CN111667634A - Garbage bag configuration system and application thereof - Google Patents

Abstract

The invention provides a garbage bag configuration system and application thereof, wherein a garbage bag configuration method comprises the following steps: acquiring the environment information required by a garbage bag; generating at least one garbage bag configuration scheme according to the garbage bag demand environment information and configuring garbage bags based on the garbage bag configuration scheme.

Description

Garbage bag configuration system and application thereof

Technical Field

The invention relates to the field of garbage disposal, in particular to a garbage bag configuration system and application thereof.

Background

The disposal bag is the storage tool who is used for placing rubbish in daily life. Garbage can be generated in places where people are moving, so that garbage bags are almost ubiquitous, and in kitchens, bedrooms, living rooms and places where garbage exists, the garbage bags are needed, otherwise the scattered garbage causes the whole space to be messy.

In daily life, the demand of the garbage bags is ubiquitous, the garbage bags are required to be configured in various places and different environments, and meanwhile, various manufacturers manufacture garbage bags to meet the demand of people. When disposal of the trash bags is required, a purchaser, such as a housewife, such as a materials manager, is required to expend energy each time to perform the purchasing activity. On one hand, a buyer needs to know the conditions of various use environments, but the range of the information which needs to be known by different people is different, for example, housewives only need to know the conditions of families or houses, but for large-batch requirements, such as production enterprises and the like, the information which is needed by the buyer is larger, which is a workload for the buyer, particularly for some enterprises, the situation of personnel replacement is often met, and therefore different people need to continuously repeat the same work; on the other hand, after the buyer knows the environment requirement information, the buyer needs to select and determine the garbage bags to be purchased from the garbage bag suppliers in the vast sea, and the purchasing process of the garbage bags can be completed through such a complex process. This also results in more manpower and material resources. However, with the increasing intellectualization of social life, the demand for labor-saving is increasing, and progress is also required in the ubiquitous field of disposal of garbage bags.

Disclosure of Invention

An object of the present invention is to provide a disposal bag configuration system and its application, wherein the disposal bag system is capable of configuring disposal bags suitable for different scenes for users.

It is another object of the present invention to provide a disposal bag configuration system and its applications, wherein the disposal bag configuration system is capable of automatically configuring the disposal bags suitable for different scenes for the user.

It is another object of the present invention to provide a disposal bag disposal system and its applications, wherein the disposal bag disposal system is capable of providing different disposal bags based on the user's personalized habits of using the disposal bags.

Another object of the present invention is to provide a disposal bag configuration system and its application, wherein the disposal bag configuration system is capable of configuring a corresponding disposal bag for a user based on the disposal bag usage data in the home of the user.

It is another object of the present invention to provide a disposal bag disposal system and its applications, wherein the disposal bag disposal system is capable of directly disposing the disposal bag for the user.

It is another object of the present invention to provide a disposal bag disposal system and its applications, wherein the disposal bag disposal system provides at least one disposal bag station, wherein the disposal bag station is capable of disposing the disposal bag for a user.

It is another object of the present invention to provide a disposal bag disposal system and its applications, wherein the disposal bag disposal system provides at least one disposal bag disposal vehicle, wherein the disposal bag disposal vehicle is capable of disposing the disposal bag for the user.

It is another object of the present invention to provide a disposal bag disposal system and its use, wherein said disposal bag disposal vehicle is capable of disposing said disposal bags for said disposal bag station.

It is another object of the present invention to provide a disposal bag disposal system and its use, wherein the disposal bag station is capable of providing a disposal bag purchasing service to a user.

It is another object of the present invention to provide a disposal bag configuration system and its application, wherein the disposal bag configuration system is capable of configuring a disposal bag suitable for different use environments based on a user's instruction.

According to one aspect of the present invention, there is provided a disposal bag disposal method comprising the steps of:

acquiring the environment information required by a garbage bag;

generating at least one garbage bag configuration scheme according to the garbage bag demand environment information; and

and configuring the garbage bags based on the garbage bag configuration scheme.

According to an embodiment of the present invention, the garbage bag demand environment information is selected from one or more of environment information where the garbage bag is located and garbage bag use state information.

According to an embodiment of the invention, the disposal bag disposing method further comprises the steps of:

providing the disposal bag configuration scheme for selection by a user; and

confirming the disposal bag configuration scheme based on the user's selection.

According to an embodiment of the invention, the disposal bag disposing method further comprises the steps of:

selecting the time for configuring the garbage bags based on the real-time environment information of the garbage bag demand, and configuring the garbage bags at the time.

According to an embodiment of the present invention, in the above method, when the number of the garbage bags in a demand environment is lower than a preset value, the garbage bags are configured.

According to an embodiment of the present invention, in the method, the garbage bags are configured when the number of the garbage bags is predicted to be lower than a preset value based on a garbage bag consumption rate.

According to an embodiment of the present invention, in the method, the disposal bag is configured based on a user instruction.

According to an embodiment of the present invention, in the method, the method further includes the following steps:

generating a configuration route based on a location information of a demand environment and a location information of a trash bag configuration vehicle; and

the disposal bag deployment vehicle follows the deployment route to dispense the disposal bags.

According to an embodiment of the present invention, in the method, the method further includes the following steps:

searching a garbage bag configuration vehicle which is nearest and available for configuring garbage based on position information of a demand environment;

the disposal bag deployment vehicle delivers the disposal bags to the pre-set environment.

