JPH0715721A - Image transmitting device - Google Patents

Abstract

PURPOSE:To observe both overall and fine images of a specimen that is fixed on a microscope. CONSTITUTION:An image transmitter side station A and an image receiver side station B are connected to each other via the fiber cables C and D. An overall image pickup camera 15 and a fine image pickup camera 13 are switched to each other at the station B by the operation of a switch button of an input means 55 while a specimen is fixed on an auto-stage 12 attached to a microscope 11. At the same time, a scanning stage 12 moved to a position where the specimen can be photographed by the switched camera. The input is selected by a switching device 17 for the information on the image photographed by the camera. Then the image information is displayed on an image monitor 52 of the station B via a fiber cable C.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image transmission device using a microscope.

[0002]

2. Description of the Related Art As an apparatus of this type, Japanese Patent Laid-Open No. 4-307 is known.
The one described in Japanese Patent No. 028 is known. That is, this publication proposes an image transmission system between an image transmitting side station and an image receiving side station connected by a communication means. In this system, the image transmission side station has a microscopic image pickup camera attached to a microscope and a whole image pickup camera attached to a macro image pickup stand, and image signals from each camera are displayed on a monitor. At the same time, it is displayed on the monitor at the image receiving station via the communication means. For fine images, the remote control device at both stations sends a command to move the scanning stage to observe the image at any position in the specimen. The image is observed by placing the sample in the imaging field of view of the imaging camera.

[0003]

In the conventional system as described above, in order to capture the whole image (macro image) of the specimen, the whole image capturing camera is used with the specimen removed from the stage of the microscope. In order to capture a fine image (microscopic image) of the sample by using the fine image capturing camera, it is necessary to capture the sample on the stage of the microscope. Since the microscopic image is obtained by enlarging a part of the whole image, the specimen had to be removed from the microscope each time in order to recognize which part of the whole image was being observed. Especially when observing from an image receiving station at a remote place, the entire image is transmitted once and then the fine image is transmitted. However, if observation of the entire image is required during observation, image transmission is performed. It is necessary to instruct the side station to remove the sample from the microscope stage,
There was a problem that it was annoying.

An object of the present invention is to solve these conventional problems and provide a practical image transmission device.

[0005]

In order to solve the above-mentioned problems, the present invention provides a microscope (11) which can be remotely operated to form a magnified image of a specimen, and a whole image of the specimen. An image pickup camera (15) for outputting the image information No. 1, an image pickup camera (13) for picking up a microscopic image of the sample by the microscope and outputting the second image information, and an image transmitting means for transmitting the image information. (18), a switching means (17) for selectively outputting the first and second image information to the image transmitting means, and an operation signal receiving means for receiving an operation signal from the image receiving station ( 22) an image transmitting side station (A); an image receiving means (51) for receiving an image from the image transmitting means, and an image monitor (52) for displaying the received image. Side station (B) and; communication means (C, D) for connecting the image transmitting side station and the image receiving side station; in the image transmitting side station, the image receiving side station is provided with the first and second Means for inputting a command to switch the image information of (5
5) and an operation signal transmitting means (54) for transmitting a command from the input means to the transmitting side station via the communication means, and placing the sample on the image transmitting side station. A scanning stage (12) capable of moving the sample between an observation position by the microscope and an imaging position by the second imaging camera, a driving unit (30) for electrically driving the scanning stage, and the communication unit. The control means (20, 21) for controlling the drive means and the switching means in response to the command from the input means transmitted via the control means is provided.

[0006]

In the image receiving station (B), when a command for selecting the first image information is input to the input means (55), the command is transmitted to the communication means (D) by the operation signal transmission means (54). Image transmission side station (A)
Is received by the operation signal receiving means (22), and the control means (20, 21) switches the input of the switching means (17) to the input from the first imaging camera (15) in response to this command and the command. In response to this, the scanning stage (12) is moved to a position where it can be imaged by the first imaging camera (15) with respect to the driving means (30) of the scanning stage (12).

