WO2020080810A1

WO2020080810A1 - Fallen fruit collection system

Info

Publication number: WO2020080810A1
Application number: PCT/KR2019/013540
Authority: WO
Inventors: 김한필
Original assignee: 김한필
Priority date: 2018-10-15
Filing date: 2019-10-15
Publication date: 2020-04-23
Also published as: KR20200042172A

Abstract

The present invention relates to a fallen fruit collection system comprising: a fallen fruit collector for collecting fallen fruit; a manager-owned smart device, wherein the fallen fruit collector includes a weight measurement module for measuring the weight of the fallen fruit; and a fallen fruit information communication module for transmitting, to the smart device of the manager, the fallen fruit-related information generated by the weight measurement module. Therefore, the manager can know a fallen fruit collection time by simply confirming the information related to the collection of the fallen fruit, having been transmitted to the smart device of the manager, and thus the manager does not need to periodically visiting a place in which a fallen fruit accommodation means is provided so as to confirm whether the fallen fruit accommodation means is in an over-accommodated state, so that fallen fruit management efficiency such as reduced effort by the manager is increased.

Description

Camellia collection system

The present invention relates to a fruit collection system, and more specifically, the weight change of the fruit collected in the fruit collector and the location of the corresponding fruit collector is transmitted to the manager-owned smart device, so that the manager can transmit the information related to the fruit through his smart device. It relates to a fruit collection system that improves the efficiency of fruit management by making it immediately recognizable.

At the border of the road, a number of street trees are planted in order to reduce air pollution and noise in the city and to express beautiful scenery, and such trees include ginkgo, cherry, and maple trees.

This is because ginkgo (ginkgo) grows well in Korea's climate and soil, is resistant to cold and heat, and secretes bactericidal substances such as phytoncide, which are strong against pests and are easy to manage.

In addition, it has a variety of advantages, such as providing self-purification, which harmonizes well with urban aesthetics, such as providing shade in summer and absorbing the smoke of the city, by providing a tall and wide-growing property.

For this reason, 38.9% of the 2.1 million trees across the country are ginkgo trees, 24.5% are known as plane trees, and in fact, 28,4498 ginkgo trees are planted as trees.

However, every fall, the roads and sidewalks are stained by ginkgo nuts, which are naturally overlooked by ginkgo trees, as well as by the peculiar odor, there are constant complaints from residents as well. It causes waste and is difficult to clean and manage.

Therefore, there is a need for a means for collecting them separately so that such a bank does not fall on the ground of the road, and an example for solving this is Korean Patent Publication No. 10-2016-0096898.

The preceding document relates to a bank collection device, and in detail, has a truncated inverted cone at the bottom, and a plurality of fixing devices for connecting with branches on the upper part are provided in a row, and wind passes but banks do not pass. It characterized in that it comprises a collection unit body is formed with a plurality of vents having a structure that does not.

However, in accordance with the prior literature, the collection unit main body is no longer capable of performing a further collection function when the collection unit main body is completely filled with no more storage space.

In other words, in order to prevent this, the manager has to periodically visit the corresponding tree and check the acceptance status, and thus, there is a problem in that the waste of manpower is extremely severe.

* Advanced technical literature

-Patent literature

Republic of Korea Patent Publication No. 10-2016-0096898

The present invention has been devised to solve the above-described problems, and the present invention aims to provide a fruit collecting system capable of transmitting information related to the collecting state of a fruit in real time to a smart device of an administrator.

The fruit collection system according to the present invention includes a fruit collection unit in which a fruit collection unit is collected, a smart device in which the fruit collection management application is installed, and a central server unit for storing and exchanging information from the fruit collection unit and the smart devices. In claim, The conduit collector is wrapped around the circumference of the tree, the body portion that is stored in the inside through the upper portion opened, the body portion is provided along the periphery of the body portion and the conduit collecting portion and the body for guiding the inside of the body portion It is characterized in that it comprises a control unit including a weight measurement module for measuring the harvest weight information, which is installed in the unit and the weight of the fruit, and the fruit information communication module for transmitting the harvest weight information to the smart device.

