CN109539149A - Electronic simulation very hot oven and its control method and storage medium - Google Patents

Abstract

The invention discloses an electronic simulation boom, a control method and a storage medium thereof. The electronic simulation fire includes a base and a light-emitting unit, a heating unit, a smoke-generating unit, a sound-emitting unit, a central control system and a light-transmitting casing sprayed with a heat-sensitive material, and the light-emitting unit is located on the transparent Inside the light housing, the heating unit is used for generating heat to change the color of the light-transmitting housing, the smoke generating unit is used for generating smoke, and the sound generating unit is used for generating sound. The control method sequentially includes making the light-emitting unit emit light; making the heating unit work; and making both the smoking unit and the sounding unit work. The storage medium stores a computer program executable by a processor to implement the above-mentioned control method. Using sound, light, electricity and heat, it has rich forms and can truly imitate the burning process of traditional fire, which is not only environmentally friendly but also improves the degree of simulation.

Description

Electronic simulation very hot oven and its control method and storage medium

Technical field

The present invention relates to the technical field of simulation flame, in particular to electronic simulation very hot oven and its control method and storage is situated between Matter.

Background technique

North of Shanxi some areas annual New Year's Eve will be built with coal into a conical very hot oven, be implied after lighting next Nian Wangqi is exceedingly high, All going well.Due to the relevant regulations of present national environmental protection, the use of this traditional very hot oven is gradually controlled.Mesh The preceding electronics very hot oven for occurring being emulated with LED screen in the market or the very hot oven for adding light to emulate with construction module, but these are prosperous The structure of fire and traditional very hot oven are far from each other, and form seems single, and fidelity is far from enough.

Summary of the invention

The purpose of the present invention is to solve the single technical problems of the structure type of very hot oven in the prior art, propose electronics Emulate very hot oven and its control method.

In order to solve the above technical problems, the invention adopts the following technical scheme:

Electronic simulation very hot oven, including pedestal and the luminescence unit being set on the pedestal, heat-generating units, smoke list Member, phonation unit, central control system and the light transmitting shell for being coated with thermo-sensitive material, the luminescence unit are located at the light transmitting shell Inside, the heat-generating units are for generating heat so that the light transmitting shell changes colour, and the smoke unit is for generating smog, institute Phonation unit is stated for generating sound, the luminescence unit, the heat-generating units, the smoke unit and the phonation unit are equal It is connect with the central control system.

In some preferred embodiments, the luminescence unit is located at the centre of the light transmitting shell, and the fever is single Member is located at the centre of the luminescence unit.

In further preferred embodiment, the shape of the light transmitting shell and the luminescence unit be it is upper it is small under Greatly.

In further preferred embodiment, the light transmitting shell, the luminescence unit and the heat-generating units are solid It is scheduled on the top of the pedestal, the height of the luminescence unit is less than the height of the light transmitting shell, the height of the heat-generating units Degree is less than the height of the luminescence unit.

In further preferred embodiment, the height of the luminescence unit is the 75% of the height of the light transmitting shell To 95%, the height of the heat-generating units is the 55% to 75% of the height of the light transmitting shell.

In some preferred embodiments, the luminescence unit is prismatic table shape；The light transmitting shell is truncated cone-shaped；It is described The material of light transmitting shell is plastics；The luminescence unit includes bracket and light source, and the light source setting is on the bracket.

It in some preferred embodiments, further include color detection unit, the color detection unit and the middle control System connection.

On the other hand, the present invention provides the control method of above-mentioned electronic simulation very hot oven, successively includes:

The luminescence unit is set to shine；

The heat-generating units are made to work；

The smoke unit and the phonation unit is set to work.

It is in some preferred embodiments, described that the smoke unit and the phonation unit is made to work specifically: Detecting makes the smoke unit and the phonation unit work when the color of the light transmitting shell changes.

On the other hand, it the present invention also provides a kind of computer readable storage medium, is stored with and calculates in conjunction with equipment The computer program used, the computer program are executed by processor to realize above-mentioned control method.

Compared with prior art, the beneficial effects of the present invention are as follows:

When electronic simulation very hot oven works, luminescence unit issues light, and heat-generating units generate heat and are coated with temperature-sensitive material The light transmitting shell of material, thermo-sensitive material start to change colour, and light penetrates light transmitting shell.From external observation, electronic simulation very hot oven slowly becomes Red, smoke unit release smog imitates the sound of firecracker that coal is smoldered, and released along with phonation unit, be utilized sound, Light, electricity, heat, form are abundant, truly the combustion process of traditional very hot oven are imitated out, not only environmental protection but also have improved fidelity.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of electronic simulation very hot oven of the invention；

Fig. 2 is the top view of electronic simulation very hot oven of the invention；

Fig. 3 is the flow chart of the control method of electronic simulation very hot oven of the invention；

Fig. 4 is a kind of electrical block diagram of variant of electronic simulation very hot oven of the invention.

Specific embodiment

Referring to figs. 1 to Fig. 4, elaborate below to embodiments of the present invention.It is emphasized that following the description is only It is merely exemplary, the range and its application being not intended to be limiting of the invention.

