CN106683553B - Simulation corn and realization method for interactively experiencing and harvesting corn - Google Patents

Abstract

The utility model provides a realization method of emulation maize and interactive experience results maize, includes emulation maize straw, its characterized in that, emulation maize straw includes the straw skeleton and decorates tassel, blade, the extexine on the straw skeleton, be equipped with the ascending spliced eye of slope on the straw skeleton, set up the corn-on-cob, the corn-on-cob includes the corn-on-cob skeleton and decorates kernel of corn, female ear, bract on the corn-on-cob body, the bottom of corn-on-cob skeleton is equipped with the grafting portion that inserts the spliced eye, just is in the spliced eye has the position blade that is used for the auxiliary stay corn-on-cob. According to the invention, a simulated corn field scene is designed through the corn simulation device, and two modes of harvesting corn and planting corn are realized through the display unit, the camera unit, the information acquisition unit and the control unit, so that the farming environment can be truly simulated indoors, the crop harvesting can be experienced, and the experience of an experiencer can be better facilitated to experience the farming life.

Description

Method for realizing simulation corn and interactive experience corn harvesting

Technical Field

The invention relates to agricultural and living experience simulation equipment, in particular to a method for realizing simulation of corns and interactive experience of harvesting corns.

Background

With the continuous progress of society, the urbanization rate is higher and higher, more and more people move from rural areas to cities, people living in the cities have more and more distant farming lives, and even though people can know farming through books, videos and the like in the weekdays, the difficulty of farmers in the farming process is difficult to realize. For the real farming experience, due to the limitation of various factors, an experiencer cannot correctly master various farming techniques, for example, when corn is harvested on the spot for experience, the labor intensity is often high, the physical strength is not enough, the corn leaves are sharp, when the corn is harvested, the skin is easily scratched, and thus a plurality of experiencers can be rejected, so that the farming environment can be truly simulated indoors, the crop harvesting can be experienced, and the better farming life of the experiencer can be facilitated.

Disclosure of Invention

The invention aims to provide a corn simulation device for interactive experience harvesting, which can truly simulate farming environment indoors and experience crop harvesting, and is beneficial to experiencers to better experience farming life.

The invention adopts the following technical scheme for realizing the purpose of the invention:

a corn simulation device for interactive experience harvesting comprises simulation corn straws, and is characterized in that the simulation corn straws comprise a straw framework, tassels, blades and an outer surface layer which are decorated on the straw framework, the straw framework is provided with insertion holes inclining upwards, set up the corn-on-cob, the corn-on-cob includes the corn-on-cob skeleton and decorates kernel of corn, female ear, bract on the corn-on-cob body, the bottom of corn-on-cob skeleton is equipped with the grafting portion that inserts the spliced eye, just the spliced eye has the stick position blade that is used for the auxiliary stay corn-on-cob.

Furthermore, the plug hole is magnetically connected with the plug part.

Further, the rod position blade is an elastic body.

Furthermore, a sensor is arranged in the plug hole.

Furthermore, the device also comprises a storage bin, wherein the storage bin is provided with a corn cob collecting hole, and a counter is arranged at the collecting hole.

Further, the storage storehouse is still including supplying the slide structure in corn-on-cob roll-off storage storehouse, the slide is equipped with the intelligent control door that opens and shuts.

Further, the number of the collecting holes is two or more.

The interactive experience corn harvesting implementation method is characterized by comprising a corn harvesting implementation system, wherein the system comprises a simulated corn field, a display unit, a camera shooting unit, an information acquisition unit and a control unit, the simulated corn field comprises the corn simulation device, and the implementation method comprises a corn harvesting mode and a corn planting mode;

the procedure of the "harvest of corn" mode is as follows,

1) The scene of the corn field is displayed through the display unit, then, a person who holds the basket to pick corn from the corn field is displayed, then, the picture is switched to the scene in the corn warehouse, the animated characters stack the corn in the basket in the warehouse, and then, a voice prompt for starting to harvest the corn is given;