The image picked up by the first image pickup camera (15) is selected for input by the switching means (17) and is present at the image receiving station (B) by the image transmitting means (18) through the communication means (C). It is transmitted to the image receiving means (51) and displayed on the image monitor (52). Also,
At the image receiving station (B), the input means (5
When a command for selecting the second image information is input in 5),
The instruction is the operation signal transmitting means (54) in the same manner as described above.
Is received by the operation signal receiving means (22) of the image transmitting side station (A) via the communication means (D), and the control means (20, 21) responds to this command by inputting the input of the switching means (17). The input from the second imaging camera (13) is switched and the second means is provided to the driving means (30) of the scanning stage (12) in response to this command.
The scanning stage (12) is moved to a position where it can be imaged by the imaging camera (13).

The image picked up by the second image pickup camera (13) is selected for input by the switching means (17), and the image transmitting means (18) sends the image through the communication means (C) to the image receiving side station in the same manner as described above. It is transmitted to the image receiving means (51) in (B), and is displayed on the image monitor (52).
Is displayed in.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT An embodiment of the present invention will be described with reference to the accompanying drawings. In FIG. 1, a microscope 11 is arranged at the image transmitting side station A, and a scanning stage 12 is provided.
Is attached. A camera 13 for capturing a microscopic image (microscopic image) of a sample is attached to the microscope 11, and the camera 13 is a camera control unit (CC
U) 14. Overall image of the specimen (macro image)
A camera 15 for picking up the image is attached to the side of the microscope 11 by a supporting device (not shown), and the camera 15 is controlled by a camera control unit (CCU) 16.

The images picked up by the cameras 13 and 15 are selected for input by a switching device (switcher) 17, displayed on an image monitor 19, converted into image signals, and converted by an image transmission device 18 to a fiber cable C. Through the image receiving side station B to the image transmitting apparatus 51. The transmitted image signal is displayed on the image monitor 52 of the image receiving station B.

An operator inputs a command for selecting an image to be transmitted from the images from the camera 13 and the image from the camera 15 to the input means 55 in the image receiving station B. The command is recognized by the microcomputer 20 through the operation signal transmission device 54, the fiber cable D, the operation signal transmission device 22 of the image transmission side station A, and the control means 21. The microcomputer 20 issues a command to the control means 21 to switch the input of the switching device 17 so as to input the image of the camera designated by the input means 55, and the control means 21 can take an image with the camera designated as the scanning stage 12. Issue a command to move to a position.

Further, the joystick 53 issues a command for changing the position of the sample imaged by the camera 13 or 15 while watching the monitor 52. This command is transmitted to the control means 21 through the operation signal transmission device 54, the fiber cable D, and the operation signal transmission device 22 of the image transmission side station A, and the control means 21.
Causes the scanning stage 12 to scan accordingly.

FIG. 2 shows the details of the input means 55 in the image receiving station B. The input means 55 is provided with a camera 1 selection switch 201 and a camera 2 selection switch 202. When the camera 1 selection switch 201 is operated, the control means 21 in FIG. 1 inputs the image of the camera 15. As described above, the input of the switching device 17 is switched, and the driving device 30 including an electric motor is further driven to move the scanning stage 12 to a position where the entire image of the sample can be captured. Similarly, when the camera 2 selection switch 202 is operated, the control device 21 of FIG. 1 switches the input of the switching device 17 so as to input the image of the camera 13,
Further, the scanning stage 12 is moved to a position where a fine image of the sample can be captured.

FIG. 3 shows the positional relationship between the scanning stage and the two cameras. In FIG. 3, the camera 15 is used to capture the entire image of the specimen, and the scanning stage 12 moves to the position indicated by the broken line, whereby the specimen 31 is positioned within the observation field of view of the camera 15. Also,
A camera 13 is used to capture the microscopic image, and the scanning stage 12 is moved to the position indicated by the solid line, whereby the sample 31 is positioned directly below the microscope objective lens.

Next, the operation of this embodiment will be described. In the image transmitting station A, the sample is placed on the scanning stage 12 attached to the microscope 11.
When observing the entire image of the sample at the image receiving station B, the switch 201 of the input means 55 is operated. The command from the input means 55 is an operation signal transmission device 54,
It is recognized by the microcomputer 20 through the fiber cable D, the operation signal transmission device 22 of the image transmission side station A, and the control means 21.