According to an embodiment of the present invention, in the method, the method further includes the following steps:

searching whether a garbage bag station exists within a preset range from a demand environment; and

and if so, configuring the garbage bags to the garbage bag station.

According to an embodiment of the present invention, in the method, the method further includes the following steps:

searching whether a garbage bag station exists within a preset range from a demand environment;

if so, judging whether the garbage bags in the garbage bag station meet the requirements or not; and

if yes, a prompt message is sent out.

According to another aspect of the present invention, there is provided a disposal bag disposal system comprising:

a monitoring center; and

a configuration center, wherein the configuration center is communicatively connected to the monitoring center, the configuration center generates a disposal bag configuration scheme based on a disposal bag requirement environment information acquired by the monitoring center, and the configuration center configures the disposal bag based on the disposal bag configuration scheme.

According to an embodiment of the invention, the configuration center selects the time for configuring the garbage bags and configures the garbage bags based on the garbage bag usage status in the demand environment obtained by the monitoring center.

According to an embodiment of the present invention, the configuration center includes a policy generation unit and a configuration unit, wherein the configuration unit is communicably connected to the policy generation unit, the policy generation unit is communicably connected to the monitoring center, wherein the policy generation unit is configured to: generating a configuration policy based on a garbage bag consumption rate anticipating that a quantity of garbage bags in the demand environment is below a predetermined value, wherein the configuration unit executes the configuration policy.

According to an embodiment of the present invention, the policy generating unit includes a disposal bag configuration generating module and a configuration time generating module, wherein the configuration time generating module and the disposal bag configuration generating module are respectively communicably connected to the monitoring center, wherein the configuration time generating module generates a configuration time based on a usage state of the disposal bag, wherein the disposal bag configuration generating module generates a disposal bag configuration plan based on the usage state of the disposal bag, and the configuration time generating module and the disposal bag configuration generating module are respectively communicably connected to the configuration unit.

According to an embodiment of the invention, the disposal bag configuration module is configured to generate the disposal bag configuration scheme based on a history of disposal bag usage information of the demand environment.

According to an embodiment of the invention, the disposal bag configuration module is configured to generate the disposal bag configuration scheme based on a disposal bag identification information of the demand environment.

According to an embodiment of the invention, the deployment unit is a garbage bag deployment vehicle.

According to an embodiment of the present invention, the policy generating unit includes a configuration route generating module, wherein the configuration route generating module is respectively communicably connected to the monitoring center and the configuration unit, and the configuration route generating module obtains a position information of the demand environment based on the monitoring center and plans a configuration route based on a position information of the configuration unit, wherein the configuration unit performs the disposal bag configuration based on the configuration route.

According to an embodiment of the present invention, the policy generating unit includes a configuration pattern generating module, wherein the configuration pattern generating module is communicably connected to the configuration unit and the monitoring center, respectively, wherein the configuration pattern generating module searches for a nearest configuration unit based on a location information of the demand environment and generates a configuration pattern based on which the configuration unit performs configuration.

Drawings

FIG. 1 is a schematic view of a disposal bag disposal system according to a preferred embodiment of the present invention.

FIG. 2 is a schematic view of a disposal bag disposal system according to a preferred embodiment of the present invention.

FIG. 3 is a schematic diagram of a garbage bag arranging system according to a preferred embodiment of the present invention.

FIG. 4 is a schematic view of a disposal bag disposal system according to a preferred embodiment of the present invention.

FIG. 5 is a schematic view of a disposal bag disposal system according to a preferred embodiment of the present invention.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents, and other technical solutions without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings for ease of description and simplicity of description, and do not indicate or imply that the referenced devices or components must be in a particular orientation, constructed and operated in a particular orientation, and thus the above terms are not to be construed as limiting the present invention.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

Referring to fig. 1-3, a disposal bag deployment system 1000 in accordance with a preferred embodiment of the present invention is illustrated.

The trash bag disposal system 1000 is capable of disposing the trash bags 200 for a user and providing suitable trash bags 200 according to the user's personalized needs and the environment in which the user is located.

With the disposal bag deployment system 1000, when the disposal bag 200 is in short supply, a deployment requirement regarding the disposal bag 200 can be obtained through a cloud 100, and then the deployment requirement can be met by a disposal bag deployment vehicle 300 or a disposal bag station 400.

Specifically, the disposal bag deployment system 1000 includes a monitoring center 10, a deployment center 20, and a management center 30, wherein the deployment center 20 and the management center 30 are respectively communicatively connected to the monitoring center 10.

The monitoring center 10 is configured to obtain a usage status of the garbage bags 200, and the configuration center 20 selects a time for configuring the garbage bags 200 in the preset environment based on the real-time usage status of the garbage bags 200 obtained by the monitoring center 10. The management center 30 is used for managing the configuration center 20. The usage status of the trash bag 200 may include the size, type, color, material, quantity, consumption frequency, etc. of the trash bag 200.

The configuration center 20 generates a configuration plan for the trash bags based on the information obtained by the monitoring center 10.

The monitoring center 10 can be used to obtain not only the usage status of the trash bag 200, but also a status of the environment where the trash bag 200 is located. The configuration center 20 selects a timing for configuring the disposal bag 200 based on the status of the disposal bag 200, and the configuration center 20 generates at least one disposal bag configuration scheme based on the status of the disposal bag 200 and the status of the environment in which the disposal bag 200 is located. The disposal bag configuration scheme includes the number of the disposal bags 200, the type of the disposal bags 200, such as the size, thickness, color, texture, style, etc. of the disposal bags 200. The garbage bag 200 may be of a handle type or a drawstring type.