2) Counting and displaying the number of the corn cobs on the analog corn device in the current corn field and the number of the corn cobs harvested in the storage bin in real time through an information acquisition unit;

3) The experiencer takes the small bamboo basket, picks up the corn cobs on the simulated corn device in the corn field, plugs the corn cobs into the storage bin through the counting holes, and adds 1 to the number of the corn cobs to be harvested by the information acquisition unit every time one corn cob is plugged;

4) When the number of corns in the corn field is equal to 20% and the number of corn cobs plugged into the storage bin is not more than 80%, the display unit plays a section of animation to prompt an experiencer to plug the picked corn cobs into the storage bin as soon as possible; when the number of the corns is less than 20% and the number of the corn cobs stuffed into the storage bin reaches 80%, the information acquisition unit judges that the task of harvesting the corns is completed, the display unit switches a section of task to complete a conversation, a plurality of groups of photos shot randomly by the camera in the process of harvesting the corns are displayed randomly on the display unit, the photos are transmitted to the printing equipment of the service desk, and the examinee pays for printing from the service desk and remains as a souvenir.

The mode of planting corn is as follows:

1) The scene in the corn warehouse is displayed through the display unit, one corn cob jumps out of the corn pile, and then a voice prompt for planting the corn is given;

2) Counting and displaying the number of the corn cobs on the analog corn device in the current corn field and the number of the corn cobs harvested in the storage bin in real time through an information acquisition unit;

3) The control unit opens the intelligent opening and closing door of the storage bin slideway, and the corn cobs slide into the bamboo basket;

4) The experiencer carries the bamboo basket with the corn cobs, inserts the insertion parts of the corn cobs into the insertion holes of the corn straws in a corn field, and fixes the corn cobs on the straws through magnetic connection;

5) When the number of the corn fields is equal to 70%, the display unit plays a section of animation to prompt the audience that the planting mode is about to end; when the number of the corns is equal to 80%, the information acquisition unit judges that the corn planting task is completed, the display unit switches to a section of animation for completing planting, meanwhile, the display unit displays a plurality of groups of photos randomly shot by the camera in the planting process, the photos are transmitted to the printing equipment of the service desk, the physical examiner pays for printing to the service desk, and the photos are kept as souvenirs.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, a simulated corn field scene is designed through the corn simulation device, and two modes of harvesting corn and planting corn are realized through the display unit, the camera shooting unit, the information acquisition unit and the control unit, so that the farming environment can be truly simulated indoors, crop harvesting can be experienced, and the experience of a farmer can be better facilitated.

Drawings

FIG. 1 is a schematic view of the structure of the corn simulator of the present invention.

FIG. 2 is a schematic view of the structure of the corn cob of the present invention.

Fig. 3 and 3b are schematic structural diagrams of the storage bin of the invention.

Fig. 3a is an enlarged view of a portion I of fig. 3.

FIG. 4 is a schematic system diagram according to embodiment 2 of the present invention.

In the figure: 1 straw skeleton, 2 spliced eye, 3 corn-on-cob skeleton, 31 grafting portion, 4 excellent position blade skeletons, 5 information acquisition units, 6 the control unit, 7 displays, 8 storage storehouses, 9 corn-on-cob collection holes, 10 response counters, 11 doors that open and shut.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Example 1

A corn simulation device for interactive experience harvesting comprises simulated corn straws, wherein the simulated corn straws comprise a straw framework 1, tassels, blades and an outer surface layer which are detachably decorated on the straw framework, the straw framework is provided with an inserting hole 2 which inclines upwards, set up the corn-on-cob, the corn-on-cob includes corn-on-cob skeleton 3 and decorates kernel of corn, ear of female and bract on the corn-on-cob body, and the bottom of corn-on-cob skeleton is equipped with the grafting portion 31 that inserts the spliced eye, just the spliced eye has the stick position blade that is used for the auxiliary stay corn-on-cob.

The plug hole is magnetically connected with the plug part, and the rod position blade and the blade respectively comprise a framework and a simulation blade decorated on the framework. The rod position blades and the blades are elastic bodies and are detachably fixed with the straw framework, and the simulation blades are detachably sleeved on the rod position blade framework and other blade frameworks.

