JP3094968U - Long-distance optical imaging system for electronic single-cylinder telescope or digital twin-cylinder camera - Google Patents

Abstract

(57) [Summary] An electronic single-cylinder telescope or a digital twin-cylinder camera capable of imaging and adjusting a distant image of 2000 m, and storing the imaged image directly or via the Internet. And a long-distance optical imaging device. A constant light convex lens, an optical sensor, and an optical circuit board module are provided. The constant light convex lens is located behind a convex lens forming an image, and the optical sensor is located behind the constant light convex lens to form an image. The centers of the convex lens 4, the constant-light convex lens 1, and the optical sensor 2 are aligned. The enlarged image of the convex lens 4 for forming an image is projected and an optical focus is formed on the constant light convex lens 1, and the image read by the constant light convex lens 1 is transparent and an electronic focus is formed on the optical sensor 2. The optical sensor 2 is mounted on the optical circuit board module 3, and the read electronic image is converted into a digital image signal using the optical circuit board module 3, and is connected to each Internet facility through a connection port.

Description

[Detailed description of the device]

[0001]

[Technical field to which the device belongs]

  The present invention relates to a long-distance optical imaging device. Long-distance optical image of the present invention The electronic device is a commonly used electronic single-tube telescope or a digital twin-tube camera. To enhance optical focus, electronic focus and optical image transmission path by applying the lens of Therefore, a long-distance image of 2000 m can be imaged and adjusted. Furthermore Save the imaged image directly to the It has the feature of being able to.

[0002]

[Prior art]

  Electronic single-tube telescopes or digital twin-tube cameras currently on the market In most cases, only the image within the effective range can be viewed with an imaging device that expands to a fixed multiple. In many cases, it does not meet the demand sufficiently. Therefore, when observing or photographing at a short distance, if the target is an animal, I miss it, and I miss the opportunity to observe and shoot. Becomes

[0003]

[Problems to be solved by the device]

  The present invention is an optical focus for the lens of an electronic single-tube telescope or a digital twin-tube camera. , By increasing functions such as electronic focus and optical image transmission path, Distance images can be imaged and adjusted, and Electronic single cylinder that can save images directly or via the Internet To provide a long-distance optical imaging device for a telescope or a digital twin-tube camera. aimed to.

[0004]

[Means for Solving the Problems]

Long-distance optical imaging of the electronic single-tube telescope or digital twin-tube camera of the present invention The device uses the lens of an electronic single-tube telescope or a digital twin-tube camera, It consists of a constant-light convex lens, an optical sensor, and an optical circuit board module. The lens is behind the convex lens that forms the image, and the optical sensor is behind the constant light convex lens. Then, the center of the convex lens that forms the image, the constant light convex lens, and the optical sensor are aligned, The magnified image of the convex lens that connects the images is transmitted and an optical focus is created on the constant light convex lens. The image read by the constant-light convex lens is transmitted and the electronic focus is placed on the optical sensor. The optical sensor is mounted on the optical circuit board module, The captured electronic image is converted into a digital image signal using the optical circuit board module. It is connected to each internet facility through the connection port. Computers can also be connected, and the imaged image is displayed directly on the monitor. It can be adjusted and saved at the same time, and can be saved over a long distance. It has the feature that it can be magnified.   In addition, the optical circuit board module has a battery unit, and the optical circuit board module Digital video signal converted by optical circuit board module Can be directly stored in the memory.

[0005]

[Embodiment of device]

  The long-distance optical imaging device of the present invention is an electronic single-tube telescope or a digital twin telescope. Applying the lens of the tube camera, as shown in FIG. Sensor 2 and optical circuit board module 3.   The constant-light convex lens 1 is behind the convex lens 4 that forms an image, and the optical sensor 2 is , Which is behind the constant-light convex lens 1 and forms an image, a convex lens 4, a constant-light convex lens 1, optics The centers of the sensors 2 are aligned. And the image that the convex lens 4 that connects the images is enlarged Is transmitted and an optical focus is formed on the constant-light convex lens 1, and the constant-light convex lens 1 reads The captured image is transmitted and an electronic focus is formed on the optical sensor 2. The optical sensor 2 Is mounted on the optical circuit board module 3 and the read electronic image is Circuit board module 3 is used to convert to digital video signal, connection port 3 Since it is connected to each Internet facility through 1, even a distant computer, Can be connected. Then, the imaged image is displayed directly on the monitor. It can be adjusted and saved. Also, that electronic The single cylinder telescope is adjusted by moving the position of the convex lens 4 that forms an image by the rotating lens barrel 5. Since it can be adjusted, it is convenient for shooting distant targets at different distances. It Adjustment of the rotary lens barrel 5 can be performed manually or remotely by a remote controller. It

