CN202759541U - Microscopic amplification apparatus for industrial application - Google Patents

Abstract

The utility model discloses a microscopic amplification apparatus for industrial application, comprising a display, an embedding type controller, a semitransparent lens and a micro-camera. The display possesses a display panel. The embedding controller is embedded in the display and coupled with the display panel. The semitransparent lens projects to cover the display panel. The micro-camera is in communication with the embedding controller and comprises a lens, a signal transmission device and an image storage unit. The lens is used for capturing an image; the signal transmission device is used for directly transmitting the image to the embedding controller and amplifying the image for displaying the image on the display panel; the image storage unit is used for storing the image captured by the lens.

Description

The microscopic magnifying apparatus of commercial Application

Technical field

The utility model relates to a kind of amplifying device, and particularly relevant for a kind of microscopic magnifying apparatus of commercial Application.

Background technology

Along with science and technology progress and development with rapid changepl. never-ending changes and improvements, various microcameras are widely used in the middle of the every field gradually, such as: skin and tooth common when the medical and beauty treatment observed, the maintenance and detection etc. of the observation of Small electronic component and detection, precision instrument, and microcamera all can bring greatest help.

Yet, the existing microcamera main frame of all need arranging in pairs or groups, and this main frame is more necessary has specific operation system (such as Microsoft

Company

Operating system), the viewed image of microcamera can be sent on the display.Therefore, even exist display and microcamera in the environment at user place, if but during without any main frame, microcamera still can't with the image transmission that captured to display, will have no the ample scope for abilities.

Hence one can see that, and existing microcamera still exists inconvenience and restriction in the use.

The utility model content

In view of this, a purpose of the present utility model is the microscopic magnifying apparatus that is to provide a kind of commercial Application, and it need not can play the image that video camera captures by any main frame, therefore can overcome the problem that prior art suffers from.

A purpose of the present utility model is to be that the image that video camera is captured directly is sent to play on the display, and need not see through main frame and specific operation system.

Another purpose of the present utility model is to be to make display system without luminous or be mirror effect during without show image, and can present smoothly image when the display system show image.Whereby, the microscopic magnifying apparatus of commercial Application of the present utility model not only can be used to play the image that video camera captures, and more can bring and be used as the mirror use.

In order to achieve the above object, according to an execution mode of the present utility model, a kind of microscopic magnifying apparatus of commercial Application comprises a display, a down enters formula controller, half transparent glasses lens and a microcamera.Display has a display floater.Embedded controller is to be embedded in the display and to be coupled in display floater.Translucent eyeglass projection covers display floater.Microcamera is that communication is connected to embedded controller, and this microcamera comprises camera lens, a device for signalling and an image storage unit.Camera lens is to capture an image.Device for signalling is directly to be sent to embedded controller and amplification is shown on this display floater in order to the image that camera lens is captured.The image storage unit is to store the image that camera lens captures.

In the utility model one embodiment, this display comprises a signal receiving device, and this signal receiving device is that Direct Communication is connected to this device for signalling.

In the utility model one embodiment, the microscopic magnifying apparatus of described commercial Application also comprises: a transmission line connects between this device for signalling and this signal receiving device.

In the utility model one embodiment, this device for signalling and this signal receiving device are to utilize wireless signal to set up communication to connect.

In the utility model one embodiment, this translucent eyeglass is that to be configured to when this display floater is luminous be printing opacity; Wherein this translucent eyeglass is to be configured to reflect this translucent eyeglass with respect to the image of the opposite side of this display floater when the acomia light time of this display floater.

In the utility model one embodiment, this translucent eyeglass is half two-way mirror or an one-way glass.

In the utility model one embodiment, this translucent eyeglass is a touch-control glass, is coupled to this embedded controller.

In the utility model one embodiment, this embedded controller comprises: a TV control board is coupled to this display floater; And a multimedia mainboard, be coupled to this TV control board and communication and be connected to network and this microcamera, so that the information of this network or this image that this microcamera was captured are sent to this display floater.

In the utility model one embodiment, this multimedia mainboard comprises: a network communication port, in order to be connected to this network; And an image transmission module, be sent to this display floater in order to this image that this microcamera is captured.

In the utility model one embodiment, this microcamera is to be set up on the support.

By above technological means, execution mode of the present utility model can directly be sent to the image that microcamera captured the embedded controller in the display, being shown on the display floater, and need not see through main frame.In addition, microcamera can arrange the image storage unit, in order to storing image or film, and helps the taken picture of record microcamera.In addition, above-mentioned execution mode also comprises half transparent glasses lens, and its projection covers display floater.Whereby, when the acomia light time of display floater, because the brightness of external environment is higher than display floater, therefore translucent eyeglass can reflect the light of external environment, thereby be mirror effect; Relatively, when the display floater show image, its light that sends will penetrate more than half transparent glasses lens, so that the image that the beholder can watch display floater to play smoothly.Therefore the microscopic magnifying apparatus of the commercial Application of above-mentioned execution mode not only can be used to play the image that microcamera captures, more can bring and be used as the mirror use.

