CN105459647A - Automatic induction printer and control method therefor - Google Patents

Abstract

The invention provides an automatic induction printer, and the printer comprises a central processor; an induction unit which is electrically connected with the central processor, and is disposed on an upper wall of the printer; a receiving unit which comprises an information input unit which is electrically connected with the induction unit, a display unit, and an information unit, wherein the display unit and the information output unit are electrically connected with the information input unit; a control unit which comprises a hand-operated switch, a signal control circuit, and a holding circuit which is electrically connected with the signal control circuit, wherein the signal control circuit and the holding circuit are respectively connected with the central processor; and a storage unit which is electrically connected with the receiving unit and the central processor. The signal control circuit is provided with a first relay, and the holding circuit is provided with a second relay and a third relay.

Description

A kind of induction printer and control method thereof automatically

Technical field

The present invention relates to a kind of printer, particularly one responds to printer and control method thereof automatically.

Background technology

Smart Home take house as platform, utilize comprehensive wiring technology, the network communications technology, automatic control technology by integrated for facility relevant for life staying idle at home, build the management system of efficient housing facilities and family's schedule affairs, promote house security, convenience, comfortableness, artistry, and realize the living environment of environmental protection and energy saving.Wherein intelligent light control system not only can build good luminous environment, can also economize energy.

In prior art, printer can be connected with computer by wireless network and to realize automatic printing, but can not realize storing, and after necessarily requiring computer to send instruction, printer just can start to start, and makes troubles to operation.

Summary of the invention

In order to overcome the deficiencies in the prior art, the invention provides a kind of induction printer and control method thereof automatically, by file to be printed is stored in printer, realizes printing by self-induction, meeting present stage for the intelligentized requirement of printer.

For achieving the above object, the concrete technical scheme of this case is as follows:

One responds to printer automatically, and it comprises,

Central processing unit;

Sensing unit, is electrically connected with described central processing unit, and described sensing unit is located at printer upper wall;

Receiving element, comprise the information input unit be electrically connected with described sensing unit, the display unit be electrically connected with described information input unit and information output unit, described display unit and described information output unit are electrically connected with described information input unit respectively;

Control unit, the holding circuit comprising hand switch, signal control circuit and be electrically connected with described signal control circuit, described signal control circuit and described holding circuit are electrically connected with described central processing unit respectively;

Memory cell, described memory cell is electrically connected respectively with described receiving element and described central processing unit;

Wherein, described signal control circuit is provided with relay one, and described holding circuit is provided with relay two and relay three.

Preferably, described automatic induction printer, wherein, described central processing unit adopts single-chip microcomputer, and described single-chip microcomputer inside is provided with counter.

Preferably, described automatic induction printer, wherein, establishes infrared sensor or microwave remote sensor in described sensing unit.

Preferably, described automatic induction printer, wherein, described display circuit comprises LCDs and drive circuit thereof.

Preferably, described automatic induction printer, wherein, described relay one, relay two and relay three all adopt electromagnetic relay or SSR relay.

Preferably, described automatic induction printer, wherein, described sensing unit upper surface adopts flexible solar thin-film material to make, and it comprises,

Body is the curved-surface structure that middle part epirelief, surrounding are recessed;

Silicon nitride film, is covered in described body end face;

Polysilicon membrane, fits in described silicon nitride film top layer, is connected by contacting electrode with described silicon nitride film;

Conductive mesh, be located in the middle of described silicon nitride film and described polysilicon membrane, described conductive mesh is electrically connected with described polysilicon membrane;

Dielectric film, be arranged at described polysilicon membrane surface, described polysilicon membrane, conductive mesh, silicon nitride film and the coated pressing of described body are integrated by described dielectric film.

Preferably, described automatic induction printer, wherein, described silicon nitride film material therefor is the silicon nitride doped with titania nanoparticles.

Preferably, described automatic induction printer, wherein, described dielectric film is the silica column glued membrane containing Surface Modification of Magnesium Hydroxide by Stearic Acid, and it is 9 ~ 18% that described Surface Modification of Magnesium Hydroxide by Stearic Acid accounts for silica column glued membrane mass percent.This kind of dielectric film can meet the mechanical strength of sensing unit top surface disclosed in this case, and can not meet mechanical strength as surface insulating film containing the silica column of Surface Modification of Magnesium Hydroxide by Stearic Acid or other resins not within the scope of this.