[0006]   In FIG. 2, another long-distance imaging device of the present invention is a digital twin-tube camera. The constant-light convex lens 1 is applied to the rear of the convex lens 4 that forms an image. Yes, the optical sensor 2 is behind the constant-light convex lens 1 and has a convex lens 4 that forms an image. The centers of the constant light convex lens 1 and the optical sensor 2 are aligned. And the convex that connects the images A magnified image of the lens 4 is transmitted and an optical focus is formed on the constant-light convex lens 1, The image read by the light convex lens 1 is transmitted and an electronic focus is formed on the optical sensor 2. It The optical sensor 2 is mounted on the optical circuit board module 3, The read electronic image is converted into a digital image signal using the optical circuit board module 3. Will be replaced. The optical circuit board module 3 has a battery unit 32, Is converted into a video signal and stored directly in the memory of the optical circuit board module 3? , It is connected to each internet facility through connection port 31. Even a computer can connect. Then, the imaged image is directly It can be displayed on the monitor, adjusted, and saved. In addition, the digital twin-tube camera uses a rotating lens barrel 5 to form a convex lens that connects two images. It is possible to move and adjust the position of the zoom lens 4, so it is possible to It is convenient for shooting things. Adjustment of the rotating lens barrel 5 can be done manually or with a remote controller. It is also possible by remote control.

[0007]

[Effect of device]

  The long-distance optical imaging device of the present invention is an electronic single-tube telescope or a digital twin telescope. Apply the lens of the tube camera to enhance the optical focus, electronic focus and optical image transmission path. By doing so, it is possible to image and adjust a long-distance image of 2000 m. It In addition, the imaged images can be saved directly or through the Internet. It has the effect that it can be stored.

[Brief description of drawings]

FIG. 1 is an embodiment of a long-distance optical imaging apparatus for an electronic single-tube telescope according to the present invention.

FIG. 2 is an embodiment of a long-distance optical imaging apparatus for a digital twin-tube camera of the present invention.

[Explanation of symbols]

1 Constant-light convex lens 2 Optical sensor 3 Optical circuit board module 31 connection port 32 battery unit Convex lens that connects 4 images 5 Rotating lens barrel

Claims (2)

[Scope of utility model registration request] 1. A lens for an electronic single-tube telescope or a digital twin-tube camera is applied, which comprises a constant-light convex lens, an optical sensor, and an optical circuit board module, the constant-light convex lens being behind a convex lens for forming an image, and the optical sensor. Is behind the constant-light convex lens, the center of the convex lens that forms the image, the constant-light convex lens, and the center of the optical sensor are aligned, and the magnified image of the convex lens that forms the image is projected to create an optical focus on the constant-light convex lens. The image read by the convex lens is transmitted and an electronic focus is created on the optical sensor, and the optical sensor is mounted on the optical circuit board module, and the read electronic image is digitalized using the optical circuit board module. Converted to video signals,
Since it is connected to each Internet equipment through the connection port, it can be connected even with a distant computer, and the imaged image can be directly displayed on the monitor, adjusted and saved at the same time,
A long-distance optical imaging device for an electronic single-tube telescope or a digital twin-tube camera, which has the characteristic of being capable of imaging at a long distance. 2. The optical circuit board module has a battery unit, which serves as a power source for the memory of the optical circuit board module, and the digital video signal converted by the optical circuit board module can be directly stored in the memory. 2. The long-distance optical imaging device for an electronic single-tube telescope or a digital twin-tube camera according to claim 1.