In addition, the fruit collection system includes a panel member provided along the circumferential surface of the fruit collection part, and further includes a solar power generation unit that generates electric power through solar power generation, and the control unit through solar power generation. It is characterized by being driven.

In addition, when the harvest weight information changes over a predetermined range, the fruit information communication module transmits a weight change alarm to the smart device.

The falling fruit collection system according to the present invention includes a falling fruit collector and a smart device owned by an administrator, and the falling fruit collector includes a weighing module for measuring the weight of a falling fruit, and a falling weight generated by the weighing module. It includes a fruit information communication module that transmits information to the manager's smart device, so that the manager can know when to collect the fruit by simply checking the harvest-related information that is transmitted to his smart device. Through this, the manager does not have to periodically visit the place where the means for receiving the fruit is installed, and it is no longer necessary to check whether the means for receiving the food is in an excessively accommodating state, resulting in an effect of improving the efficiency of the management of the fruit, such as less labor for the manager. It has the effect of improving the efficiency of back management.

1 is a schematic diagram of a fruit collection system according to the present invention.

FIG. 2 is a perspective view showing a state in which the rum collector shown in FIG. 1 is installed on a tree.

FIG. 3 is a state diagram illustrating an example in which a weight change alarm is displayed on the UI of the smart device illustrated in FIG. 1.

FIG. 4 is a perspective view of the drop collector shown in FIG. 2.

FIG. 5 is an exploded perspective view of the drop collector shown in FIG. 2.

FIG. 6 is a schematic diagram showing collection of fruits using the fruit collector shown in FIG. 2.

7 is a schematic view showing that the panel member is installed in the drop collector shown in FIG. 2.

도 8은 다른 실시 형태에 의한 낙과포집부를 나타내는 분해 사시도이다.8 is an exploded perspective view showing a falling fruit collection unit according to another embodiment.

도 9는 도 8에 도시된 낙과포집부의 일 사용 예를 나타내는 모식도이다.FIG. 9 is a schematic diagram showing an example of use of the fruit collection unit illustrated in FIG. 8.

Prior to the detailed description of the present invention, specific details for carrying out the present invention are included in the examples and drawings to be described below, and the same reference numerals throughout the specification refer to the same components.

In addition, singular expressions in this specification will include plurals unless otherwise specified in the phrase.

Hereinafter, a fruit collection system according to the present invention will be described with reference to the drawings.

1 is a schematic view of a fruit collection system according to the present invention, and FIG. 2 is a perspective view showing a state in which the fruit collector shown in FIG. 1 is installed on a tree.

First, with reference to FIGS. 1 and 2, the whole fruit collection system 1000 will be described as a whole.

As shown in FIG. 1, the fruit collection system 1000 according to the present invention includes a fruit collector 10, a central server unit 30, and a smart device 40.

At this time, in FIG. 1, the structures of the fruit collector 10, the central server unit 30, and the smart device 40 are shown to be interconnected via the network 20, and the network 20 is It means all kinds of wired and wireless computer networks that are the medium through which all kinds of information are transmitted and received.

And, as shown in Figures 1 and 2, the fruit collector 10 is provided for each tree where the fruit is opened, and is formed in a structure surrounding the perimeter of the tree to collect fruits falling from the tree.

In addition, the smart device 40 is an information processing device owned by an administrator who collects and manages the fruits collected in the tree collector 10, and by installing a tree collection management application, it relates to a tree through the tree collection management application. Various information can be transmitted and received.

At this time, the smart device 40 includes all means capable of performing computational information transmission and reception functions such as a smart phone, a laptop, a desktop, and a PDA.

In addition, the central server unit 30 is configured to store and process various information generated from the fruit collector 10 and the smart device 40.

In addition, the central server unit 30 distributes the fruit collection management application on the network 20, and through this, the smart device 40 can be installed with the fruit collection management application through a download method or the like. will be.

