.

The projection means 12 projects a series of patterns by using a method (hereinafter, referred to as a “projector type”) mainly using the same principle as that of an LCD projector or a slide projector. There is a rotary. The transfer method mainly uses a method of transferring a pattern film (or glass, hereinafter referred to as a 'film') engraved with a pattern vertically or horizontally using a step motor in a three-dimensional measuring projector.

The LCD pattern projection apparatus has a fixed resolution of expensive LCD, and thus, the resolution cannot be freely controlled. In the case of an LCD projector, the projected image is shaken due to an electrical signal to obtain a noisy image. When the dimensional measurement is performed, since the pattern film is used, an image of a clean pattern can be obtained, so that the three-dimensional data can be precisely obtained and the cost can be reduced.

The rotatable type has a method of projecting a pattern by mounting a film on a rotatable rotary wheel and fixing a light source (lamp) at the center of rotation, but has a disadvantage of uneven focus because the pattern film forms a curved surface. .

Accordingly, the present invention was devised to solve such a problem, and an object of the present invention is to obtain a clean pattern image by using a pattern film, a photosensor, a motor, and a limit switch in measuring a 3D image. The present invention provides a three-dimensional image measuring apparatus and method capable of acquiring relatively small data.

1 is a block diagram showing a three-dimensional measurement algorithm,

2 is a block diagram of a 3D image measuring apparatus implemented according to the present invention;

3 is an exemplary view showing an example of a pattern film used in the present invention,

4 is a plan view of a three-dimensional image measuring apparatus implemented according to the present invention,

5 is a left side view of a 3D image measuring apparatus implemented according to the present invention;

6 is a flowchart illustrating a 3D image measuring method according to the present invention.

<Description of Symbols of Major Parts of Drawings>

11 measurement object 12 projection means

13 shooting means 14 control unit

15: calculator 21: pattern film

22: photosensor sensitive cut off 23: photosensor sensitive cut

24: pattern 32: timing belt

33: photosensor 34: lamp unit

35: pattern film support portion 36: motor

37: limit switch 38: pulley mount

39: pulley drive unit

A three-dimensional image measuring apparatus of the present invention for achieving the above objects comprises: a three-dimensional image measuring apparatus having photographing means for photographing a measurement object, comprising: projection means for projecting a pattern onto the measurement object; A pattern film positioned at a front surface of the projection means and guided at one end thereof; A photosensor for detecting the transfer position of the pattern film is located on the front top of the projection means; The photosensor sensitive blocking unit for blocking the photosensor sensor and the photosensor sensitive section for sensing the photosensor are arranged spaced apart at regular intervals on the pattern film, and the pattern film is placed on top of a predetermined device by the photosensor. It is coupled, the motor for transferring the pattern film to the left and right with respect to the projection means so that the light source irradiated from the projection means can be transmitted; And after confirming that the transfer to the end of the pattern film by the operation of the motor, and includes a limit switch spaced apart at regular intervals on the left and right of the projection means to stop the transfer of the pattern film.

The three-dimensional image measuring method of the present invention for achieving the above object is a step of projecting the pattern on the measurement object by operating the projection means, and using a predetermined motor to move the pattern film in a predetermined interval in parallel to one direction; After the movement, sensing the position of the pattern film by a photosensor and photographing the measurement object using a photographing means; Stopping the transfer of the pattern film by stopping driving of the predetermined motor when the predetermined device determines that the pattern film has moved to one end after the photographing; And after the stopping, rotating the predetermined motor to transfer the pattern film to an initial position.

Hereinafter, the objects, features, and advantages of the present invention described above will be described in more detail with reference to the preferred embodiments of the present invention shown in the accompanying drawings.

2 is a block diagram of a 3D image measuring apparatus implemented according to the present invention.

As shown, the position of the projection means 12 for projecting the pattern onto the measurement object 11, the motor 36 for conveying the pattern film 21 and the pattern film 21 conveyed by the motor is recognized. The photo sensor 33 and the photographing means 13 for capturing the image projected by the pattern by the instantaneous photographing signal when the position of the pattern film is recognized by the photo sensor 33, which is a process of the pattern film The control is repeated by the controller 14 until the end of the transfer.

