CN201096975Y - Monocular telescope with display - Google Patents

Abstract

A monocular telescope with a display, comprising: the telescopic lens barrel group is provided with a groove which is formed by downwards concave arrangement of the surface of the telescopic lens barrel group, the sensing assembly is arranged in the telescopic lens barrel group, the control circuit is arranged in the groove and is electrically connected with the sensing assembly, and the liquid crystal display is arranged in the groove and is electrically connected with the control circuit; therefore, the liquid crystal display is matched with the sensing component, and can display the adjusting position of the telescopic lens group, so that a user can quickly and correctly adjust to the optimal focusing position to obtain the clearest observation effect.

Description

monocular with display

technical field

The utility model relates to a monocular telescope with a display, in particular to a monocular telescope which can be matched with sensing components and display sensing data.

Background technique

The telescope has a plurality of precision optical lenses, and these optical lenses can form an optical path system, which can multiply the target object we want to observe. The most common telescopes on the market are divided into two types: monocular and binocular. When using it, first search for the target with the naked eye, and then align the objective lens of the telescope with the target and adjust it to obtain the best visual effect. Applied to observing astronomical stars, wild animals and plants and other distant objects.

In order to obtain the best visual effect of the telescope, how to correctly adjust the distance between the optical lenses is a key factor that cannot be ignored.

In addition, telescopes are often used outdoors, and environmental conditions such as humidity, temperature, location and other factors are often necessary for users to understand in order to further grasp the observation situation.

The known telescope is not equipped with any device that can display the adjustment distance, and the user cannot quickly grasp the adjustment of the relative position of the lens, and may have to repeat the adjustment many times before reaching the correct position. In addition, sometimes using The operator needs to understand the humidity, temperature and other factors of the environment, and use this information to carry out related observation operations. If he can further fully understand the surrounding environmental factors at that time, it will be more helpful for the observation of the target.

Therefore, the author of the present invention feels that the above-mentioned defects can be improved, and Naite devoted himself to research and combined with the application of theories, and finally proposed a utility model with a reasonable design and effectively improved the above-mentioned defects.

Utility model content

The main purpose of the present invention is to provide a monocular telescope with a display, which can display the data of the adjustment distance and the information of the environmental conditions, so that the user can obtain the best observation effect.

In order to achieve the above-mentioned purpose, the utility model provides a monocular telescope with a display, comprising: a telescopic lens barrel group, which has a groove, and the groove is concavely formed from the surface of the telescopic lens barrel group; Sensing components, which are arranged in the telescopic lens barrel group; a control circuit, which is arranged in the groove, and electrically connected to the sensing component; and a liquid crystal display, which is arranged in the groove, and electrically connected to the control circuit.

The utility model has the following beneficial effects: the adjustment position of the telescopic lens barrel group can be displayed by the liquid crystal display with the sensing component, so that the user can quickly and correctly adjust to the best focus position to obtain the best focusing position. Clear observation effect.

In addition, the sensing component can also sense environmental conditions, and the environmental conditions such as humidity or temperature can be directly displayed on the liquid crystal display through the control circuit, so that the user can fully grasp the surrounding environmental conditions.

In order to further understand the features and technical contents of the present utility model, please refer to the following detailed description and drawings of the present utility model, but the accompanying drawings are only for reference and illustration, and are not intended to limit the present utility model.

Description of drawings

Fig. 1 is a three-dimensional schematic diagram of a monocular telescope with a display of the present invention.

Fig. 2 is the upper view of the monocular telescope with display of the present invention.

Fig. 3 is a side sectional view of the monocular telescope with a display of the present invention.

Fig. 4 is a block diagram of a monocular telescope with a display of the present invention.

FIG. 5 is a three-dimensional schematic view of the monocular telescope of the present invention installed on the tripod. Explanation of main component symbols

1 telescopic lens barrel set

11 barrel

11' barrel

12 grooves

13 objective lens groups

14 eyepiece groups

2 tuning components

3 sensing components

4 control circuit

41 processing units

42 LCD driver

5LCD display

51 screens

6 button module

7 fixed seat

8-pod

Detailed ways

Please refer to Fig. 1 to Fig. 5, the utility model has the monocular telescope of display, comprises: a telescoping lens barrel group 1, an adjustment component 2, a sensing component 3, a control circuit 4, a liquid crystal display 5 and a Button module6.

Please refer to Figures 1 to 3, the telescopic lens barrel set 1 includes a plurality of lens barrels 11, 11' with different inner diameters, and these lens barrels 11, 11' fit each other and can perform linear telescopic relative displacement movements , the lens barrel 11 is an outer lens barrel, and the lens barrel 11 ′ is an inner lens barrel disposed on the inner edge of the outer lens barrel 11 . The telescopic lens barrel set 1 has a recessed groove 12 formed from the surface downwards. The groove 12 is recessed in the outer lens barrel 11 and opens to the inner lens barrel 11'. The telescopic lens barrel set 1 is set There is an objective lens group 13 and an eyepiece group 14, and this objective lens group 13 is arranged on one end of this telescopic lens barrel group 1, and this eyepiece group 14 is arranged on the other end of telescopic lens barrel group 1, and this objective lens group 13 and this eyepiece group 14 are in The telescopic lens barrel group 1 is correspondingly arranged, and the distance between the objective lens group 13 and the eyepiece lens group 14 can be adjusted through the telescopic displacement of the lens barrels 11 and 11 ′, so as to obtain the best focusing effect.