As described above, the overall description of the fruit collection system 1000 has been completed, and each configuration of the fruit collection system 1000 will be described in detail with reference to other drawings.

3 is a state diagram showing an example in which a weight change alarm is displayed on the UI of the smart device shown in FIG. 1, FIGS. 4 and 5 are perspective and exploded perspective views of the drop collector shown in FIG. 2, and FIG. 6 is FIG. 2 It is a schematic diagram showing the fruit collection using the fruit collector shown in.

In addition, FIG. 7 is a schematic view showing that the panel member is installed in the drop collector shown in FIG. 2, and the drop collector 10 will be described in detail with reference to FIGS. 3 to 7.

First, as shown in FIGS. 4 to 7, the fall collector 10 includes a body part 100, a fall collection part 200, a solar power generation unit 300, and a control unit 400.

First, the body portion 100 includes a tree fixing groove 110 and a drop and storage groove 120.

In the case of the tree fixing groove 110, as shown in FIGS. 5 and 6, it is formed in a hollow structure on the innermost side of the body portion 100 so as to be fixed to it while surrounding the tree.

In addition, the drop and the receiving groove 120 is formed in a hollow structure with one end open along the circumference of the tree fixing groove 110 between the tree fixing groove 110 and the outer peripheral surface of the body portion 100.

Through this, as shown in FIG. 6, the akwa can be accommodated inside the akwa receiving groove 120 having the above-described opening structure and hollow structure.

In addition, the fall collection unit 200 includes a plurality of frame members 210, a collection network member 220, an upper support member 230, and an upper cable member 240.

First, the plurality of frame members 210 are provided along the periphery of the opening surface of the drop and the receiving groove 120, and are formed in a structure inclined downward toward the drop and the receiving groove 120.

In addition, the collection network member 220 is a kind of network structure provided in the plurality of frame members 210.

Through the plurality of frame members 210 and the collecting net member 220, a network structure inclined downward to the rack and the receiving groove 120 so as to guide the falling fruit to the falling and receiving groove 120 around the tree. Is formed.

At this time, the frame member 210 is preferably formed of a structure corresponding to the length of the branch of the tree, and through this, the falling fruit collection unit 200 can cover the entire space in which the falling fruit is formed.

Then, the upper support member 230 is provided on the upper portion of the frame member 210 is formed in a structure surrounding the circumference of the tree.

In addition, the upper cable member 240 is formed in a structure that connects the plurality of frame members 210 and the upper support member 230.

In other words, the lower part of the falling fruit collection part 200 is supported by the frame member 210, and the upper part is fixedly supported by the tree by the upper support member 230 and the upper cable member 240.

Accordingly, the load acting on the frame member 210 is canceled by the tension acting on the cable member.

Thus, the overall force balance is provided in the fall collecting portion 200, and an effect of improving the structural stability of the falling portion collecting portion 200 occurs.

도 8은 다른 실시 형태에 의한 낙과포집부를 나타내는 분해 사시도이며, 도 9는 도 8에 도시된 낙과포집부의 일 사용 예를 나타내는 모식도이다.8 is an exploded perspective view showing a falling fruit collection unit according to another embodiment, and FIG. 9 is a schematic view showing an example of use of the falling fruit collection unit illustrated in FIG. 8.

도 8 및 도 9를 더 참조하여 낙과포집부(200)의 다른 실시 형태에 대해 설명하도록 한다.8 and 9 will be further described with reference to other embodiments of the fruit collection unit 200.

먼저, 도 8 및 도 9에 도시된 바와 같이, 상기 낙과포집부(200)는 가지 로프부재(250)와, 가지 결합부재(260) 및 처짐 방지부재(270)로 이루어질 수 있다.First, as shown in FIGS. 8 and 9, the fall collecting part 200 may be formed of a branch rope member 250, a branch coupling member 260, and a sag preventing member 270.