The above only is to set forth problem, the technological means of dealing with problems that the utility model institute wish solves and the effect that produces thereof etc., introduces in detail in the execution mode that detail of the present utility model will be hereinafter and the relevant drawings.

Description of drawings

For above and other purpose of the present utility model, feature, advantage and embodiment can be become apparent, appended the description of the drawings is as follows:

Fig. 1 illustrates the front view according to the microscopic magnifying apparatus of the commercial Application of an execution mode of the present utility model;

Fig. 2 illustrates the system block diagrams of the microcamera of Fig. 1;

Fig. 3 illustrates the front view according to the microscopic magnifying apparatus of the commercial Application of another execution mode of the utility model;

Fig. 4 illustrates the system block diagrams according to the display of an execution mode of the present utility model.

[main element symbol description]

100: display

110: display floater

120: signal receiving device

200: embedded controller

210: multimedia unit

220: tv control unit

212: the network communication port

214: the image transmission module

300: microcamera

310: camera lens

320: device for signalling

330: the side handle

340: the end

350: the image storage unit

400: translucent eyeglass

500: transmission line

610: power supply

620: loud speaker

630: the simulation step-adjusting device

640: sound is looked signal (AV) terminal linkage unit

650: infrared receiver

700: waterproof washer

Embodiment

Below will disclose a plurality of execution mode of the present utility model with accompanying drawing, as clearly stated, the details on many practices will be explained in the following description.Yet those of ordinary skill in the art should recognize, in the utility model part execution mode, the details on these practices is also non-essential, does not therefore use to limit the utility model.In addition, for the purpose of simplifying accompanying drawing, some known habitual structures and element will illustrate in the mode of simple signal in the accompanying drawings.

Fig. 1 illustrates the front view according to the microscopic magnifying apparatus of the commercial Application of an execution mode of the present utility model.As shown in the figure, the microscopic magnifying apparatus of the commercial Application shown in the present embodiment comprises a display 100, an embedded controller 200, half transparent glasses lens 400 and a microcamera 300.Display 100 has a display floater 110.Embedded controller 200 is to be embedded in the display 100 and to be coupled in display floater 110.Translucent eyeglass 400 projections cover display floater 110.Microcamera 300 is that communication is connected to embedded controller 200, directly is sent to embedded controller 200 and is shown on the display floater 110 with the image that microcamera 300 is captured.

Fig. 2 illustrates the system block diagrams of the microcamera 300 of Fig. 1.As shown in the figure, microcamera 300 is that communication is connected to embedded controller 200, and this microcamera 300 comprises camera lens 310, a device for signalling 320 and an image storage unit 350.Camera lens 310 is to capture an image.Device for signalling 320 is directly to be sent to embedded controller 200 and to amplify in order to the image that camera lens 310 is captured to be shown on this display floater 110.Image storage unit 350 is to store the image that camera lens 310 captures.

The above-mentioned execution mode of the utility model can arrange an embedded controller 200 in display 100, it can directly receive the signal that microcamera 300 sends, therefore need not see through main frame, the image display that microcamera 300 can be captured is on display floater 110.In addition, the above-mentioned execution mode of the utility model can be installed image storage unit 350 in microcamera 300, the image or the film that are captured to record camera lens 310.

Should be appreciated that, this specification described " communication connection " refers to exist between a plurality of devices the transmission of signal, do not represent those devices additionally bridge joint entity apparatus (for example: transmission line or bus etc.) connect.Relatively, a device transmission of signal installs to another, even there is not any entity apparatus between the two, also meets the definition of " communication connection " in this specification.For example, microcamera 300 communications are connected to the transmission that embedded controller 200 refers to exist signal between the two, and transfer mode can see through transmission line or bus, also can transmit through wireless signals such as radio frequencies.

Should be appreciated that, this specification described " projection covering " refers to that a device upright projection can cover another device to another device plane, place, and not representing those devices must have physical contact (physical contact).For example, translucent eyeglass 400 projections cover display floater 110 and do not represent translucent eyeglass 400 necessary contact display floaters 110.Relatively, contact without physics even translucent eyeglass 400 and display floater 110 are separate, as long as translucent eyeglass 400 is projected to plane, display floater 110 place and can covers the definition that display floater 110 namely meets " projection covering " in this specification.