The monitoring center 10 can obtain the information of the environment where the garbage bag 200 is located through a detector or a communicator, such as the geographical location of the environment and the usage of the environment.

The monitoring center 10 can also obtain information about the environment where the garbage bag 200 is located through a preset information. For example, the user may preset the environment of the trash bag 200.

The scenario in which the trash bag 200 is used is important for later configuration of the trash bag 200. The type of trash bag 200 that needs to be configured will vary for different environments of use.

For example, after the monitoring center 10 obtains the information of the environment where the garbage bag 200 is located, the configuration center 20 analyzes the information of the environment where the garbage bag is located and obtains that the current usage environment is a hospital, and then the garbage bag 200 in the garbage bag configuration scheme generated by the configuration center 20 may be an antibacterial garbage bag 200 or a thicker garbage bag 200, so as to prevent medical wastes such as needles from puncturing the garbage bag 200.

When the environment in which the trash can 200 is monitored by the monitoring center 10 is a bank, the trash can 200 in the trash can configuration scheme generated by the configuration center 20 may need to be in an indirect and elegant style, because for the banking industry, there is a certain requirement for the shape of the trash can 200 to make the trash can 200 conform to the arrangement of the whole environment due to the needs of the industry image or the publicity of the customer group.

When the monitoring center 10 detects that the environment where the trash bag 200 is located is an office building, the type of the trash bag 200 in the trash bag configuration scheme generated by the configuration center 20 may be a light, thin and fashionable style.

When the monitoring center 10 detects that the environment where the trash bag 200 is located is in the home of the user, the style of the trash bag 200 in the trash bag configuration scheme generated by the configuration center 20 may be various and may be different based on different use environments.

Specifically, the monitoring center 10 can detect that the environment of the garbage bag 200 is the home of the user based on a position detector, and further, the monitoring center 10 can detect the usage status of the garbage bag 200 based on a detector, and when kitchen garbage frequently occurs in the garbage bag 200, the type of the garbage bag 200 in the garbage bag configuration scheme generated by the configuration center 20 can be the garbage bag 200 with a larger strength and a certain thickness so that the garbage bag 200 can be loaded with more kitchen garbage and prevent the sewage in the kitchen garbage from seeping out.

Further, when the disposal bag 200 is placed in a sanitary use, the type of the disposal bag 200 in the disposal bag configuration scheme generated by the configuration center 20 may be a black disposal bag having a certain thickness, which may prevent the inside of the disposal bag 200 from being observed on one hand and prevent the disposal bag 200 from being water-permeable on the other hand.

Further, when the disposal bag 200 is placed in a living room for use, the type of disposal bag 200 in the disposal bag configuration scheme generated by the configuration center 20 may be a disposal bag 200 having a larger volume. Further, based on the monitoring center 10 monitoring the usage status of the garbage bags 200, the configuration center 20 can determine the size of the garbage bags 200 based on the usage frequency of the garbage bags 200.

Further, the monitoring center 10 can monitor the disposal bags 200, so that the configuration center 20 configures the corresponding disposal bags 200 for the user in time in the subsequent steps.

Specifically, the garbage bags 200 are generally used by being sleeved in a corresponding garbage can, and the use state of the garbage bags 200 can be detected by arranging at least one monitor on the garbage can, wherein the use state of the garbage bags 200 comprises the use number and the use frequency of the garbage bags 200. For example, the monitor may detect that a trash can located in a living room is being replaced with one of the trash bags 200 every day.

Further, the monitoring center 10 includes an environmental garbage bag monitoring unit 11, wherein the environmental garbage bag monitoring unit 11 is configured to monitor a usage status of the garbage bag 200 and an environment where the garbage bag 200 is located. The environmental trash bag monitoring unit 11 is communicatively connected to the configuration center 20.

The environmental trash bag monitoring unit 11 may be integrated or partially integrated with the monitor, wherein the monitor may be disposed at or near the trash can to detect the usage status of the trash bag 200 in real time. The monitor can also be located near a storage location of the trash bag 200 to detect usage of the trash bag 200 and the environment in which the trash bag 200 is located.

The environmental garbage bag monitoring unit 11 may also be communicatively connected to the monitor. The configuration center 20 comprises a configuration unit 21 and a policy generation unit 22, wherein the policy generation unit 22 is communicatively connected to the configuration unit 21, and the policy generation unit 22 is communicatively connected to the environmental garbage bag monitoring unit 11 of the monitoring center 10.

The configuration unit 21 is configured to configure the trash bag 200 so that a user can conveniently obtain the trash bag 200 at a certain time. The policy generating unit 22 generates a policy based on the real-time usage status of the garbage bags 200 of the environmental garbage bag monitoring unit 11 of the monitoring center 10, and the configuration unit 21 provides the garbage bags 200 for the preset environment or the user based on the policy.

Specifically, the policy generating unit 22 includes a configuration policy generating module 221, wherein the configuration policy generating module 221 is communicably connected to the trash bag monitoring unit 11 of the monitoring center 10, and the configuration policy generating module 221 generates a configuration policy regarding the trash bags 200 based on the usage status information of the trash bags 200 in the preset environment detected by the trash bag monitoring unit 11 of the monitoring center 10. The configuration policy generation module 221 is communicatively connected to the configuration unit 21, wherein the configuration unit 21 provides the disposal bag 200 configuration service for the user or the preset environment based on the configuration policy generated by the configuration policy generation module 221.