And the limit switch 37 which recognizes the position where the transfer of the pattern film 21 which the motor 36 transfers is complete | finished, and the timing which connects the pattern film apparatus 21, 35 and the motor 36 The belt 32 and the spring pulley mount 38 which complemented the loose property of the said timing belt are comprised.

The pattern film devices 21 and 35 are bolted to the timing belt 32 and attached to blocks that reciprocate in a linear motion guide fixed to the main frame, although not shown in the figure. , Linear reciprocating motion according to the driving of the motor 36.

Hereinafter, an operation and a 3D image measuring method of the present invention for achieving the above objects will be described in detail with reference to FIGS. 1 to 6.

First, a detailed configuration in which the devices implemented in the present invention are connected to each other will be described in detail as follows.

Projection means 12 for projecting a pattern onto a measurement object and a pattern film 21 positioned at the front of the projection means 12 and one end of which is guided and a pattern film 21 positioned at the upper end of the front surface of the projection means 12. There is a photo sensor 33 for detecting the transfer position of the), the pattern film 21, the photo sensor sensitive block 22 and the photo sensor 33 to block the response of the photosensor 33 The sensor sensitive units 23 are spaced apart at regular intervals, the pattern film 21 is coupled to the upper end of the timing belt, and the pattern film 21 is projected so that the light source irradiated from the projection unit can be transmitted. After confirming that the end of the pattern film 21 has been transported by the operation of the motor 36 and the motor 26 for feeding from side to side with respect to the 12, the projection means (1) stops the transfer of the pattern film 21. Limiter located at regular intervals to the left and right of 12) The switch 37 is comprised.

Referring to the operation using the three-dimensional image measuring device having such a configuration as follows.

First, the control unit 14 sends a signal to the projection means 12 to operate the lamp device 34 to project the pattern onto the measurement object (step S10). Then, the pattern film 21 is moved in parallel in one end direction by using the motor 36 (step S20). When the pattern film 21 of FIG. 2 is transferred, the photo sensor 33 of FIG. The position of the pattern film 21 has reached the position n, that is, the number of photosensor sensitive unit 23 is accurately recognized and serves to transfer to the control unit 14 (step S30).

Here, the motor 36 includes a DC motor, and the photo sensor 33, also called a photo interrupter, is a transmit type signal, when a blocking film is formed between two elements (light emitting part and light receiving part). Is not transmitted and the signal is transmitted when there is no barrier.

That is, the photo sensor sensitive cut-off portion 22 is printed in black on the pattern film 21 surface, and the photo sensor sensitive portion 23 is made transparent, so that the photo sensor 33 is photographed while the pattern film 21 is transferred. When the sensor sensitive unit 23 is recognized, a signal is sent to the control unit 14, and the control unit 14 sends a signal for the camera, which is the photographing unit 13, to capture the image of the moment (step S40).

The same process is repeated for the next position n + 1 (steps S20 to S40). In the last position, the pattern film 21 attaches the contact limit switch 37 so as to stop the pattern film 21 because the pattern 23 is excessively over the sensitive portion 23 of the photo sensor. The limit switch 37 is used in the present invention. Two are used, which are arranged left and right in FIG. 4.

When the pattern film 21 which is conveyed forward in one end direction passes the last position and reaches the limit switch 37 at the end, it operates while making a 'click' sound to send a signal to the control unit 14 (step S50), and the control unit ( 14 stops the driving of the motor 36 to stop the transfer of the pattern film 21 (step S60). Then, the same principle is applied so that the controller 14 rotates the motor 36 in reverse to transfer the pattern film 21 in the opposite direction so that the pattern film 21 stops at the moment when the limit film 37 reaches the initial position. The process is completed (step S70).

Here, the limit switch 37 can be replaced by a photo sensor to perform the same role, that is, it has the principle of operating if there is an object in front of it, so that when the film comes to the last position, the signal to the control unit 140 at the moment To stop the transfer. In addition, without using the limit switch 37 or the photo sensor additionally, when transferring the pattern film, recognizes the moment when the last photo sensor sensitive unit 23 passes and sends a signal to the control unit 140 at that moment to transfer. Stop it.