In present embodiment, translucent eyeglass 400 is that being configured to when display floater 110 is luminous is printing opacity, and reflects translucent eyeglass 400 with respect to the image of the opposite side of display floater 110 when the 110 acomia light time of display floater, that is the image in the external environment.For example, translucent eyeglass 400 can be two-way mirror or one-way glass etc.Take half two-way mirror as example, it is to coat layer of ceramic film in the surface of glass plate, and when the 110 acomia light time of display floater, ceramic membrane can reflect the image in the external environment; When display floater 110 was luminous, ceramic membrane then can for the light penetration of display floater 110, can be seen the image that display floater 110 presents in order to the beholder.

In the part execution mode, translucent eyeglass 400 is a touch-control glass and is coupled to embedded controller 200.Particularly, translucent eyeglass 400 can be the sheet glass that is coated with the touch-control conductive layer, and its touch-control conductive layer is to be coupled to embedded controller 200.Whereby, the beholder can control embedded controller 200 execution specific functions by touching translucent eyeglass 400.

In present embodiment, the microscopic magnifying apparatus of commercial Application can further comprise a waterproof washer 700, is located between this translucent eyeglass 400 and the display floater 110, infiltrates display 100 inside to avoid aqueous vapor, and causes the damage of electronic component.

In present embodiment, the camera lens 310 of microcamera 300 is to be arranged on the end 340 of microcamera 300.Particularly, microcamera 300 can comprise a side handle 330 and both ends 340, and these both ends 340 are the opposite ends that are formed at respectively side handle 330, and camera lens 310 is to be arranged at wherein on the end 340.In the part execution mode, the enlargement ratio of the camera lens 310 of microcamera 300 can be 50 to 200 times, but not as limit.In the part execution mode, the camera lens 310 of microcamera 300 can be the optical lens with automatic focusing function, and its focusing range is approximately between 5 millimeters to 50 millimeters, but not as limit.In the part execution mode, camera lens 310 can be made by CMOS photo-sensitive cell or CCD photo-sensitive cell, but not as limit.In the part execution mode, microcamera 300 can further comprise a plurality of light-emitting diodes (not being shown among the figure), and it is arranged at arround the camera lens 310, in order to promoting image brilliance.

In present embodiment, image storage unit 350 can be various memory bodys, in order to store the image that camera lens 310 captures or the film of recording.For instance, image storage unit 350 can be realized by non-volatility memories (Non-Volatile Memory, NVM) such as read-only memory (Read Only Memory, ROM) or fast flash memory banks (Flash Memory).

In present embodiment, display 100 can further comprise a signal receiving device 120, but and signal receiving device 120 Direct Communications are connected to device for signalling 320, and without seeing through other devices (such as main frame etc.).

For instance, the microscopic magnifying apparatus of commercial Application can further comprise a transmission line 500, it is to be connected between device for signalling 320 and the signal receiving device 120, is sent in the embedded controller 200 in order to the image that microcamera 300 is captured.For example, transmission line 500 can be the transmission line that meets USB (Universal Serial Bus below will be called for short USB) specification, and device for signalling 320 and signal receiving device 120 then can be the joint that meets the USB specification.Again for example, transmission line 500 can be the transmission line that transmission sound is looked (audio-video below will be called for short AV) signal, and device for signalling 320 and signal receiving device 120 then can be AV terminal.

Fig. 3 illustrates the front view according to the microscopic magnifying apparatus of the commercial Application of another execution mode of the utility model.Present embodiment is similar to Fig. 1, and Main Differences is to be that the device for signalling 320 of present embodiment and signal receiving device 120 are to utilize wireless signal to set up communication to connect.In other words, the device for signalling 320 of microcamera 300 can transmit wireless signal to the signal receiving device 120 of display 100, and the additionally any transmission line of bridge joint or bus etc.For example, device for signalling 320 and signal receiving device 120 can transmit the wireless signals such as Wireless Fidelity (Wireless Fidelity below will be called for short WIFI) signal, ZigBee signal, radiofrequency signal or Bluetooth signal.Should be appreciated that, ZigBee is the wireless communication technique of a kind of low speed short distance transmission commonly used of wireless telecommunications dealer, its mainly by The ZigBee Alliance that company forms formulates, and is that the IEEE802.15.4 standard criterion was included in (IEEE) motion in calendar year 2001 to the Institute of Electrical and Electronics Engineers (IEEE) since development in 1998.