보다 상세하게는, 상기 가지 로프부재(250)는 바디부(100)의 상부 테두리를 따라 복수 개 구비되고, 각각의 일단에는 나무 가지와 결합 가능한 구조로 형성되는 가지 결합부재(260)가 구비된다.In more detail, a plurality of the branch rope members 250 are provided along the upper edge of the body portion 100, and at one end of each, a branch coupling member 260 formed of a structure capable of coupling with a tree branch is provided. .

이때, 상기 가지 결합부재(260)는 일종의 개고리 구조로 형성된 것으로 도시되어 있으나, 이는 낙과포집부(200)와 나무 가지간 결합을 나타내는 일 예일 뿐, 본 발명은 이에 한정되지 않는다 할 것이다.At this time, the branch coupling member 260 is shown as being formed as a kind of open-loop structure, but this is only an example of showing the coupling between the fallen tree collecting part 200 and the tree branch, and the present invention will not be limited thereto.

그리고, 전술한 포집망 부재(220)는 각각의 가지 결합부재(260)들 사이에 구비된다.In addition, the above-described collection net member 220 is provided between the respective branch coupling members 260.

상술한 사항들을 통해, 전체적인 포집망 구조는 상기 가지 로프부재(250)의 길이에 대응 확대되어, 과일이 매달려 있는 가지의 높이까지 밀착 커버할 수 있게 된다.Through the above-mentioned matters, the entire collection network structure is enlarged corresponding to the length of the branch rope member 250, so that the fruit can be closely covered to the height of the hanging branch.

이에 따라, 도 9에 도시된 바와 같이 과일은 가지로부터 분리되는 즉시 상기 가지 로프부재(250)의 내측 구간으로 낙하될 수 있어, 이를 통해 낙하 도중 낙과포집부(200)의 외측으로 이탈되는 과일의 양이 현격하게 감소하게 되어, 그 낙과 수집율이 대폭 향상되는 효과가 발생한다.Accordingly, as illustrated in FIG. 9, the fruit can be immediately dropped from the branch to the inner section of the branch rope member 250, thereby allowing the fruit to fall outside the falling and collecting part 200 during the fall. The amount is significantly reduced, and the effect of greatly improving the drop and collection rate occurs.

그리고, 상기 처짐 방지부재(270)는 상기 복수 개의 가지 로프부재(250)의 테두리에 권취되고, 상기 복수 개의 가지 로프부재(250)들간의 간격을 가변시킬 수 있도록 길이 조절이 가능한 구조로 형성된다.In addition, the deflection preventing member 270 is wound on the rim of the plurality of branch rope members 250, and is formed in a structure capable of adjusting the length so as to vary the spacing between the plurality of branch rope members 250. .

즉, 상기 처짐 방지부재(270)는 상기 가지 로프부재(250)에 권취됨으로써 일종의 지지력을 제공하고, 상기 가지 로프부재(250)에 소정의 장력이 유지되도록 하는 수단인 것이다.That is, the deflection preventing member 270 is a means for providing a kind of support force by being wound on the branch rope member 250 and maintaining a predetermined tension in the branch rope member 250.

이에 따라, 전체적인 포집망 구조에 과일이 낙하되어 다소간의 충격이 발생하더라도, 상술한 지지력 제공 및 장력 유지 기능을 통해 낙과가 발생시키는 충격이 상쇄되어, 그 충격 등으로 인해 발생할 수 있는 포집망 구조의 처짐이 최소화되는 효과가 발생한다.Accordingly, even if the fruit falls on the entire collection network structure and some impact occurs, the impact generated by the fall through the provision of the above-mentioned support force and the tension maintenance function is canceled, and the structure of the collection network that may occur due to the impact, etc. The effect of sagging is minimized.

그리하여, 상당한 중량을 지닌 다수 개의 과일이 동시적으로 낙하되더라도, 낙과를 바디부(100)로 가이드하기 위한 전체적인 포집망 구조가 안정적으로 유지될 수 있는 것이다.Thus, even if a plurality of fruits having a considerable weight fall simultaneously, the entire collection network structure for guiding the fruit to the body portion 100 can be stably maintained.