Preferably, described automatic induction printer, wherein, described sensing unit upper surface is also provided with battery, and described battery adopts energy storing lead acid storage battery.

This case also discloses a kind of control method for above-mentioned automatic induction printer, and it comprises the following steps,

1) receive file to be printed by described information input unit and arrange control model, described control model comprises manual mode and automatic mode, and described information input unit receives file to be printed and is stored in described memory cell;

2) operator is by described sensing unit input print command, and print command is sent to described central processing unit by described sensing unit;

3) print command described in described central processing unit process, and be sent to described signal control circuit, the coil electricity of described relay one, the normally opened contact of described relay one closes, and the normally opened contact of described relay two closes;

4) described sensing unit does not send print command, and described holding circuit keeps powering to sensing unit; While described holding circuit work, described counter starts timing, and the timing duration of described counter mated with the described automatic shut-in time, and after timing completes, the normally-closed contact of relay three is opened, and holding circuit power-off, sensing unit is closed automatically.

Described automatic induction printer control system beneficial effect provided by the invention: (1) adopts infrared sensor or microwave remote sensor can realize automatic inducing function as sensing element; (2) adopt holding circuit that lasting sensing element can be kept can not to close because can't detect induced signal; (3) counter is adopted can to ensure automatically to close light within the time of setting; (4) by the particular design of sensing unit surfacing, make it absorb solar energy by upper surface in induction simultaneously, and convert solar energy into electrical energy, energy-conserving and environment-protective.

Detailed description of the invention

The present invention is described in further detail below, can implement according to this with reference to description word to make those skilled in the art.

Specific as follows: one responds to printer automatically, it comprises,

Central processing unit;

Sensing unit, is electrically connected with described central processing unit, and described sensing unit is located at printer upper wall;

Receiving element, comprise the information input unit be electrically connected with described sensing unit, the display unit be electrically connected with described information input unit and information output unit, described display unit and described information output unit are electrically connected with described information input unit respectively;

Control unit, the holding circuit comprising hand switch, signal control circuit and be electrically connected with described signal control circuit, described signal control circuit and described holding circuit are electrically connected with described central processing unit respectively;

Memory cell, described memory cell is electrically connected respectively with described receiving element and described central processing unit;

Wherein, described signal control circuit is provided with relay one, and described holding circuit is provided with relay two and relay three.

Preferably, described automatic induction printer, wherein, described central processing unit adopts single-chip microcomputer, and described single-chip microcomputer inside is provided with counter.

Preferably, described automatic induction printer, wherein, establishes infrared sensor or microwave remote sensor in described sensing unit.

Preferably, described automatic induction printer, wherein, described display circuit comprises LCDs and drive circuit thereof.

Preferably, described automatic induction printer, wherein, described relay one, relay two and relay three all adopt electromagnetic relay or SSR relay.

Preferably, described automatic induction printer, wherein, described sensing unit upper surface adopts flexible solar thin-film material to make, and it comprises,

Body is the curved-surface structure that middle part epirelief, surrounding are recessed;

Silicon nitride film, is covered in described body end face;

Polysilicon membrane, fits in described silicon nitride film top layer, is connected by contacting electrode with described silicon nitride film;

Conductive mesh, be located in the middle of described silicon nitride film and described polysilicon membrane, described conductive mesh is electrically connected with described polysilicon membrane;

Dielectric film, be arranged at described polysilicon membrane surface, described polysilicon membrane, conductive mesh, silicon nitride film and the coated pressing of described body are integrated by described dielectric film.

Preferably, described automatic induction printer, wherein, described silicon nitride film material therefor is the silicon nitride doped with titania nanoparticles.

Preferably, described automatic induction printer, wherein, described dielectric film is the silica column glued membrane containing Surface Modification of Magnesium Hydroxide by Stearic Acid, and it is 9 ~ 18% that described Surface Modification of Magnesium Hydroxide by Stearic Acid accounts for silica column glued membrane mass percent.

Preferably, described automatic induction printer, wherein, described sensing unit upper surface is also provided with battery, and described battery adopts energy storing lead acid storage battery.