The configuration policy generation module 221 further comprises a garbage bag configuration generation module 2211, a configuration time generation module 2212 and a configuration mode generation module 2213, wherein the garbage bag configuration generation module 2211, the configuration time generation module 2212 and the configuration mode generation module 2213 are respectively communicably connected to the configuration unit 21.

The disposal bag configuration generating module 2211 is used for generating information about the disposal bags 200 that need to be configured, such as the type information of the disposal bags 200 or the quantity information of the disposal bags 200. The configuration time generation module 2212 is configured to generate a time for configuring the garbage bag 200, so that the preset environment can replenish the garbage bag 200 in time. The configuration generation module 2213 is used for generating the configuration of the garbage bag 200.

The disposal bag 200 may be obtained by a variety of ways for the user, one way being to directly configure the disposal bag 200 at the home, a dedicated disposal bag 200 configuration personnel to directly configure the disposal bag 200 at a designated location, such as the pre-defined environment or other location where the disposal bag 200 is conveniently available to the user, such as a dedicated disposal bag station 400 for receiving the disposal bag 200, wherein the trash bag station 400 can be placed at the doorway of the intended environment, or near a public trash can for easy access by the user, one way is for the user to obtain the trash bag 200 at or near a facility dedicated to storing the trash bag 200, where the trash bag 200 storage site may be placed in the user's environment, and the configurator supplements the trash bags 200 at the trash bag 200 deposit point in time to enable them to meet demand.

The configuration generation module 2213 is communicatively connected to the monitoring center 10 to generate the configuration of the garbage bags 200 according to the information obtained by the monitoring center 10.

Further, the disposal bag arranging system 1 comprises a management center 30, wherein the management center 30 is communicably connected to the arrangement center 20, wherein the management center 30 is configured to manage the disposal bags 200, and more specifically, the management center 30 may manage a disposal bag arranging vehicle 300 for transporting the disposal bags 200, a disposal bag station 400 for storing the disposal bags 200, and a disposal bag 200 in the preset environment.

More specifically, the management center 30 includes a trash bag management unit 31, a trash bag arrangement vehicle management unit 32, a trash bag station management unit 33, and an inquiring unit 34, and the trash bag management unit 31, the trash bag arrangement vehicle management unit 32, and the trash bag station management unit 33 are communicably connected to the inquiring unit 34, respectively. By using the query unit 34, a real-time information and a history information of the trash bag management unit 31, a real-time information and a history information of the trash bag arrangement vehicle management unit 32, and a real-time information and a history information of the trash bag station management unit 33 can be queried.

The trash bag management unit 31, the trash bag-configuring-vehicle management unit 32, and the trash bag station management unit 33 are communicably connected to the configuration center 20, respectively, and the configuration center 20 generates a configuration policy based on a management information of the management center 30 and a monitoring information of the monitoring center 10.

Further, the monitoring center 10 includes a trash bag station monitoring unit 14, wherein the trash bag station monitoring unit 14 is configured to monitor a status of each trash bag station 400, such as the number and the type of the trash bags 200 stored therein.

The trash bag station monitoring unit 14 is communicably connected to the configuration policy generation module 221 of the policy generation unit 22 of the management center 30 and the configuration center 20, respectively.

For example, when the disposal bag monitoring unit 11 of the monitoring center 10 detects that the usage frequency of the disposal bags 200 in the kitchen is one day, the configuration time generation module 2212 obtains the usage status of the disposal bags 200 based on the disposal bag monitoring unit 11 of the monitoring center 10, for example, the number of the available disposal bags 200 is lower than a preset value, the configuration time generation module 2212 generates a configuration time, for example, the disposal bags 200 are selected to be configured for the user on a certain day, and the configuration mode generation module 2213 generates the configuration mode based on the disposal bag monitoring unit 11 of the monitoring center 10 obtaining the usage status information of the disposal bags 200 and based on the available disposal bag 200 information of the management center 30.

The arrangement mode generation module 2213 is communicably connected to the disposal bag arrangement generation module 2211, the arrangement timing generation module 2212, and the monitoring center 10 and the management center 30.

Specifically, the disposal method generating module 2213 generates disposal bags 200 to be disposed based on the disposal bag disposition generating module 2211 and the timing of selecting disposition based on the disposition timing generating module 2212, it is possible to determine whether the disposal bag station 400 can provide the disposal bags 200 of the kind required by the user within a specified time or not in the vicinity based on the environmental disposal bag monitoring unit 11 of the monitoring center 10 and the disposal bag managing unit 31 of the management center 30, if so, the configuration of the disposal bag 200 generated by the configuration generation module 2213 is based on the configuration of the nearby disposal bag station 400, for example, the distribution personnel can obtain the disposal bag 200 at the disposal bag station 400, the trash bags 200 are then distributed to the user, or the user may be directed to the trash bag station 400 to primarily obtain the trash bags 200. For user convenience, the waste bag station 400 may be located in a readily available location, such as near a public trash receptacle of a community, or downstairs of an office building. If there is no currently available disposal bag 200 that can satisfy the environment in the vicinity of the preset environment, the disposal bag 200 configuration generated by the configuration generation module 2213 is based on the configuration delivered by the delivery personnel.

Further, the disposal bag configuration generating module 2211 of the configuration policy generating module 221 of the policy generating unit 22 of the configuration center 20 is communicably connected to the management center 30 and the monitoring center 10. The disposal bag configuration generating module 2211 determines the type of the disposal bag 200 that needs to be configured based on the management information of the management center 30 about the disposal bag 200 and the use state information of the monitoring center 10 about the disposal bag 200.