In addition, the solar power generation unit 300 includes a panel member 310, a power conversion member 320 and a power supply member 330.

The panel member 310, as shown in Figure 7, is provided along the circumferential surface of the fall collection unit 200 performs a kind of solar panel function to collect sunlight.

이때, 도 7은 낙과포집부(200)를 형성하기 위해 프레임부재(210)가 사용되는 실시 형태를 기준으로 설명한 것이나, 이는 설명을 위한 일 예일 뿐이다.In this case, FIG. 7 is described based on an embodiment in which the frame member 210 is used to form the fall collection part 200, but this is only an example for explanation.

즉, 전술한 가지 로프부재(250)를 통해 낙과포집부(200)가 형성되는 실시 형태의 경우, 상기 패널부재(310)는 각각의 가지 로프부재(250) 사이마다 구비될 수 있는 등, 상기 패널부재(310)의 설치구조는 다양하게 존재할 수 있다.That is, in the embodiment in which the drop collecting part 200 is formed through the branch rope member 250 described above, the panel member 310 may be provided for each branch rope member 250, etc. The installation structure of the panel member 310 may be various.

In addition, the power conversion member 320 is connected to the panel member 310 and performs a function of converting solar energy collected by the panel member 310 into electrical energy.

In addition, the power supply member 330 is connected to the power conversion member 320, stores the converted electrical energy, and performs a function of supplying the electrical energy to the control unit 400.

That is, the control unit 400 may be self-driving through solar power generation, and accordingly, a separate external power source is not required, thereby simplifying the facility for supplying energy and reducing energy costs.

Particularly, as shown in FIG. 2, when a plurality of the drop collectors 10 are installed, the above-described effects of energy cost reduction and the like will be maximized exponentially.

In addition, as shown in FIG. 1, the control unit 400 includes a weight measurement module 410 and a fruit information communication module 420.

First, the weight measurement module 410 measures the harvest weight information, which is the weight of the camel collected inside the camel and the receiving groove 120, which is to be transmitted to the smart device 40, the central server unit 30, etc. You can.

Accordingly, after the manager confirms the acceptance and acceptance status of the specific activity collector 10 corresponding to the harvest weight information, the administrator can visit the place where the corresponding activity collector 10 is installed and collect the fruits.

At this time, the weight measurement module 410 may include various means for weight sensing, such as a load detection sensor, a piezoelectric element, a strain gauge.

In addition, FIG. 3 is a state diagram showing an example in which a weight change alarm is displayed on the UI of the smart device illustrated in FIG. 1, and a more detailed description will be made of a management method of a fruit related to the harvest weight information.

First, as illustrated in FIG. 3, when the harvest weight information indicates a change amount of a predetermined value or more, the weight measurement module 410 performs a function of generating a weight change alarm that is information about the change amount of the harvest weight information. This may be transmitted to the smart device 40, the central server unit 30, and the like.

Accordingly, when the fall amount is outside the normal range of variation due to various factors, such as an increase in the fall amount, insertion of foreign matter inside the fall collector 10, and the breakdown of the fall collector 10, the manager may notify the fact. It can be acquired immediately.

In addition, although the weight change alarm is illustrated in FIG. 3 as a unit for increasing or decreasing the weight of a nut, this is only an example for explanation.

The weight change alarm may be implemented in a variety of ways, such as an image form that mimics the free space of the fruit collector 10, in addition to the one illustrated in FIG. 3.

Then, the fruit information communication module 420 performs a function of transmitting various information generated by the weight measurement module 410 to the smart device 40, such as the harvest weight information and the weight change alarm.

At this time, as shown in FIG. 1, the fruit information communication module 420 may be connected to an external location information providing server 50.

Through this, the fall information communication module 420 is a smart device (such as the harvest weight information, weight change alarm, etc.) along with the collector position information that is the position information of the fall collector 10 received from the position information providing server 50 ( 40).