The microcomputer 20 has a control means 21.
Then, a command for switching the input of the switching device 17 to input the image of the camera 15 is issued, and further, a command for moving the driving device 30 of the scanning stage 12 to a position where the camera 15 can capture an image is issued. The image captured by the camera 15 is selected for input by the switching device 17, displayed on the image monitor 19, and further transmitted by the image transmission device 18 to the image transmission device 51 in the image receiving station B through the fiber cable C. And is displayed on the image monitor 52.

When observing a fine image of the sample at the image receiving station B, the switch 201 of the input means 55 is operated. The command from the input means 55 is recognized by the microcomputer 20 through the same route as described above. The microcomputer 20 issues a command to the control means 21 to switch the input of the switching device 17 so as to input the image of the camera 13, and further, a command to move the scanning stage 12 to a position where the camera 13 can capture an image. The image captured by the camera 13 is
The input is selected by the switching device 17, displayed on the image monitor 19, and the image transmission device 5
1 and is displayed on the image monitor 52.

Here, when changing the position of the observation object on the image monitor 52, the joystick 53 is used. By the command of the joystick 53, the scanning stage 12 can be scanned through the operation signal transmission device 54, the fiber cable D, the operation signal transmission device 22 of the image transmission side station A, and the control means 21.

Although one embodiment of the present invention has been described above, in the present invention, the image transmission fiber cable and the operation signal transmission fiber cable are separately installed in FIG. 1, but one cable is used instead. It is also possible to do so. Further, in the present invention, the fiber cable is used as the communication means, but it is also possible to connect by a coaxial cable, a general telephone line, an integrated service digital network (ISDN), a microwave, a communication satellite line, and a transmitting station and a receiving station. It can also be applied when the side station is remote from a distance.

Even when both stations are adjacent to each other in a distance, human access is restricted when the transmitting station is in a clean room or when the observation object is a substance harmful to the human body. It is especially effective in such an environment.

[0021]

According to the present invention, it is possible to observe the entire image and the fine image of the sample by switching the cameras while the sample is still mounted on the microscope. Therefore, from the image transmitting station to the image receiving station. This eliminates the need to issue a command to transfer the specimen and enables accurate and quick observation.

[Brief description of drawings]

FIG. 1 is a block diagram showing a schematic configuration of an embodiment of the present invention.

FIG. 2 is an explanatory diagram showing details of input means.

FIG. 3 is an explanatory diagram showing a positional relationship between an imaging camera and a scanning stage.

[Explanation of symbols]

 A ... Image transmitting station B ... Image receiving station C, D ... Fiber cable 11 ... Fully automatic microscope 12 ... Scanning stage 13, 15 ...・ Imaging camera 14, 16 ... Camera control unit 17 ... Switching device 18, 51 ... Image transmission device 19, 52 ... Image monitor 20 ... Microcomputer 21 ...・ Control means 22, 54 ・ ・ ・ ・ Operation signal transmission device 30 ・ ・ ・ ・ Driving device 53 ・ ・ ・ ・ Joystick 55 ・ ・ ・ ・ Input means

Claims (1)

[Claims] 1. A microscope that can be remotely operated to form a magnified image of a specimen, a first imaging camera that captures an entire image of the specimen and outputs first image information, and a microscope of the specimen by the microscope. A second imaging camera that captures a fine image and outputs second image information, an image transmitting unit that transmits the image information, and the first and second image information selectively to the image transmitting unit. An image transmitting side station provided with a switching means for outputting and an operation signal receiving means for receiving an operation signal from the image receiving side station; an image receiving means for receiving an image from the image transmitting means; An image transmission apparatus comprising: an image receiving side station having an image monitor for displaying an image; and a communication means for connecting the image transmitting side station and the image receiving side station. Input means for inputting a command for switching the first and second image information to the image receiving station,
An operation signal transmitting means for transmitting a command from the input means to the transmitting side station via the communication means is provided, and the sample is placed on the image transmitting side station and the observation position by the microscope and the A scanning stage capable of moving the sample between an imaging position of the first imaging camera, a driving unit for electrically driving the scanning stage, and a response to a command from the input unit transmitted via the communication unit. Then, the image transmission apparatus is provided with control means for controlling the drive means and the switching means.