Further, the management center 30 includes a user management unit 35, wherein the user management unit 35 is communicably connected to the configuration center 20, and the user management unit 35 is stored with a history information about the user, such as a usage preference for the trash bags 200, a usage frequency of the trash bags 200, and the like.

For example, a plurality of the disposal bags 200 are installed in the home of the user, wherein a disposal bag 200 is installed in the kitchen, a disposal bag 200 is installed in the toilet, a disposal bag 200 is installed in the living room, based on the data obtained by the disposal bag monitoring unit 11 of the monitoring center 10, when the disposal bag 200 needs to be configured for the user, the disposal bag configuration generating module 2211 obtains a historical configuration information about the user based on the user management unit 35 of the management center 30, and generates the disposal bag 200 information about the configuration need based on the historical configuration record.

Further, when the garbage bags 200 in the kitchen of the user's home need to be distributed, and the information stored in the user management unit 35 is that the size of the garbage bags 200 in the kitchen of the user's home is L-shaped portable garbage bags 200, based on the history data of the user management unit 35, the configuration center 20 will provide the garbage bags 200 with the corresponding type when providing the configuration service of the garbage bags 200.

More specifically, a waste bag deployment vehicle 300 is used to deploy a waste bag 200 to a user, wherein the waste bag deployment vehicle 300 is communicatively coupled to the waste bag deployment vehicle management unit 32, and wherein the waste bag deployment vehicle 300 is capable of delivering the waste bag 200 to the user.

Further, the user management unit 35 may also receive an instruction from a user, for example, when the configuration center 20 generates the disposal bag configuration scheme based on the information detected by the monitoring center 10, the disposal bag configuration scheme can be provided to the user, and the disposal bag configuration scheme is confirmed based on a confirmation information of the user.

The policy generation unit 22 of the configuration center 20 may further include a configuration route generation module 2214, wherein the configuration route generation module 2214 is communicatively connected to the trash bag 200 configuration vehicle monitoring unit 13, wherein the trash bag configuration vehicle monitoring unit 13 is communicatively connected to the trash bag configuration vehicle 300, and the trash bag configuration vehicle monitoring unit 13 is configured to obtain information about the trash bag configuration vehicle 300, such as location information of the trash bag configuration vehicle 300, information of the loaded trash bags 200 of the trash bag configuration vehicle 300, and the like.

The deployment route generation module 2214 is communicatively connected to the trash bag monitoring unit 11, and generates a deployment route by obtaining position information based on the trash bag monitoring unit 11 and the trash bag deployment vehicle monitoring unit 13, respectively.

That is, in the preset environment where the trash bag 200 is in short supply or is about to be in short supply, the configuration center can configure the trash bag 200 in time to avoid situations where no trash bag 200 is available.

Further, the number of the disposal bag arranging vehicles 300 that can provide disposal bags 200 arrangement may be plural for the same preset environment, and the arrangement generating module is communicably connected to the disposal bag monitoring unit 11 and the disposal bag arranging vehicle monitoring unit 13 of the monitoring center, respectively, wherein the arrangement generating module searches the disposal bag arranging vehicle 300 of the available disposal bag 200 closest to the preset environment around the preset environment based on the position information on the preset environment obtained by the disposal bag monitoring unit 11 and the position information on the disposal bag arranging vehicle 300 obtained by the disposal bag arranging vehicle 300. The configuration unit 21 of the configuration center 20 configures the disposal bag 200 based on a configuration manner generated by the configuration manner generation module.

For example, there are a plurality of disposal bag deployment vehicles 300 in the vicinity of a predetermined environment a, based on the disposal bag 200 configuration information of the disposal bag configuration generation module 2211, only one disposal bag deployment vehicle 300 may be loaded with the disposal bag 200 required by the user within a predetermined range, for example, within 5 km, and can be in a service state, so as to provide disposal bag 200 configuration service for the user. In this manner, the user can obtain the trash bag 200 in a shorter amount of time.

According to another aspect of the present invention, there is provided a method of configuring the trash bag 200, wherein the method comprises the steps of:

acquiring the environment information required by a garbage bag;

generating the garbage bag configuration scheme according to the garbage bag demand environment information;

confirming the disposal bag configuration scheme; and

configuring the garbage bags based on the garbage bag configuration scheme.

Further, the garbage bag demand environment information may include the garbage bag use state information and the environment information where the garbage bag is located. With such a disposal bag configuration, the user does not need to manually screen the data items of the disposal bag 200 one by one. The trash bag configuration system 1 is capable of automatically generating the trash bag configuration scheme for selection by a user and automatically completing the distribution of the trash bags 200 based on the trash bag configuration scheme selected by the user.

According to another aspect of the present invention, there is provided a method of configuring the trash bag 200, wherein the method comprises the steps of:

obtaining the use state information of the garbage bag 200 in a demand environment; and

selecting the time for configuring the garbage bag 200 for the demand environment according to the garbage bag 200 use state information and configuring the garbage bag 200.

It is understood that the demand environment may be a user's home, office or other location within a certain range, and the demand environment may be detected or monitored by a detector or a camera. The garbage bag 200 usage status information may include the garbage bag 200 usage amount information and the garbage bag 200 usage frequency information. Based on the usage status information of the trash bags 200, the remaining number of the trash bags 200 or the time until the trash bags 200 are depleted can be expected to facilitate timely refilling of the trash bags 200 in subsequent steps. The timing for arranging the disposal bag 200 may be selected based on the usage state of the disposal bag 200, or the timing for arranging the disposal bag 200 may be selected based on the state of the disposal bag arranging vehicle 300.

