CN213210589U - Telescope with dynamic target detection function - Google Patents

Abstract

The utility model discloses a telescope with dynamic target detection function, the utility model discloses a single lens cone is equipped with the installation section of thick bamboo that is used for installing the physics eyepiece or electron eyepiece in the physics eyepiece place end, and physics eyepiece and electron eyepiece can be installed respectively in the installation section of thick bamboo inside; a slide rod with the same axial direction as the single lens cone is fixed above the mounting cylinder on the single lens cone, and a tension spring is sleeved on the slide rod; the rotating bracket is sleeved on the sliding rod through a sliding hole, one end of the tension spring is fixed with the single lens cone, and the other end of the tension spring is fixed with the rotating bracket; electron eyepiece and physics eyepiece symmetry respectively are fixed on the runing rest, through outwards pulling runing rest to rotate the runing rest, optional physics eyepiece or electron eyepiece are aimed at with the installation section of thick bamboo, slowly loosen the runing rest and can put into the installation section of thick bamboo with physics eyepiece or electron eyepiece, thereby realize the performance that can switch at will between electron eyepiece or ordinary physics eyepiece according to the user's needs.

Description

Telescope with dynamic target detection function

Technical Field

The utility model belongs to the telescope field especially relates to a telescope with dynamic target detects function.

Background

A telescope is an optical instrument that uses lenses or mirrors, as well as other optical devices, to view a remote object. The light rays passing through the lens are refracted or reflected by the concave mirror to enter the small hole and be converged to form an image, and then the image is seen through a magnifying eyepiece. Also known as "Qianli mirror". The telescope is a visual optical instrument for observing distant objects, and can enlarge a small field angle of a distant object according to a certain multiplying factor, so that the field angle of the distant object in an image space is larger, and objects which cannot be seen or distinguished by naked eyes are clear and identifiable. The optical system is an optical system which enables incident parallel light beams to be emitted in parallel through an objective lens and an eyepiece. The visual optics of the ocular lens for observing the image formed by the front optical system is a component of the telescope, and mainly has the function of magnifying the real image obtained by the objective lens for eliminating aberration, and the ocular lens is usually formed by combining a plurality of lenses. The electronic eyepiece is a photoelectric micro-conversion device specially developed for microscope imaging. Can be conveniently applied to any standard biological microscope, stereomicroscope and telescope column. Thereby bringing great rapidness and convenience to observation, teaching and scientific research. The image that can observe the telescope through the electron eyepiece is connected to the computer and is shown, and accessible computer carries out subsequent processing to its image, and current telescope is usually with ordinary physics eyepiece, but the user need use the electron eyepiece sometimes, need change, and the change process need take off ordinary physics eyepiece and change the electron eyepiece, no matter the connection of electron eyepiece and computer or the change process all is more loaded down with trivial details.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: a telescope capable of switching between an electronic eyepiece and a general physical eyepiece as desired by a user is provided.

The utility model adopts the technical scheme as follows:

the utility model provides a telescope with dynamic target detects function, includes the telescope body, the telescope body includes the single-cone, and is located objective and the physics eyepiece at single-cone both ends, its characterized in that: the electronic eyepiece also comprises an electronic eyepiece, a tension spring, a rotary bracket and a display terminal; an installation cylinder for installing the physical eyepiece or the electronic eyepiece is arranged at the end, where the physical eyepiece is located, of the single lens barrel, and the physical eyepiece and the electronic eyepiece can be respectively installed in the installation cylinder; a slide rod in the same axial direction as the single lens barrel is fixed above the mounting barrel on the single lens barrel, and the tension spring is sleeved on the slide rod; the middle part of the rotating bracket is provided with a sliding hole, the rotating bracket is sleeved on the sliding rod through the sliding hole, one end of the tension spring is fixed with the single lens cone, and the other end of the tension spring is fixed with the rotating bracket; the electronic eyepiece and the physical eyepiece are symmetrically fixed on the rotary bracket respectively; the display terminal is fixed on the side face of the single lens cone and connected with the electronic eyepiece for displaying image information of the electronic eyepiece.

The further technical scheme is as follows: the top of the single lens cone is provided with a horizontally arranged grip, and a grip hole is arranged between the grip and the single lens cone.

The further technical scheme is as follows: the handle is fixed with the lens protective barrel who is used for holding physics eyepiece or electron eyepiece towards the one end of runing rest, physics eyepiece lies in the lens protective barrel when electron eyepiece installs in the installation section of thick bamboo.

The further technical scheme is as follows: the rotating support comprises a sliding sleeve and an installation rod fixed at the end part of the sliding sleeve, the sliding hole is located in the middle of the sliding sleeve, and the physical eyepiece and the electronic eyepiece are respectively located at the upper connecting end and the lower connecting end of the installation rod.

