CN205430449U - Display system of robot - Google Patents

Abstract

The utility model discloses a display system of robot, display system of robot is applied to the robot, and the shell of robot includes: main part, main part are annular curved surface, the top is located main part upper portion, and the top is connected with the main part, and the top is the bellied curved surface that makes progress, main part and top formula structure as an organic whole, the base is located the main part lower part, and the base is connected with the main part, inside display system was located the shell of robot, display system included: receiving element for receive video signal, the screen imbeds in the shell surface of robot, projection unit is located the one side for the screen, and projection unit connects receiving element for throw video signal's image light to the back of screen, covering the body and setting up between projection unit and screen, the cover body is the infundibulate, and projection unit, trailing end connection screen, the outline of funnel tail end and the overall dimension phase -match of screen of funnel are connected to the head end of infundibulate.

Description

A kind of display system of robot

Technical field

This utility model relates to display field, particularly relates to the display system of a kind of robot.

Background technology

Current shadow casting technique, after mainly signal of video signal being processed, optical projection is processed, fine picture material can be shown, but owing to projection process needing heat abstractor projection arrangement is dispelled the heat, therefore dust can be produced, life-time service, can affect the picture effect of projection imaging, Consumer's Experience weak effect.

Utility model content

The problems referred to above existed for existing robot screen, now provide a kind of and aim at that screen is big, the display system of picture robot clearly.

Concrete technical scheme is as follows:

The display system of a kind of robot, is applied in robot,

The shell of described robot includes:

One main body, described main body curved surface ringwise；

One top, is positioned at described body top, and described top is connected with described main body, and described top is the curved surface raised up, and described main body and described top are integral type structure；

One base, is positioned at described lower body part, and described base is connected with described main body；

Described display system is positioned at the enclosure of described robot, and described display system includes:

One receives unit, in order to receive video signal；

One screen, is embedded in the case surface of described robot；

One structure location-plate；

One projecting unit, is arranged on described structure location-plate, is located relative to the side of described screen, and described projecting unit connects described reception unit, for the image light of described video signal is projected to the back side of described screen；

One cover body, being arranged between described projecting unit and described screen, described cover body is infundibulate, and described funnel shaped head end connects described projecting unit, the tail end of described funnel connects described screen, and the outline of described funnel tail end matches with the Outside Dimensions of described screen；

Incident described image light forms parallel rays injection through described screen transmission from the another side of described screen from the one side incidence of described screen.

Preferably, described cover body inner surface is coated with delustering agent, or

Described cover body inner surface is provided with extinction layer.

Preferably, described screen is embedded in the surface of described main body.

Preferably, described screen is embedded in described main body and the surface at described top.

Preferably, described bottom of screen apart from the distance of described bottom part body between 25mm to 30mm.

Preferably, described screen is black, and described screen is light-transmitting materials.

Preferably, described screen uses polymethyl methacrylate to make, or

Described screen uses glass to make.

Preferably, the height of described screen is between 120mm to 150mm, and the width of described screen is between 110mm to 125mm.

Preferably, described screen uses glass to make.

Preferably, described projecting unit uses Digital Light Processing apparatus.

Preferably, the one side incidence that incident described image light caves in from described screen forms described parallel rays injection through described screen transmission from the one side that described screen protrudes.

The beneficial effect of technique scheme:

In the technical program, the image light of video signal is projeced in robot shells on the screen of specific dimensions by projecting unit, to show image clearly, can prevent dust from entering by cover body affects image imaging effect between screen and projecting unit, improves the visual experience of user.

Accompanying drawing explanation

A kind of structure chart of the embodiment of the display system of Fig. 1 robot described in the utility model；

Fig. 2 is the front view of a kind of embodiment of the shell of robot described in the utility model；

Fig. 3 is the side view of Fig. 2；

Fig. 4 is the top view of Fig. 2；

Fig. 5 is the front view of the another kind of embodiment of the shell of robot described in the utility model；

Fig. 6 is the side view of Fig. 5；

Fig. 7 is the top view of Fig. 5.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described, it is clear that described embodiment is only a part of embodiment of this utility model rather than whole embodiments.Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art are obtained on the premise of not making creative work, broadly fall into the scope of this utility model protection.

It should be noted that in the case of not conflicting, the embodiment in this utility model and the feature in embodiment can be mutually combined.

The utility model is described in further detail with specific embodiment below in conjunction with the accompanying drawings, but not as restriction of the present utility model.

As shown in figs. 1-7, the display system of a kind of robot, it is applied in robot, the shell of robot includes:

One main body 2, main body 2 curved surface ringwise；

One top 1, is positioned at main body 2 top, and top 1 is connected with main body 2, and top 1 is the curved surface raised up, and main body 2 and top 1 are integral type structure；

One base, is positioned at main body 2 bottom, and base is connected with main body 2；

Display system is positioned at the enclosure of robot；Display system includes:

One receives unit, in order to receive video signal；

One screen 3, is embedded in the case surface of robot；

One structure location-plate；

One projecting unit 4, is arranged on structure location-plate, is located relative to the side of screen, and projecting unit 4 connects reception unit, for the image light of video signal is projected to the back side of screen 3；

One cover body 5, is arranged between projecting unit 4 and screen 3, and cover body 5 is in infundibulate, and funnel shaped head end connects projecting unit 4, and the tail end of funnel connects screen 3, and the outline of funnel tail end matches with the Outside Dimensions of screen 3；

Incident image light forms parallel rays injection through screen 3 transmission from the another side of screen 3 from the one side incidence of screen 3.