The drive of the motor 36 is started by the signal of the controller 14, the pattern film 21 is transported accordingly, and continuously transferred to the last stop position, and in this series of processes, the pattern film of the photo sensor 33 The instantaneous capture of position (recognition) and the instant shooting of the imaging means 13 are carried out continuously until the last pattern.

In the present invention, the timing belt 32 is used as the driving method. This timing belt is more stable than the conventional gear system (eg rack and pinion) and has a stable feeling and price because it reduces the moment (rotation force) generated by the agile driving of the motor 36 used in the present invention. It is cheaper.

In addition, the timing belt 32 has a disadvantage in that it is difficult to precisely position braking due to the loose property. To solve this problem, the fixed spring type pulley mount 38 and the pulley driving part 39 that can be moved left and right are separated from each other. It was. T-shaped rotated to the right in Figure 4 is a pulley mount 38, it is wrapped with a spring.

The pulley driving part 39 has a 'c' shape and a pulley in which the belt is wound is rotatably fixed. The tension force of the timing belt 32 hanging on the pulley and the elasticity of the spring are balanced so that the timing belt is It could be kept taut.

Although a preferred embodiment of the present invention has been described in detail above, those skilled in the art to which the present invention pertains may make various changes without departing from the spirit and scope of the invention as defined in the appended claims. It will be appreciated that modifications or variations may be made. Therefore, changes in the future embodiments of the present invention will not depart from the technology of the present invention.

As described above, since the image projected by the electric signal in the LCD projector according to the prior art is shaken to obtain an image with noise, it takes a lot of measurement time to correct this, while applying the present invention to perform three-dimensional measurement, By using a pattern film, images of a clean pattern can be obtained, so that the 3D data can be obtained precisely, and the cost can be reduced.

It can also be used as a key component in projectors used in all existing non-contact 3D measurement applications, and can significantly reduce measurement time and move moving objects (eg human faces, animals, human bodies, etc.). It is very suitable for the measurement.

Claims (7)

In the three-dimensional image measuring apparatus having a photographing means for photographing a measurement object, Projection means for projecting a pattern onto the measurement object; A photosensor for sensing the position of the pattern film located on the front upper end of the projection means; A pattern film having a photosensor sensitive cut-off part for blocking the photosensor and a photosensor sensitive part for sensing the photosensor spaced at regular intervals, the one end of which is guided by the photosensor; The pattern film is coupled to a predetermined device, characterized in that it comprises a motor for transferring the pattern film to the left and right with respect to the projection means so that the light source irradiated from the projection means. The method of claim 1, wherein the predetermined device The pattern film is coupled, one end is connected to the motor and the other end is composed of a spring-type pulley mount, three-dimensional image measuring apparatus characterized in that the timing belt for transferring the pattern film to the left and right . The method of claim 1, After confirming that the transfer to the end of the pattern film by the operation of the motor, the three-dimensional image measuring apparatus characterized in that further using a photo sensor to stop the transfer of the pattern film. The method of claim 1, After confirming that the transfer to the end portion of the pattern film by the operation of the motor, in order to stop the transfer of the pattern film further comprises using a limit switch spaced apart at regular intervals on the left and right of the projection means 3 Dimensional image measuring device. Operating the projection means to project the pattern onto the measurement object, and then moving the pattern film in one direction at a predetermined interval in parallel by using a predetermined motor; After the movement, sensing the position of the pattern film by a photosensor and photographing the measurement object using a photographing means; Stopping the transfer of the pattern film by stopping driving of the predetermined motor when the predetermined device determines that the pattern film has moved to one end after the photographing; And After the stopping, rotating the predetermined motor to transfer the pattern film to the opposite side. The method of claim 5, wherein the predetermined motor Three-dimensional image measurement method characterized in that the DC motor. The method of claim 5, wherein the predetermined device 3D image measuring method, characterized in that any one of a limit switch or a photo sensor.