The inserting hole, the tassel and the blade framework in the embodiment are all detachably connected with the simulated corn straw, and the straw framework adopts a telescopic structure.

Furthermore, a sensor is arranged in the plug hole.

Further, the device still includes a storage bin 8, storage bin 8 is equipped with corn-on-cob collecting hole 9, collecting hole department is equipped with induction counter 10, specifically is the magnetic induction counter.

Further, the storage bin further comprises a slide way for enabling the corn cobs to slide out of the storage bin, and an opening and closing door 11 is arranged at an outlet of the slide way.

Furthermore, the collection hole is two or more, and each collection hole all sets up the response counter of an independent count simultaneously.

Example 2

The interactive experience corn harvesting realization method comprises a corn harvesting realization system, wherein the system comprises a simulation scene unit, a display unit, an information acquisition unit and a control unit, and the simulation scene unit comprises the corn simulation device in the embodiment 1.

Wherein, the display element includes the display, and the information acquisition unit is including establishing the sensor in maize plug-in hole department, establishing the response counter in collection hole department and installing the camera at simulation maize ground, and the data transmission that the information acquisition unit will gather gives the control unit, and the control unit includes a singlechip and data memory, and the output and the display of singlechip are connected.

The realization method comprises a corn harvesting mode and a corn planting mode;

the procedure of the corn harvest mode is as follows,

1) The method comprises the steps that a corn field scene is displayed through a display unit, then, a person who takes a bamboo basket to pick corn in the corn field is displayed, then, a picture is switched to the scene in a corn warehouse, characters in an animation version stack the corn in the basket in the warehouse, and then, a voice prompt for starting to harvest the corn is given;

2) Counting and displaying the number of the corn cobs on the analog corn device in the current corn field and the number of the corn cobs harvested in the storage bin in real time through an information acquisition unit;

3) The experiencer takes the small bamboo basket, picks up corn cobs on the simulated corn device in the corn field, plugs the corn cobs into the storage bin through the counting holes, and adds 1 to the number of the corn cobs to be harvested by the information acquisition unit when each corn cob is plugged;

4) When the number of corns in the corn field is equal to 20% and the number of corn cobs plugged into the storage bin is not more than 80%, the display unit plays a section of animation to prompt an experiencer to plug the picked corn cobs into the storage bin as soon as possible; when the number of the corns is lower than 20% and the number of the corn cobs stuffed into the storage bin reaches 80%, the information acquisition unit judges that the task of harvesting the corns is completed, the display unit switches one section of task to complete conversation, and a plurality of groups of photos shot by the camera randomly in the corn harvesting process are displayed on the display unit randomly (the number of the corn cobs in the corn field of the camera reaches an integer point and then the camera is triggered to take photos).

) The photo is transmitted to the printing device of the service desk, and the physical examiner pays for printing on the service desk and remains as a souvenir.

The mode of planting the corn is as follows:

1) The scene in the corn warehouse is displayed through the display unit, one corn cob jumps out of the corn pile, and then a voice prompt for planting the corn is given;

2) Counting and displaying the number of the corn cobs on the analog corn device in the current corn field and the number of the corn cobs harvested in the storage bin in real time through an information acquisition unit;

3) The control unit opens the intelligent opening and closing door of the storage bin slideway, and the corn cobs slide into the bamboo basket;

4) The experiencer carries the bamboo basket with the corn cobs, inserts the insertion parts of the corn cobs into the insertion holes of the corn straws in a corn field, and fixes the corn cobs on the straws through magnetic connection;

5) When the number of the corn fields is equal to 70%, the display unit plays a section of animation to prompt the audience that the planting mode is about to end; when the number of corns is equal to 80%, the information acquisition unit judges that the corn planting task is completed, the display unit switches a section of animation for completing planting, meanwhile, the display unit randomly displays a plurality of groups of photos randomly shot by the camera in the planting process, the photos are transmitted to the printing equipment of the service desk, and the physical examiners pay for printing to the service desk and leave as souvenirs.