The adjustment component 2 is a set of rollers, which are arranged on the telescopic lens barrel set 1, and can be rotated by the user to drive the inner lens barrel 11' to make a telescopic relative displacement in the outer lens barrel 11, thereby adjusting the optical focal length.

Please refer to Fig. 3 and Fig. 4, the sensing element 3 is arranged on the telescopic lens barrel group 1, which is fixed in the groove 12 adjacent to the inner lens barrel 11', when the inner lens barrel 11' When telescopically sliding in the outer lens barrel 11 , the sensing component 3 can sense the relative displacement of the inner lens barrel 11 ′.

The control circuit 4 is disposed in the groove 12 and is electrically connected to the sensing element 3. The control circuit 4 includes a processing unit 41 and a liquid crystal driver 42. The processing unit 41 can receive the sensory element 3. The measured relative displacement can be calculated and converted into a sensing signal and then transmitted to the liquid crystal driver 42 .

The liquid crystal display 5 is arranged in the groove 12 and is electrically connected to the control circuit 4. The liquid crystal display 5 has a screen 51, the screen 51 is flush with the surface of the telescopic lens barrel group 1, and is exposed on the telescopic lens barrel group. 1 surface.

The key module 6 is disposed on the liquid crystal display 5 , and the key module 6 can switch or control the liquid crystal display 5 through the liquid crystal driver 42 .

Please refer to FIG. 5 , the telescopic lens barrel set 1 is provided with a fixing seat 7 , and the fixing seat 7 is arranged at an appropriate position below the telescopic lens barrel set 1 according to the overall geometric shape and center of gravity of the telescopic lens barrel set 1 . The fixing base 7 and the telescopic lens barrel set 1 can be further arranged on a tripod 8, and the tripod 8 can support the telescopic lens barrel set 1 and can rotate 360 degrees to facilitate observation by users.

When the inner lens barrel 11' makes a relative displacement in the outer lens barrel 11, the sensing component 3 can sense the relative displacement of the inner lens barrel 11' and transmit it to the control circuit 4, and the control circuit 4 The internal processing unit 41 can convert the displacement into a displacement signal, and then transmit it to the liquid crystal driver 42 , and then display the changed relative displacement on the screen 51 of the liquid crystal display 5 .

However, the sensing component 3 is a temperature sensor or a humidity sensor, which can further sense environmental conditions such as temperature or humidity, and display on the screen 51 of the liquid crystal display 5 through the processing unit 41 and the liquid crystal driver 42 .

The utility model has the following beneficial effects: the adjustment position of the telescopic lens barrel group 1 can be displayed by the liquid crystal display 5 collocated with the sensing component 3, so that the user can quickly and correctly adjust to the best focus position, so that Get the clearest observations.

In addition, the sensing component 3 can also sense environmental conditions, and can directly display environmental conditions such as humidity or temperature on the screen 51 of the liquid crystal display 5 through the control circuit 4, so that the user can fully grasp the surrounding environmental conditions .

But the above are only preferred embodiments of the present utility model, and are not intended to limit the scope of patent protection of the present utility model, so all equivalent changes made by using the description and drawings of the present utility model are all included in the same way Within the protection scope of the rights of the present utility model, it is stated together.

Claims (10)

1, a kind of monocular with display is characterized in that, comprising:

One flexible lens barrel group, it has a groove, and this groove is arranged with moulding downwards by this flexible lens barrel group surface;

One sensing component, it is arranged at this flexible lens barrel group;

One control circuit, it is arranged in this groove, and is electrically connected at this sensing component; And

One LCD, it is arranged in this groove, and electrically connects this control circuit.

2, the monocular with display as claimed in claim 1 is characterized in that: this flexible lens barrel group comprises a plurality of lens barrels, and this sensing component is arranged in this groove, and the relative shift between these lens barrels of sensing.

3, the monocular with display as claimed in claim 2, it is characterized in that: this control circuit comprises a processing unit, relative shift between these these lens barrels of sensing component sensing, this processing unit receives the relative shift of this sensing component institute sensing, union and convert the sensing signal to.

4, the monocular with display as claimed in claim 3, it is characterized in that: this control circuit comprises a liquid crystal driver, this liquid crystal driver is electrically connected on this LCD, this liquid crystal driver receives the sensing signal that this processing unit transmits, and drives this liquid crystal display displays.

5, the monocular with display as claimed in claim 1 is characterized in that: this sensing component is temperature sensor or humidity sensor.

6, the monocular with display as claimed in claim 1 is characterized in that: this flexible lens barrel group comprises an eyepiece group and an objective lens, and this eyepiece group is arranged at an end of this flexible lens barrel group, and this objective lens is arranged at the other end of this flexible lens barrel group.

7, the monocular with display as claimed in claim 1 is characterized in that: this flexible lens barrel group is provided with an adjustment assembly.

8, the monocular with display as claimed in claim 1, it is characterized in that: this LCD is provided with a key-press module.

9, the monocular with display as claimed in claim 1 is characterized in that: this flexible lens barrel group is provided with a holder.

10, the monocular with display as claimed in claim 9, it is characterized in that: this holder is arranged on the foot rest.

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