The further technical scheme is as follows: the display terminal is provided with a display screen, a computer and a battery, the computer is respectively connected with the battery, the display screen and the electronic eyepiece, and the display screen faces the direction of the rotating bracket; the battery can supply power for the display screen, the computer and the electronic eyepiece.

The further technical scheme is as follows: and a circle of light blocking ring is arranged around the display screen on the display terminal.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

in the utility model, the end of the physical eyepiece on the single lens cone is provided with a mounting cylinder for mounting the physical eyepiece or the electronic eyepiece, the physical eyepiece and the electronic eyepiece can be respectively mounted inside the mounting cylinder, a slide bar with the same axial direction as the physical eyepiece is fixed above the mounting cylinder on the single lens cone, a tension spring sleeve is arranged on the slide bar, a rotary bracket is arranged on the slide bar through a slide hole sleeve, one end of the tension spring is fixed with the single lens cone, the other end is fixed with the rotary bracket, the electronic eyepiece and the physical eyepiece are respectively symmetrically fixed on the rotary bracket, by pulling the rotary bracket outwards, and the rotating bracket is rotated, the physical eyepiece or the electronic eyepiece can be selected to be aligned with the mounting cylinder, the physical eyepiece or the electronic eyepiece can be placed into the mounting cylinder by slowly loosening the rotating bracket, thereby realizing the performance of switching between the electronic eyepiece or the common physical eyepiece at will according to the requirement of a user;

through fixing display terminal in single-lens cone side, display terminal is connected with the electron eyepiece and is used for showing the image information of electron eyepiece to carry out subsequent processing through display terminal to its image.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments.

As shown in fig. 1, a telescope with a dynamic target detection function comprises a telescope body, wherein the telescope body comprises a single lens barrel 1, an objective lens and a physical eyepiece 2 which are positioned at two ends of the single lens barrel 1, an electronic eyepiece 3, a tension spring 4, a rotary bracket 5 and a display terminal 6; an installation cylinder 7 for installing the physical eyepiece 2 or the electronic eyepiece 3 is arranged at the end, where the physical eyepiece 2 is located, of the single lens barrel 1, and the physical eyepiece 2 and the electronic eyepiece 3 can be respectively installed in the installation cylinder 7; a sliding rod 8 with the same axial direction as the mounting cylinder 7 is fixed above the single lens barrel 1, and the tension spring 4 is sleeved on the sliding rod 8; a sliding hole is formed in the middle of the rotating bracket 5, the rotating bracket 5 is sleeved on the sliding rod 8 through the sliding hole, one end of the tension spring 4 is fixed with the single lens cone 1, and the other end of the tension spring is fixed with the rotating bracket 5; the electronic eyepiece 3 and the physical eyepiece 2 are symmetrically fixed on the rotary bracket 5 respectively; the display terminal 6 is fixed on the side surface of the single lens cone 1, and the display terminal 6 is connected with the electronic eyepiece 3 and used for displaying image information of the electronic eyepiece 3.

In the utility model, the end of the single lens cone 1, where the physical eyepiece 2 is located, is provided with an installation cylinder 7 for installing the physical eyepiece 2 or the electronic eyepiece 3, and the physical eyepiece 2 and the electronic eyepiece 3 can be respectively installed inside the installation cylinder 7; a slide bar 8 with the same axial direction as the installation cylinder 7 is fixed above the single lens barrel 1, and a tension spring 4 is sleeved on the slide bar 8; the rotating bracket 5 is sleeved on the sliding rod 8 through a sliding hole, one end of the tension spring 4 is fixed with the single lens cone 1, and the other end of the tension spring is fixed with the rotating bracket 5; the electronic eyepiece 3 and the physical eyepiece 2 are symmetrically fixed on the rotary bracket 5 respectively; the rotating bracket 5 is pulled outwards, the rotating bracket 5 is rotated, the physical eyepiece 2 or the electronic eyepiece 3 can be selected to be aligned with the installation cylinder 7, the rotating bracket 5 is slowly loosened, the physical eyepiece 2 or the electronic eyepiece 3 can be placed into the installation cylinder 7, and therefore the telescope capable of being switched randomly between the electronic eyepiece 3 or the common physical eyepiece 2 according to the needs of a user is achieved.

By fixing the display terminal 6 on the side surface of the single lens cone 1, the display terminal 6 is connected with the electronic eyepiece 3 for displaying the image information of the electronic eyepiece 3, so that the subsequent processing of the image can be conveniently carried out through the display terminal 6.

The top of the single lens barrel 1 is provided with a horizontally arranged grip 9, and a grip hole 10 is arranged between the grip 9 and the single lens barrel 1.