Fig. 4 illustrates the system block diagrams according to the display 100 of an execution mode of the present utility model.As shown in the figure, the display shown in the present embodiment 100 can comprise a multimedia unit 210 (Multimedia Main Board) and a tv control unit 220 (TV Scalar Board).Tv control unit 220 is to be coupled to display floater 110.Multimedia unit 210 is to be coupled to tv control unit 220 and communication is connected to network and microcamera 300 (please and consulting Fig. 1 or Fig. 3), and the image that is captured with information or microcamera 300 with network is sent to display floater 110.Whereby, display floater 110 can not only be play the image that microcamera 300 captures, and more can be used to browsing page.

In the part execution mode, multimedia unit 210 can comprise a network communication port 212 and an image transmission module 214.Network communication port 212 is to be connected to network, to receive the network information.Image transmission module 214 is to be sent to display floater 110 in order to the image that microcamera 300 is captured.Particularly, signal receiving device 120 is to be coupled to multimedia unit 210, with the image transmission module 214 that sees through in the multimedia unit 210 signal that the device for signalling 320 (please and consulting Fig. 1 or Fig. 2) of microcamera 300 is sent is sent to tv control unit 220, transmit signals to display floater 110 by tv control unit 220 again, can demonstrate the image that microcamera 300 captures.

In the part execution mode, display 100 also can comprise power supply 610, loud speaker 620, simulation step-adjusting device 630, sound is looked signal (AV) terminal linkage unit 640 and infrared receiver 650 etc.Power supply 610 is that display floater 110 and embedded controller 200 electric power are provided.Loud speaker 620 is to be coupled to tv control unit 220, in order to playing message.Simulation step-adjusting device 630 is to be coupled to tv control unit 220, to transmit TV signal.AV terminal linkage unit 640 is to be coupled to tv control unit 220, and it can supply other image players (for example: CD projector, holder for TV playing) etc. to come transmission of signal to display floater 110.Infrared receiver 650 is to be coupled to tv control unit 220, for remote control (such as: TV remote controller) operation tv control unit 220 (such as: carry out the functions such as quiet, turntable).

Whereby, the display 100 of above-mentioned execution mode not only can show image and the network information that microcamera 300 captures, and also can play TV programme as general TV.

Although the utility model discloses as above with execution mode; so it is not to limit the utility model; anyly be familiar with this skill person; within not breaking away from spirit and scope of the present utility model; when can being used for a variety of modifications and variations, therefore protection range of the present utility model is as the criterion when looking the scope that appending claims defines.

Claims (10)

1. the microscopic magnifying apparatus of a commercial Application is characterized in that, comprises:

One display has a display floater;

One embedded controller is embedded in this display and is coupled in this display floater;

Half transparent glasses lens, projection cover this display floater; And

One microcamera, communication are connected to this embedded controller, and this microcamera comprises:

One camera lens, this camera lens are to capture an image;

One device for signalling directly is sent to this embedded controller and amplification is shown on this display floater in order to this image that this camera lens is captured; And

One image storage unit, this image that captures in order to store this camera lens.

2. the microscopic magnifying apparatus of commercial Application according to claim 1 is characterized in that, this display comprises a signal receiving device, and this signal receiving device is that Direct Communication is connected to this device for signalling.

3. the microscopic magnifying apparatus of commercial Application according to claim 2 is characterized in that, also comprises:

One transmission line connects between this device for signalling and this signal receiving device.

4. the microscopic magnifying apparatus of commercial Application according to claim 2 is characterized in that, this device for signalling and this signal receiving device are to utilize wireless signal to set up communication to connect.

5. the microscopic magnifying apparatus of commercial Application according to claim 1 is characterized in that, this translucent eyeglass is that to be configured to when this display floater is luminous be printing opacity;

Wherein this translucent eyeglass is to be configured to reflect this translucent eyeglass with respect to the image of the opposite side of this display floater when the acomia light time of this display floater.

6. the microscopic magnifying apparatus of commercial Application according to claim 5 is characterized in that, this translucent eyeglass is half two-way mirror or an one-way glass.

7. the microscopic magnifying apparatus of commercial Application according to claim 5 is characterized in that, this translucent eyeglass is a touch-control glass, is coupled to this embedded controller.

8. the microscopic magnifying apparatus of commercial Application according to claim 1 is characterized in that, this embedded controller comprises:

One TV control board is coupled to this display floater; And

One multimedia mainboard is coupled to this TV control board and communication and is connected to network and this microcamera, so that the information of this network or this image that this microcamera was captured are sent to this display floater.

9. the microscopic magnifying apparatus of commercial Application according to claim 8 is characterized in that, this multimedia mainboard comprises:

One network communication port is in order to be connected to this network; And

One image transmission module is sent to this display floater in order to this image that this microcamera is captured.

10. the microscopic magnifying apparatus of commercial Application according to claim 1 is characterized in that, this microcamera is to be set up on the support.

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