For example, when the demand environment needs to be configured with the trash bags 200, the trash bag configuration vehicle 300 does not exist near the demand environment, and the configuration unit 21 provides the user with the trash bag 200 configuration service by manually distributing the trash bags 200.

According to other embodiments of the present invention, in the method, the number of the garbage bags 200 in the demand environment is lower than a preset value, and the garbage bags 200 are configured through the configuration unit 21. The configuration unit 21 may be the disposal bag configuration vehicle 300, or may be manually configured.

According to other embodiments of the present invention, in the method, the number of bags 200 in the demand environment is expected to be lower than a predetermined value based on the consumption rate of the bags 200, and the bags 200 are configured by the configuration unit 21. For example, the frequency of the consumption of the garbage bags 200 in the predetermined environment can be detected by a detector arranged beside the household garbage can or beside the public garbage can, so that the garbage bag 200 consumption rate can be obtained by a processor, for example, two garbage bags 200 are consumed in one day, then in case of 10 garbage bags 200, the garbage bags 200 are about to be used up after 5 days, and the configuration unit 21 configures the garbage bags 200 in time.

According to further embodiments of the present invention, in the above method, the disposal bag 200 is configured via the configuration unit 21 based on a user instruction. That is, the disposal bag configuration system 1000 may actively configure the disposal bag 200 for the user, or the user may actively give an instruction and the configuration unit 21 configures the disposal bag 200 based on the user instruction. For example, if the user actively finds that the number of the trash bags 200 is low and wants to be supplemented with the trash bags 200 during the usage of the trash bags 200, the user can place an order in the corresponding interface through a smart device such as a mobile phone. The trash bag configuration system 1000, upon receiving the user instruction, proactively configures the trash bag 200 for the user based on the user instruction.

The user can select the number, type, price, brand, delivery time or delivery address of the trash bags 200 required in the process of sending the instruction.

It is noted that based on the historical information about the user stored by the user management unit 35, such as the usage information of the trash bags 200 corresponding to the user, the type information of the trash bags 200 used, the price information, the brand information, the specification information, the delivery information or the delivery address, the user can send an order command to the trash bag arranging system 1000 to complete the one-touch ordering.

It is noted that the user may not need to input the type of the trash bag 200 during the process of issuing the instruction, and the trash bag configuration system 1000 can detect or obtain the type and the specification of the trash bag 200 corresponding to the user instruction so that the user does not need to make a selection again.

Further, the disposal bag 200 configuring method further includes the following steps:

acquiring use environment information of the garbage bag 200, and judging the type of the garbage bag 200 according to the use environment information; and

the trash bag 200 is configured in a subsequent process based on the type of the trash bag 200.

For example, a sensor, such as an optical sensor, disposed on the garbage can detects the usage environment of the garbage bag 200, and the processor analyzes and judges the usage environment of the garbage bag 200 according to the detection result of the optical sensor, so that when the usage environment of the garbage bag 200 is determined, the type and specification of the garbage bag 200 can be deduced according to the usage environment, such as a certain thickness of the garbage bag 200 used in a kitchen, to prevent kitchen waste from seeping out of the garbage bag 200.

Further, the method for disposing the garbage bag 200 further includes the following steps:

acquiring historical information of the environment where the garbage bag 200 is located, and acquiring the type of the garbage bag 200 according to the historical information; and

the trash bag 200 is configured in a subsequent process based on the type of the trash bag 200.

For example, the configuration unit 21 may determine the type of the disposal bag 200 based on the information of the disposal bag 200 stored in the disposal bag managing unit 31 and the history information corresponding to the disposal bag 200, and matching the disposal bag 200 based on the requirement environment of the disposal bag 200 and the history information.

Further, the method for disposing the garbage bag 200 further includes the following steps:

identifying a trash bag 200 type in the demand environment; and

the trash bag 200 is configured in a subsequent process based on the type of the trash bag 200.

The type of the garbage bag 200 may include, but is not limited to, information such as the type, size, and color of the garbage bag 200, for example, a large black garbage bag 200 when the garbage bag is handled.

For example, the disposal bag configuration generating module 2211 of the policy generating unit 22 can identify the disposal bag 200 and generate a disposal bag 200 type configuration policy based on the information about the disposal bag 200 obtained by the environmental disposal bag monitoring unit 11.

Further, the method for disposing the garbage bag 200 further includes the following steps:

generating a configuration route based on a location information of the demand environment and a location information of a trash bag configuration vehicle 300; and

the trash bag deployment vehicle 300 follows the deployment route to dispense the trash bags 200.

For example, when the trash bag deployment vehicle 300 is determined to deploy the trash bags 200 for the demand environment, the deployment route is generated based on the location information of the demand environment and the location information of the trash bag deployment vehicle 300, such that the trash bag deployment vehicle 300 may reach the demand environment or the vicinity of the demand environment along the deployment route to facilitate subsequent deployment. It is understood that the configured route may be generated based on the shortest time delivery route, or the shortest route delivery route, or the configuration of the trash bags 200 for a plurality of different demanding environments may be required by a trash bag 200 configuration vehicle, so that the configured route may be planned based on the highest efficiency. The configuration route can also be combined with the current road condition information to reduce the distribution time and improve the user experience.

Further, the method for disposing the garbage bag 200 further includes the following steps:

searching for the trash bag arranging vehicle 300 that is nearest to arrange the trash bag 200 based on the location information of the demanding environment; and

the waste bag deployment vehicle 300 dispenses the waste bags 200 to the demanding environment.