When in use, the single lens barrel 1 can be held by four fingers except the thumb through the holding hole 10, the back of the four fingers supports against the grip 9, and the grip 9 is convenient for lifting the whole body by hands.

The handle 9 is fixed with the lens protecting barrel 11 that is used for holding physics eyepiece 2 or electron eyepiece 3 towards the one end of runing rest 5, physics eyepiece 2 is located inside the lens protecting barrel 11 when electron eyepiece 3 installs in installation section of thick bamboo 7, and lens protecting barrel 11 can play the effect of protection physics eyepiece 2 or electron eyepiece 3.

The rotating bracket 5 comprises a sliding sleeve 12 and an installation rod 13 fixed at the end part of the sliding sleeve 12, the sliding hole is positioned in the middle of the sliding sleeve 12, and the physical eyepiece 2 and the electronic eyepiece 3 are respectively positioned at the upper connecting end and the lower connecting end of the installation rod 13.

The display terminal 6 is provided with a display screen 14, a computer and a battery, the computer is respectively connected with the battery, the display screen 14 and the electronic eyepiece 3, and the display screen 14 faces to the direction of the rotating bracket 5; the battery can supply power for the display screen 14, the computer and the electronic eyepiece 3; the computer can adopt yolov4 computer vision processing algorithm in the prior art, and when the electronic eyepiece 3 is used, the image transmitted to the computer by the electronic eyepiece 3 is processed by yolov4 computer vision processing algorithm, and the dynamic target in the image is identified and marked.

A circle of light blocking rings 15 are arranged around the display screen 14 on the display terminal 6, and the light blocking rings 15 can block external light to facilitate a user to observe images on the display screen 14.

The above description is only the preferred embodiment of the present invention.

Claims (6)

1. The utility model provides a telescope with dynamic target detects function, includes the telescope body, the telescope body includes single-cone (1) and is located objective and physics eyepiece (2) at single-cone (1) both ends, its characterized in that: the electronic eyepiece also comprises an electronic eyepiece (3), a tension spring (4), a rotating bracket (5) and a display terminal (6); an installation tube (7) for installing the physical eyepiece (2) or the electronic eyepiece (3) is arranged at the end, where the physical eyepiece (2) is located, of the single lens barrel (1), and the physical eyepiece (2) and the electronic eyepiece (3) can be installed inside the installation tube (7) respectively; a sliding rod (8) which is the same as the mounting cylinder (7) in the axial direction is fixed above the single lens cone (1), and the tension spring (4) is sleeved on the sliding rod (8); a sliding hole is formed in the middle of the rotating support (5), the rotating support (5) is sleeved on the sliding rod (8) through the sliding hole, one end of the tension spring (4) is fixed with the single lens cone (1), and the other end of the tension spring is fixed with the rotating support (5); the electronic eyepiece (3) and the physical eyepiece (2) are symmetrically fixed on the rotary bracket (5) respectively; the display terminal (6) is fixed on the side face of the single lens cone (1), and the display terminal (6) is connected with the electronic eyepiece (3) and used for displaying image information of the electronic eyepiece (3).

2. The telescope with dynamic target detection function as claimed in claim 1, wherein: the top of the single lens cone (1) is provided with a horizontally arranged grip (9), and a grip hole (10) is arranged between the grip (9) and the single lens cone (1).

3. The telescope with dynamic target detection function as claimed in claim 2, wherein: handle (9) are fixed with the lens-protecting tube (11) that are used for holding physics eyepiece (2) or electron eyepiece (3) towards the one end of runing rest (5), physics eyepiece (2) are located inside lens-protecting tube (11) when electron eyepiece (3) are installed in installation section of thick bamboo (7).

4. The telescope with dynamic target detection function as claimed in claim 1, wherein: the rotary support (5) comprises a sliding sleeve (12) and an installation rod (13) fixed at the end part of the sliding sleeve (12), the sliding hole is positioned in the middle of the sliding sleeve (12), and the physical eyepiece (2) and the electronic eyepiece (3) are respectively positioned at the upper connecting end and the lower connecting end of the installation rod (13).

5. The telescope with dynamic target detection function as claimed in claim 1, wherein: the display terminal (6) is provided with a display screen (14), a computer and a battery, the computer is respectively connected with the battery, the display screen (14) and the electronic eyepiece (3), and the display screen (14) faces the direction of the rotating bracket (5); the battery can supply power for the display screen (14), the computer and the electronic eyepiece (3).

6. The telescope with dynamic target detection function as claimed in claim 5, wherein: and a circle of light blocking rings (15) are arranged around the display screen (14) on the display terminal (6).

Images