In example 2, the control unit control method is shown in the following table.

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Claims (2)

1. An interactive experience corn harvesting implementation method is characterized by comprising a corn harvesting implementation system, wherein the system comprises a simulated corn field, a display unit, a camera shooting unit, an information acquisition unit and a control unit, the simulated corn field comprises a corn simulation device, the corn simulation device comprises simulated corn straws, the simulated corn straws comprise a straw framework, and tassels, blades and an outer surface layer which are decorated on the straw framework, the straw framework is provided with an upwards-inclined insertion hole, a corn cob is arranged, the corn cob comprises a corn cob framework and corn kernels, female ears and bracts decorated on a corn cob body, the bottom of the corn cob framework is provided with an insertion part inserted into the insertion hole, a corn cob position blade for assisting in supporting the corn cob is arranged below the insertion hole, the insertion hole is magnetically connected with the insertion part, a sensor is arranged in the insertion hole, and the corn position blade is an elastic body;

the device also comprises a storage bin, wherein the storage bin is provided with a corn cob collecting hole, and a counter is arranged at the collecting hole; the storage bin also comprises a slide way structure for the corn cobs to slide out of the storage bin, and the slide way is provided with an intelligent control opening and closing door;

the realization method comprises a corn harvesting mode and a corn planting mode; the corn harvesting mode comprises the following steps:

1) The scene of the corn field is displayed through the display unit, then, a person who holds the basket to pick corn from the corn field is displayed, then, the picture is switched to the scene in the corn warehouse, the animated characters stack the corn in the basket in the warehouse, and then, a voice prompt for starting to harvest the corn is given;

2) Counting and displaying the number of the corn cobs on the analog corn device in the current corn field and the number of the corn cobs harvested in the storage bin in real time through an information acquisition unit;

3) The experiencer takes the small bamboo basket, picks up corn cobs on the simulated corn device in the corn field, plugs the corn cobs into the storage bin through the counting holes, and adds 1 to the number of the corn cobs to be harvested by the information acquisition unit when each corn cob is plugged;

4) When the number of corns in the corn field is equal to 20% and the number of corn cobs stuffed into the storage bin is not more than 80%, playing an animation by the display unit to prompt an experiencer to stuff the picked corn cobs into the storage bin as soon as possible; when the number of the corns is lower than 20% and the number of the corn cobs stuffed into the storage bin reaches 80%, the information acquisition unit judges that the task of harvesting the corns is completed, the display unit switches a section of task to complete a conversation, and randomly displays a plurality of groups of photos shot randomly by the camera in the process of harvesting the corns on the display unit, the photos are transmitted to the printing equipment of the service desk, and the examinee pays for printing from the service desk and remains as a souvenir;

the corn planting mode is as follows:

1) The scene in the corn warehouse is displayed through the display unit, one corn cob jumps out of the corn pile, and then a voice prompt for planting the corn is given;

2) Counting and displaying the number of the corn cobs on the analog corn device in the current corn field and the number of the corn cobs harvested in the storage bin in real time through an information acquisition unit;

3) The control unit opens the intelligent opening and closing door of the storage bin slideway, and the corn cobs slide into the bamboo basket;

4) The experiencer carries the bamboo basket with the corn cobs, inserts the insertion parts of the corn cobs into the insertion holes of the corn straws in a corn field, and fixes the corn cobs on the straws through magnetic connection;

5) When the number of the corn fields is equal to 70%, the display unit plays a section of animation to prompt the audience that the planting mode is about to end; when the number of the corns is equal to 80%, the information acquisition unit judges that the corn planting task is completed, the display unit switches to a section of animation for completing planting, meanwhile, the display unit displays a plurality of groups of photos randomly shot by the camera in the planting process, the photos are transmitted to the printing equipment of the service desk, the physical examiner pays for printing to the service desk, and the photos are kept as souvenirs.

2. The method of claim 1, wherein the number of the collection holes is two or more.

Images