CN102200675A - Device with lens transition function - Google Patents

Abstract

The invention provides a device with a lens transition function, and the device provided by the invention comprises a lens transition module, a first lens and a second lens, wherein the lens transition module comprises an infrared filter, a collimator and a spectroscope; the infrared filter is used for filtering out infrared rays in a light source and permeating visible lights; the collimator is parallelly arranged at one side of the infrared filter away from the light source, and used for receiving the permeated visible lights and converting the visible lights into parallel beam; the spectroscope is arranged in the axial direction of the collimator, an angle is formed between the spectroscope and the parallel beams, and the spectroscope is used for reflecting one part of the parallel beams and permeating the other part of the parallel beams; and the first lens is used for receiving the reflected parallel beams, and the second lens is used for receiving the permeated parallel beams. By using the device provided by the invention, the shooting modes corresponding to different lenses can be operated simultaneously.

Description

Device with camera lens translation function

Technical field

The present invention relates to a kind of device, relate in particular to a device with camera lens translation function.

Background technology

Conventional device, as mobile phone etc., its great majority all have the function of taking pictures and making a video recording, yet in most cases, device all only is provided with a camera lens, and the user need utilize software that two kinds of patterns are switched when taking pictures or make a video recording, make visible light enter in the camera lens, then carry out corresponding operation.Yet above-mentioned exposal model and image pickup mode are when switching, and necessary first software switch mode is then importing camera lens again with visible light, like this time that will certainly postpone to switch, causes the user can't pounce on the picture of grasping some moments.

Summary of the invention

Fundamental purpose of the present invention is to provide a kind of device with camera lens translation function, and it can utilize the path that changes visible light to satisfy different exposal models, thereby makes different exposal models to work simultaneously.

The invention provides a kind of device with camera lens translation function, this device comprises camera lens conversion module, and this device also comprises one first camera lens and one second camera lens; This camera lens conversion module comprises: an infrared filter, be used for filtering the infrared ray of light source, and see through visible light; One collimator, it is arranged at the side of infrared filter away from light source, is used to receive the visible light through infrared filter, and this visible light is converted to parallel beam; One spectroscope, its be arranged at collimator axially on, and with parallel beam at angle, be used for the antireflection part parallel beam, transmission another part parallel beam; This first camera lens is used to receive the parallel beam that reflection comes; This second camera lens is used to receive the parallel beam that transmission comes.

Device of the present invention changes the path of visible light by spectroscope, thereby makes the pairing exposal model of different camera lenses to work simultaneously.

Description of drawings

Fig. 1 has the hardware structure diagram of the device of camera lens translation function for the present invention.

Fig. 2 has another hardware structure diagram of the device of camera lens translation function for the present invention.

Fig. 3 has another hardware structure diagram of the device of camera lens translation function for the present invention.

The main element symbol description

Device	1
		Camera lens conversion module	10
First camera lens	20
		Second camera lens	30
Infrared filter	11

Collimator	12
		Spectroscope	13
Completely reflecting mirror	14
		Visible light	2
Parallel beam	3
		Axially	Y
Radially	X

Embodiment

Please refer to shown in Figure 1ly, this device 1 comprises a camera lens conversion module 10, one first camera lens 20 and one second camera lens 30.This camera lens conversion module 10 is used to receive and comes from the light that light source provides, and the path of the visible light in the light source 2 is changed.

This camera lens conversion module 10 comprises an infrared filter 11, a collimator 12, a spectroscope 13.In the present embodiment, this camera lens conversion module 10 is an optical lens.

This infrared filter 11 is used for filtering the infrared ray of light source, sees through visible light 2.

This collimator 12 is arranged at the side of infrared filter 11 away from light source, is used for the visible light 2 of printing opacity infrared filter 11 is converted to parallel beam 3.

This spectroscope 13 is arranged on the axial Y of collimator 12, and angled with parallel beam 3, is used for antireflection part parallel beam 3, transmission another part parallel beam 3.In the present embodiment, by changing the angle of 3 of spectroscope 13 and parallel beams, reflectivity and the transmissivity that can regulate spectroscope 13, thereby the brightness of change reflected light 13 and transmitted light.

This first camera lens 20 is used to receive the parallel beam 3 that spectroscope 13 reflections come.

This second camera lens 30 is used to receive the parallel beam 3 that spectroscope 13 transmissions come.In the present embodiment, the axial Y that this first camera lens 20 is parallel to collimator 12 is provided with, and the radially X that this second camera lens 30 is parallel to collimator 12 is provided with.

Please refer to shown in Figure 2, in another embodiment, this camera lens conversion module 10 also comprises a completely reflecting mirror 14, this completely reflecting mirror 14 is arranged at the side of spectroscope 13 away from collimator 12, and angled with parallel beam 3, be used for the parallel beam 3 that spectroscope 13 transmissions come is all reflexed to second camera lens 30.In this embodiment, first camera lens 20 and second camera lens 30 are arranged at the axial homonymy of collimator 12.

Please refer to shown in Figure 3ly, this first camera lens 20 and second camera lens 30 also can be arranged at the both sides of the axial Y of collimator 12 respectively.

Claims (6)

1. device with camera lens translation function, this device comprise camera lens conversion module, and it is characterized in that: this device also comprises one first camera lens and one second camera lens;

This camera lens conversion module comprises:

One infrared filter is used for filtering the infrared ray of light source, sees through visible light;

One collimator, it is arranged at the side of infrared filter away from light source, is used to receive the visible light through infrared filter, and this visible light is converted to parallel beam;

One spectroscope, its be arranged at collimator axially on, and with parallel beam at angle, be used for the antireflection part parallel beam, transmission another part parallel beam;

This first camera lens is used to receive the parallel beam that reflection comes;

This second camera lens is used to receive the parallel beam that transmission comes.

2. the device with camera lens translation function as claimed in claim 1 is characterized in that: this first camera lens is parallel to the axial setting of collimator, and this second camera lens is parallel to the radially setting of collimator.

3. the device with camera lens translation function as claimed in claim 1, it is characterized in that: this camera lens conversion module also comprises a completely reflecting mirror, this completely reflecting mirror is arranged at the side of spectroscope away from collimator, and with parallel beam at angle, be used for the parallel beam of spectroscope transmission gained is all reflexed to second camera lens.

4. the device with camera lens translation function as claimed in claim 3 is characterized in that: first camera lens and second camera lens are arranged at the axial homonymy of collimator.

5. the device with camera lens translation function as claimed in claim 3 is characterized in that: first camera lens and second camera lens are arranged at the axial both sides of collimator respectively.

6. the device with camera lens translation function as claimed in claim 1 is characterized in that: this camera lens conversion module is an optical lens.

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