With reference to Fig. 1 and Fig. 2, electronic simulation very hot oven of the invention includes pedestal 1 and the luminous list that is set on pedestal 1 Member 2, heat-generating units 3, smoke unit 4, phonation unit 5, central control system 6 and the light transmitting shell 7 for being coated with thermo-sensitive material.It shines single Member 2, heat-generating units 3, smoke unit 4, phonation unit 5, central control system 6 and light transmitting shell 7 can be and be fixed on pedestal 1, It can be positioned at the top of pedestal 1, set according to specific needs, invention is not limited thereto.

Luminescence unit 2 can produce light, positioned at the inside of light transmitting shell 7.It is, light transmitting shell 7 covers luminescence unit 2.

Heat-generating units 3 are for generating heat so that light transmitting shell 7 changes colour.Since light transmitting shell 7 is coated with thermo-sensitive material, by Heat can change colour, as long as heat-generating units 3 are arranged on the position that can heat light transmitting shell 7.

Light transmitting shell 7 can be heated to change colour with light transmission.It is exemplary, it is faded after light transmitting shell 7 is heated by black, makes light transmission Shell 7 exposes true qualities；Alternatively, becoming the color that red or other very hot ovens need by black after light transmitting shell 7 is heated, to imitate The color of traditional very hot oven.The heated thermo-sensitive material that can change colour can be found in the prior art.The material of light transmitting shell 7 can be modeling Material, can also be the material of other light transmissions, such as glass.

Smoke unit 4 may be provided at the inside of light transmitting shell 7 for generating smog.The form of the generation smog of smoke unit 4 It can be heating, for example heating tobacco tar generates smog；Smog is either generated by vaporization；Invention is not limited thereto.

Phonation unit 5 is for generating sound, such as the noise of firecrackers of traditional very hot oven, may be provided at light transmitting shell 7 inside or On person's pedestal 1.

Central control system 6 is used to control luminescence unit 2, heat-generating units 3, smoke unit 4 and phonation unit 5, for example controls it Working time.That is, luminescence unit 2, heat-generating units 3, smoke unit 4 and phonation unit 5 connect with central control system 6 It connects.

When electronic simulation very hot oven works, luminescence unit 2 issues light, and heat-generating units 3 generate heat and are coated with temperature-sensitive The light transmitting shell 7 of material, thermo-sensitive material start to change colour, and light penetrates light transmitting shell 7.From external observation, electronic simulation very hot oven is slow Slowly it reddens, smoke unit 4 discharges the sound that smog imitates the firecracker that coal is smoldered, and released along with phonation unit 5, utilizes Sound, light, electricity, heat, form is abundant, truly the combustion process of traditional very hot oven is imitated out, not only environmental protection but also has improved emulation Degree.

Method control as follows can be used in electronic simulation very hot oven of the invention, is realized and is controlled by central control system 6, with reference to Fig. 3, It successively include step S100 to step S300.

Step S100, luminescence unit 2 is made to shine.Luminescence unit 2 after a period of work, such as after working 2 minutes, into Enter step S200.

Step S200, heat-generating units 3 is made to work.After a period of work, the brightness of light is stable for luminescence unit 2, makes Heat-generating units 3 work to heat to light transmitting shell 7, so that thermo-sensitive material be made to start to change colour.

Step S300, smoke unit 4 and phonation unit 5 is made to work.It is set in the after-fume that thermo-sensitive material starts discoloration Unit 4 and phonation unit 5, to imitate the smog and sound of traditional very hot oven.

According to control method as above, all parts of electronic simulation very hot oven is made to work in an orderly manner.Luminescence unit 2 is lit Issue light, such as the light of fiery yellow.With the extension of 2 lighting time of luminescence unit, heat-generating units 3 work, light transmitting shell 7 Internal temperature slowly increase, thermo-sensitive material starts to change colour, light penetrate light transmitting shell 7.From external observation, electronic simulation very hot oven It slowly reddens, in the process, smoke unit 4, which discharges smog, to be imitated coal and smolder, and is released along with phonation unit 5 quick-fried The sound of bamboo, can simulation tradition very hot oven more true to nature ignition procedures.

The present invention is described in detail below:

With reference to Fig. 1 and Fig. 2, luminescence unit 2 is located at the centre of light transmitting shell 7, in this way, making light in light transmitting shell 7 Portion is more evenly distributed.Heat-generating units 3 are located at the centre of luminescence unit 2, can use the heat of the sending of luminescence unit 2 in this way, So that the thermo-sensitive material in light transmitting shell 7 is heated evenly.

With reference to Fig. 1 and Fig. 2, luminescence unit 2 includes bracket 21 and light source 22, and light source 22 is arranged on the stent 21.Light source 22 It can choose LED light, energy-saving lamp or halogen lamp according to actual needs.

With reference to Fig. 1, the shape of light transmitting shell 7 and luminescence unit 2 is up-small and down-big.Stablize overall structure. Particularly, light transmitting shell 7 and luminescence unit 2 from top to bottom become larger, and are conducive to the flowing of air-flow and the diffusion of heat.Than Such as, light transmitting shell 7 is truncated cone-shaped, and luminescence unit 2 is prismatic table shape, and bracket 21 is prismatic table shape in other words.