This case also discloses a kind of control method for above-mentioned automatic induction printer, and it comprises the following steps,

1) receive file to be printed by described information input unit and arrange control model, described control model comprises manual mode and automatic mode, and described information input unit receives file to be printed and is stored in described memory cell;

2) operator is by described sensing unit input print command, and print command is sent to described central processing unit by described sensing unit;

3) print command described in described central processing unit process, and be sent to described signal control circuit, the coil electricity of described relay one, the normally opened contact of described relay one closes, and the normally opened contact of described relay two closes;

4) described sensing unit does not send print command, and described holding circuit keeps powering to sensing unit; While described holding circuit work, described counter starts timing, and the timing duration of described counter mated with the described automatic shut-in time, and after timing completes, the normally-closed contact of relay three is opened, and holding circuit power-off, sensing unit is closed automatically.

Although embodiment of the present invention are open as above, but it is not restricted to listed in description and embodiment utilization, it can be applied to various applicable the field of the invention completely, for those skilled in the art, can easily realize other amendment, therefore do not deviating under the universal that claim and equivalency range limit, the present invention is not limited to specific details.

Claims (10)

1. automatically respond to a printer, it is characterized in that, comprise,

Central processing unit;

Sensing unit, is electrically connected with described central processing unit, and described sensing unit is located at printer upper wall;

Receiving element, comprise the information input unit be electrically connected with described sensing unit, the display unit be electrically connected with described information input unit and information output unit, described display unit and described information output unit are electrically connected with described information input unit respectively;

Control unit, the holding circuit comprising hand switch, signal control circuit and be electrically connected with described signal control circuit, described signal control circuit and described holding circuit are electrically connected with described central processing unit respectively;

Memory cell, described memory cell is electrically connected respectively with described receiving element and described central processing unit;

Wherein, described signal control circuit is provided with relay one, and described holding circuit is provided with relay two and relay three.

2. automatic induction printer according to claim 1, is characterized in that, described central processing unit adopts single-chip microcomputer, and described single-chip microcomputer inside is provided with counter.

3. automatic induction printer according to claim 1, is characterized in that, establish infrared sensor or microwave remote sensor in described sensing unit.

4. automatic induction printer according to claim 2, it is characterized in that, described display circuit comprises LCDs and drive circuit thereof.

5. automatic induction printer according to claim 2, is characterized in that, described relay one, relay two and relay three all adopt electromagnetic relay or SSR relay.

6. automatic induction printer according to claim 5, is characterized in that, described sensing unit upper surface adopts flexible solar thin-film material to make, and it comprises,

Body is the curved-surface structure that middle part epirelief, surrounding are recessed;

Silicon nitride film, is covered in described body end face;

Polysilicon membrane, fits in described silicon nitride film top layer, is connected by contacting electrode with described silicon nitride film;

Conductive mesh, be located in the middle of described silicon nitride film and described polysilicon membrane, described conductive mesh is electrically connected with described polysilicon membrane;

Dielectric film, be arranged at described polysilicon membrane surface, described polysilicon membrane, conductive mesh, silicon nitride film and the coated pressing of described body are integrated by described dielectric film.

7. automatic induction printer according to claim 6, is characterized in that, described silicon nitride film material therefor is the silicon nitride doped with titania nanoparticles.

8. automatic induction printer according to claim 7, is characterized in that, described dielectric film is the silica column glued membrane containing Surface Modification of Magnesium Hydroxide by Stearic Acid, and it is 9 ~ 18% that described Surface Modification of Magnesium Hydroxide by Stearic Acid accounts for silica column glued membrane mass percent.

9. automatic induction printer according to claim 8, is characterized in that, described sensing unit upper surface is also provided with battery, and described battery adopts energy storing lead acid storage battery.

10. carry out the method controlled for above-mentioned automatic induction printer, it is characterized in that, comprise the following steps,

1) receive file to be printed by described information input unit and arrange control model, described control model comprises manual mode and automatic mode, and described information input unit receives file to be printed and is stored in described memory cell;

2) operator is by described sensing unit input print command, and print command is sent to described central processing unit by described sensing unit;

3) print command described in described central processing unit process, and be sent to described signal control circuit, the coil electricity of described relay one, the normally opened contact of described relay one closes, and the normally opened contact of described relay two closes;

4) described sensing unit does not send print command, and described holding circuit keeps powering to sensing unit; While described holding circuit work, described counter starts timing, and the timing duration of described counter mated with the described automatic shut-in time, and after timing completes, the normally-closed contact of relay three is opened, and holding circuit power-off, sensing unit is closed automatically.