Further, top 1 can be hemisphere, and main body 2 can be cylindrical side surface, and top 1 adapts with the circumference of main body 2；The height of screen 3 can be between 120mm to 150mm, and the width of screen 3 can be between 110mm to 125mm.The light transmittance of screen 3 can be between 40% to 70%.

In the present embodiment, the image light of video signal is projeced in robot shells on the screen of specific dimensions by projecting unit 4, to show image clearly, can prevent from dust from entering by cover body 5 to affect image imaging effect between screen 3 and projecting unit 4, improve the visual experience of user.

In a preferred embodiment, cover body 5 inner surface is coated with delustering agent, or

Cover body 5 inner surface is provided with extinction layer.

In the present embodiment, delustering agent uses the polyacrylate resin of epoxy radicals, prevents light from overflowing from cover body 5.

As illustrated in figs. 5-7, in a preferred embodiment, screen 3 is embedded in the surface of main body 2.

Further, the width of screen 3 is 125mm, and the height of screen 3 is 120mm, and the distance bottom screen 3 distance from bottom main body 2 is 30mm, and this screen 3 is relatively wide, it is simple to display picture.

As in Figure 2-4, in a preferred embodiment, screen 3 is embedded in main body 2 and the surface at top 1.

Further, the width of screen 3 is 110mm, and the height of screen 3 is 150mm, and the distance bottom screen 3 distance from bottom main body 2 is 20mm, and this screen 3 is relatively long, it is simple to display word.

In a preferred embodiment, the distance bottom screen 3 distance from bottom main body 2 is between 25mm to 30mm.

In the present embodiment, the distance bottom screen 3 distance from bottom main body 2 can be adjusted according to perhaps user's request in display.

In a preferred embodiment, screen 3 is in black, and screen 3 is light-transmitting materials.

In the present embodiment, use the display image that the screen 3 of black can highlight, improve the definition of image.

In a preferred embodiment, screen 3 uses polymethyl methacrylate to make.

Polymethyl methacrylate has advantage lightweight, that density is low and machinery is the highest.

In a preferred embodiment, screen 3 uses glass to make.

Glass material has the advantage that display image definition is high.

In a preferred embodiment, projecting unit 4 uses digital light to process (DigitalLightProcession, DLP) equipment, and the definition of the projection picture of Digital Light Processing apparatus can be 640x480px, and brightness is more than 50 illumination.

Further, the micro projector (pico-projector) that projecting unit 4 uses, there is volume little, the advantage that resolution is high.

In the present embodiment, DLP technology for by signal of video signal after digital processing again by optical projection out, fine content can be shown, project content clearly can be shown during projection, keep higher projection brightness, and the service life of DLP equipment is long, the brightness of display screen will not change along with the delay of the time of use, improves the experience effect of user.

In a preferred embodiment, the incident one side formation parallel rays injection protruded from screen 3 through screen 3 transmission of one side that incident image light caves in from screen 3.

The foregoing is only this utility model preferred embodiment; not thereby embodiment of the present utility model and protection domain are limited; to those skilled in the art; the equivalent done by all utilization this utility model description and diagramatic content and the scheme obtained by obvious change should be can appreciate that, all should be included in protection domain of the present utility model.

Claims (10)

1. a display system for robot, is applied in robot, it is characterised in that

The shell of described robot includes:

One main body, described main body curved surface ringwise；

One top, is positioned at described body top, and described top is connected with described main body, and described top is the curved surface raised up, and described main body and described top are integral type structure；

One base, is positioned at described lower body part, and described base is connected with described main body；

Described display system is positioned at the enclosure of described robot, and described display system includes:

One receives unit, in order to receive video signal；

One screen, is embedded in the case surface of described robot；

One structure location-plate；

One projecting unit, is arranged on described structure location-plate, is located relative to the side of described screen, and described projecting unit connects described reception unit, for the image light of described video signal is projected to the back side of described screen；

One cover body, being arranged between described projecting unit and described screen, described cover body is infundibulate, and described funnel shaped head end connects described projecting unit, the tail end of described funnel connects described screen, and the outline of described funnel tail end matches with the Outside Dimensions of described screen；

Incident described image light forms parallel rays injection through described screen transmission from the another side of described screen from the one side incidence of described screen.

2. display system as claimed in claim 1, it is characterised in that described cover body inner surface is coated with delustering agent, or

Described cover body inner surface is provided with extinction layer.

3. display system as claimed in claim 1, it is characterised in that described screen is embedded in the surface of described main body.

4. display system as claimed in claim 1, it is characterised in that described screen is embedded in described main body and the surface at described top.

5. display system as claimed in claim 1, it is characterised in that described bottom of screen apart from the distance of described bottom part body between 25mm to 30mm.

6. display system as claimed in claim 1, it is characterised in that described screen is black, and described screen is light-transmitting materials.

7. display system as claimed in claim 1, it is characterised in that described screen uses polymethyl methacrylate to make, or

Described screen uses glass to make.

8. display system as claimed in claim 1, it is characterised in that the height of described screen is between 120mm to 150mm, and the width of described screen is between 110mm to 125mm.

9. display system as claimed in claim 1, it is characterised in that described projecting unit uses Digital Light Processing apparatus.

10. display system as claimed in claim 1, it is characterised in that the one side incidence that incident described image light caves in from described screen forms described parallel rays injection through described screen transmission from the one side that described screen protrudes.