For example, when a plurality of the disposal bag deployment vehicles 300 are located around the demand environment and each disposal bag deployment vehicle 300 can provide disposal bag 200 deployment services, then selecting the nearest disposal bag deployment vehicle 300 is beneficial to the user in reducing the time required for the overall deployment process. Of course, it can be understood that the user can also query the disposal bag configuration vehicle 300 through the query module according to his/her needs, and then select the disposal bag configuration vehicle 300.

The steps further include the steps of:

searching for the trash bag configuration vehicle 300 within a distance from the demand environment based on the location of the demand environment;

determining whether the searched disposal bag 200 in the disposal bag configuration vehicle 300 meets the requirement; and

determining the disposal bag deployment vehicle 300 that is closest to the demanding environment and available for deploying a disposal bag 200.

Further, the disposal bag 200 configuring method further includes the following steps:

searching whether a garbage bag station 400 exists within the preset range from the requirement environment; and

if so, the trash bag 200 is deployed to the trash bag station 400.

Illustratively, the trash bag station 400 is configured to store the trash bags 200, and the trash bag station 400 may be located in a public area, where users may pass through the trash bag station 400 and obtain the trash bags 200 from the trash bag station 400 on their way to work or on their way to and from home.

In the case where the garbage bags 200 need to be replenished in the demand environment, the configuration unit 21 may distribute the garbage bags 200 to the garbage bag station 400 for the user to take according to his/her own demand. The waste bag station 400 may be positioned beside a common waste bin to notice the waste bags 200 while conveniently obtaining the waste bags 200 within the waste bag station 400 when the user disposes of waste.

Further, the disposal bag 200 configuring method further includes the following steps:

searching whether a garbage bag station 400 exists within a preset range from the demand environment;

if so, judging whether the garbage bags 200 in the garbage bag station 400 meet the requirements or not; and

if yes, a prompt message is sent out.

For example, the disposal bag station 400 may exist within a certain distance, for example, 10 meters, from the environment in need, and the preset range may be set according to need, and whether the disposal bag station 400 exists within the preset range from the environment in need is searched. When the disposal bag station 400 exists, the disposal bag 200 currently existing in the disposal bag station 400 can be analyzed according to the data obtained by the disposal bag station monitoring unit 14 to determine whether the disposal bag 200 meets the configuration requirement of the requirement environment.

If a determination is made that the bags 200 present in the bag house 400 are capable of meeting the user's needs, then the bags 200 may be retrieved directly from the bag house 400 to the user. The trash bag configuration system 1000 can send the prompt to prompt the user to the trash bag station 400 to obtain the trash bag 200. For example, the trash bag station 400 can automatically send the prompting message to a mobile phone of the user or other intelligent devices, such as a bracelet, to prompt the user that the trash bag 200 is available in the trash bag station 400.

According to another aspect of the present invention, the present invention provides a disposal bag disposing system 1000, wherein the disposal bag disposing system 1000 comprises the monitor 500, the processor 600 and at least one disposal bag disposing vehicle 300, wherein the monitor 500 is disposed in the demanding environment to monitor the usage status of the disposal bag 200 in the demanding environment, wherein the monitor 500 is communicably connected to the disposal bag disposing vehicle 300, the processor 600 selects the disposition time of the disposal bag 200 based on the usage status information of the disposal bag 200 in the demanding environment obtained by the monitor 500 and sends an instruction to the disposal bag disposing vehicle 300, and the disposal bag disposing vehicle 300 disposes the disposal bag 200 for the demanding environment.

The disposal bag deployment system 1000 further comprises a disposal bag station 400, wherein the disposal bag station 400 is communicatively connected to the processor 600, and the disposal bag deployment vehicle 300 deploys the disposal bags 200 to the disposal bag station 400 based on instructions from the processor 600.

The disposal bag deployment system 1000 further comprises at least one disposal bag deployment vehicle 300, wherein the disposal bag deployment vehicle 300 comprises a vehicle body 301, a vehicle communicator 302 and a vehicle processor 303, wherein the vehicle processor 303 and the vehicle communicator 302 are respectively disposed on the vehicle body 301, and the vehicle processor 303 is communicatively connected to the processor 600 through the vehicle communicator 302.

The trash bag deployment vehicle 300 further includes a vehicle monitor 304, wherein the vehicle monitor 304 is communicatively coupled to the vehicle processor 303, the vehicle body 301 has a vehicle receiving cavity 3010, and the vehicle monitor 304 is configured to monitor the trash bag 200 placed in the vehicle receiving cavity 3010.

The disposal bag disposal vehicle 300 further comprises a vehicle alarm 305, wherein the vehicle alarm 305 is disposed on the vehicle body 301 and is communicably connected to the vehicle processor 303, and the vehicle alarm 305 issues an alarm when the number of the disposal bags 200 of the disposal bag disposal vehicle 300 is below a predetermined vertical level.

Referring to fig. 4, according to another aspect of the present invention, the present invention provides the trash bag station 400, wherein the trash bag station 400 comprises a trash bag storage box 401, a trash bag station processor 402, and a trash bag station memory 403, wherein the trash bag storage box 401 is used for storing the trash bags 200, and wherein the trash bag station processor 402 and the trash bag station memory 403 are respectively disposed in the trash bag storage box 401. The trash bag station memory 403 and the trash bag station processor 402 are communicatively coupled to each other.