In addition, the location information providing server 50 may generate various location information through various location tracking means such as GPS.

And, as shown in Figure 1, the central server unit 30 includes a system information communication module 31, the manager module 32, the collector module 33 and the system management module 34, Through this, functions such as storing, collecting and transmitting the above-described information are performed.

First, the system information communication module 31 performs a function of receiving information from the drop collector 10 and the smart device 40 and then transmitting the information to the manager module 32 and the collector module 33. .

In addition, the system information communication module 31 transmits information processed by the manager module 32, the collector module 33, and the system management module 34 to the drop collector 10 and the smart device 40. Perform.

In addition, the manager module 32 performs a function of storing and processing information on the smart device 40.

More specifically, the manager module 32 stores personal information such as a manager's name, e-mail address, telephone number, and job title.

In addition, the manager module 32 includes administrator-specific identification information of the smart device 40, manager data such as login ID and password for the smart device to be connected to the central server unit 30 through the collection management application. Is stored.

In addition, the manager data may be transmitted to the manager module 32 from each smart device 40 of the managers, or may be directly input to the manager module 32.

In addition, the manager module 32 receives manager location information, which is real-time location information of the smart device 40 in real time.

As an example of receiving the manager location information, as shown in FIG. 1, the manager module 32 receives the manager location information from an external location information providing server 50 linked with the smart device 40. Can be provided.

In addition to the above description, the manager location information may be updated in real time to the manager module 32 through various methods.

In addition, the above-described collector location information is stored in the collector module 33.

In addition, in the collector module 33, all information received from the fruit collector 10, such as the above-described harvest weight information and weight change alarm, is stored.

In addition, the harvest weight information, the weight change alarm, etc., as well as being directly transmitted to the smart device 40 by the fruit information communication module 420 as described above, as well as the smart device 40 is not transmitted directly to the collector It can be sent to the module 33.

In this case, the system management module 34 queries the manager module 32, the harvest weight information, the weight only to the smart device 40 in which the manager data is registered through the system information communication module 31 A change alarm and the like are transmitted.

In addition, at this time, the system management module 34 may transmit the harvest weight information, the weight change alarm, and the like to the smart device 40 together with the above-described collector location information.

Then, the system management module 34 searches for the location information of the manager located at the closest location to the manager location information of the harvester information and the collector location information of the fruit collector 10 that generated the weight change alarm. can do.

Thereafter, the system management module 34 may transmit the harvest weight information, the weight change alarm, and the like to the smart device 40 that has generated the neighbor manager location information.

Accordingly, each fall collector 10 can be managed by the manager who is the closest from him, and the effect of improving the speed of management of the fall collector 10 occurs.

As described above, the present invention is to provide a fruit collection system as a main technical idea, and the embodiment described above with reference to the drawings is only one embodiment, and the true scope of the present invention is based on the claims. However, it will be said that it extends evenly to various embodiments that may exist in various ways.

The present invention can be used in a fruit collection system.

Claims

In a fruit collection system including a fruit collection unit for collecting fruits, a smart device in which the fruit collection management application is installed, and a central server unit for storing and exchanging information from the fruit collection unit and the smart devices,

The above collector,

A body part which encloses the circumference of the tree and stores a fruit on the inside through an opened upper part;

A fall and a collection part provided along the circumference of the body part and guiding the fruit to the inside of the body part; And

A control unit including a weight measurement module installed on the body unit for measuring harvest weight information, which is the weight of a fruit, and a fruit information communication module for transmitting the harvest weight information to the smart device; A camel collecting system comprising a.
According to claim 1,

The stalk and collector,

A solar power generation unit that generates power through solar power generation and supplies power to the control unit; A camel collecting system, characterized in that it further comprises.
According to claim 1,

The module information communication module,

When the harvest weight information is changed over a predetermined range, the fruit collection system, characterized in that for transmitting a weight change alarm to the smart device.