The present invention can also be achieved:

With reference to Fig. 1 and Fig. 2, light transmitting shell 7, luminescence unit 2 and heat-generating units 3 are each attached to the top 11 of pedestal 1, also It is that light transmitting shell 7, luminescence unit 2 and heat-generating units 3 have connection with the surface 101 of pedestal 1.It is starting point with surface 101, hair The height of light unit 2 is less than the height of light transmitting shell 7, and the height of heat-generating units 3 is less than the height of luminescence unit 2.Due to light transmission The shape of shell 7 be it is up-small and down-big, luminescence unit 2 is located at the centre of light transmitting shell 7, and heat-generating units 3 are then located at luminescence unit 2 Centre, some heats that the heat and luminescence unit 2 that heat-generating units 3 generate generate can be gathered in the top of light transmitting shell 7, slowly It slowly flows out, heat can be made full use of in this way, play energy-efficient effect.Particularly, the height of luminescence unit 2 is light transmitting shell The 75% to 95% of 7 height, preferably 90%；The height of heat-generating units 3 is the 55% to 75% of the height of light transmitting shell 7, Preferably 65%；Such effect is best.

The present invention can also be achieved:

With reference to Fig. 4, electronic simulation very hot oven further includes color detection unit 8, may be provided at the inside of light transmitting shell 7, can also The outside of light transmitting shell 7 is set.Color detection unit 8 is connect with central control system 6.The main element of color detection unit 8 can To be camera or color sensor, detects and send a signal to central control system 6 when the color of light transmitting shell 7 changes. Central control system 6 receives the signal of the sending of color detection unit 8, handles the signal, then according to treated signal control Smoke unit 4 and phonation unit 5 processed.In this way, step S300 is then specifically: when detecting that the color of light transmitting shell 7 changes Smoke unit 4 and phonation unit 5 is set to work.Making the process of electronic simulation very hot oven simulated combustion in this way seems more natural.

On the other hand, the present invention provides a kind of computer readable storage medium, and being stored with makes in conjunction with calculating equipment Computer program, the computer program are executed by processor to realize above-mentioned control method.

The above content is combine it is specific/further detailed description of the invention for preferred embodiment, cannot recognize Fixed specific implementation of the invention is only limited to these instructions.For those of ordinary skill in the art to which the present invention belongs, Without departing from the inventive concept of the premise, some replacements or modifications can also be made to the embodiment that these have been described, And these substitutions or variant all shall be regarded as belonging to protection scope of the present invention.

Claims (10)

1. The electronic simulation is characterized in that: comprising a base and a light-emitting unit, a heating unit, a smoke-generating unit, a sound-emitting unit, a central control system and a light-transmitting housing sprayed with a heat-sensitive material that are arranged on the base, so The light-emitting unit is located inside the light-transmitting casing, the heating unit is used to generate heat to make the light-transmitting casing change color, the smoking unit is used to generate smoke, the sound-emitting unit is used to generate sound, the The light-emitting unit, the heating unit, the smoking unit and the sounding unit are all connected to the central control system. 2 . The electronic simulation fire according to claim 1 , wherein the light-emitting unit is located in the middle of the light-transmitting casing, and the heating unit is located in the middle of the light-emitting unit. 3 . 3 . The electronic simulation fire according to claim 2 , wherein the shapes of the light-transmitting housing and the light-emitting unit are both small at the top and big at the bottom. 4 . 4 . The electronic simulation fire according to claim 3 , wherein the light-transmitting casing, the light-emitting unit and the heating unit are all fixed on the upper part of the base, and the height of the light-emitting unit is smaller than the height of the light-emitting unit. 5 . The height of the light-transmitting housing, the height of the heating unit is smaller than the height of the light-emitting unit. 5 . The electronic simulation fire according to claim 4 , wherein the height of the light-emitting unit is 75% to 95% of the height of the light-transmitting housing, and the height of the heat-generating unit is the light-transmitting unit. 6 . 55% to 75% of the height of the enclosure. 6 . The electronic simulation fire according to claim 1 , wherein: the light-emitting unit is in the shape of a prism; the light-transmitting housing is in the shape of a truncated cone; the material of the light-transmitting housing is plastic; the light-emitting unit comprises: 7 . A bracket and a light source, the light source is arranged on the bracket. 7 . The electronic simulation fire according to claim 1 , further comprising a color detection unit, the color detection unit is connected to the central control system. 8 . 8. according to the control method of the electronic simulation boom according to any one of claim 1 to 7, it is characterized in that comprising successively: causing the light-emitting unit to emit light; make the heating unit work; Both the smoking unit and the sounding unit are made to work. 9 . The control method according to claim 8 , wherein the operation of both the smoking unit and the sounding unit is specifically: causing the smoke to be generated when a change in the color of the light-transmitting casing is detected. 10 . Both the unit and the sounding unit work. 10. A computer-readable storage medium storing a computer program used in conjunction with a computing device, the computer program being executed by a processor to implement the control method of claim 8 or 9.