It is understood that the number of the garbage bag station processors 402 may be plural and the kinds may be inconsistent, and the garbage bag station processors 402 may be a separate working unit or may be an integrated working unit that is separately integrated at various locations. The number of the trash bag station storages 403 may be plural and the kinds may be inconsistent, and the trash bag station storages 403 may be an independent work unit, and may be integrated work units that are respectively integrated at various locations.

The garbage bag storing box 401 comprises a garbage bag storing box body 4011, a switch 4012 and a storage chamber 4010 and an opening 40110, wherein the opening 40110 is formed on the garbage bag storing box body 4011, and the opening 40110 can communicate with the outside and the storage chamber 4010.

The switch 4012 is provided in the vicinity of the position of the opening 40110 of the trash receptacle body 4011, and the switch 4012 is used to control the opening and closing of the opening 40110 of the trash receptacle 401.

The waste bag storage box 401 may further comprise a plurality of compartments 4013, wherein the waste bags 200 are accommodated in different compartments 4013, each compartment 4013 being respectively penetratingly connected to the opening 40110. Different compartments 4013 can accommodate different bags 200, thereby allowing the targeted bags 200 to be obtained by controlling the communication between compartments 4013 and openings 40110.

The waste bag station 400 further comprises a communication module 404, wherein the waste bag station memory 403 and the waste bag station processor 402 are each communicatively coupled to the communication module 404, the communication module 404 being configured to communicate with the outside world. The communication assembly 404 may be configured to facilitate limited or wireless communication with external electronic devices or devices within the trash bag station 400. The trash bag 200 can be accessed to a wireless network based on communication standards, such as WIFI, 2G or 3G, or a combination thereof. In one embodiment, the trash bag station 400 may include a SIM card slot for inserting a SIM card so that the electronic device may log into a GPRS network, establishing communication with a server via the internet.

The trash bag storage bin 401 further includes an identification component 405, wherein the identification component 405 includes a trash bag 200 identification 4051 and a user identification 4052, wherein the trash bag 200 identification 4051 and the user identification 4052 are communicatively coupled to the trash bag station processor 402 and the trash bag station memory 403, respectively.

The bag storage bin 401 further comprises a power supply component 406, wherein the bag station memory 403, the bag station processor 402, the communication component 404 and the identification component 405 are each operably connected to the power supply component 406.

The trash bag storage bin 401 further comprises an interaction component 407, wherein the interaction component 407 is communicatively coupled to the trash bag station processor 402 and the trash bag station memory 403. The interactive component 407 may include a display screen that provides an output interface between a user and the trash bag station 400. In some embodiments of the present invention, the display screen may also be implemented as a touch screen to receive input signals from a user. The touch screen includes one or more touch sensors to sense touch, slide, and gesture or input on the touch panel. The touch sensor may not only sense the boundary of a touch or slide action, but also detect the duration and pressure associated with the touch or slide operation. When the recognition component 405 recognizes that the distance between the user and the interaction component 407 is within a certain range, the interaction component 407 pushes to the user.

The identification 4051 of the identification component 405 includes one or more sensors for real-time monitoring of the trash bags 200 in the station 400, such as the location of the trash bag 200 and the type of the trash bag 200 at the corresponding location. The trash bag 200 identifier 4051 may include a camera, a scanner, or other detection device to identify the trash bag 200.

The user identifier 4052 can include one or more sensors for identifying the identity of a user in proximity to the trash bag station 400, and the user identifier 4052 can be an active or a passive identification device. Specifically, the user identifier 4052 may actively identify the user within the detection range. The user identifier 4052 may be a camera, an infrared detector, or other device capable of obtaining user characteristic information. The user identifier 4052 may also passively identify user characteristic information, for example, the user may present a two-dimensional code to the user identifier 4052, and the user identifier 4052 may be a scanner. The user identification part 4052 may also be a touch screen, and the user may directly input the characteristic information on the touch screen so that the user can be identified.

When a user needs to refill the garbage bags 200 from the garbage bag station 400, the garbage bag station 400 firstly identifies the identity of the user, and after the identification is completed, the garbage bag station 400 provides the corresponding garbage bags 200 from the opening 40110, so that the user can obtain the needed garbage bags 200.

It is understood that the user may select the disposal bags 200 provided by the disposal bag station 400, then confirm the type of the disposal bag 200 required, and then obtain the disposal bags 200 after completing the corresponding operations, such as identification or payment.

Specifically, for the trash bag station 400, the identification component 405 identifies a user near the trash bag station 400, or the user actively inputs an identity information through the interaction component 407, the trash bag station processor 402 processes the identification result of the identification component 405 or the information received by the interaction component 407 to generate a processing result, the switch 4012 is controllably connected to the trash bag station processor 402, and after the identity of the user is identified, the switch 4012 is operated to open the opening 40110, so that the corresponding trash bag 200 falls out of the opening 40110 to enable the user to obtain the trash bag 200. If the user's identity does not match or the user enters incorrect information, the opening 40110 is not exposed and the user cannot access the trash bag 200.

Further, a user can purchase the trash bags 200 in the trash bag station 400 on demand, the trash bag station 400 further comprising a payment component 408, wherein the payment component 408 is communicatively coupled to the trash bag station processor 402. The payment component 408 can be implemented as a card reader and an input device, and the user can first select the type of the trash bag 200 through the interaction component 407, then place the bank card in the card reader, and then input the corresponding password to pay. The trash bag station processor 402 controls the opening 40110 to be opened through the switch 4012 after receiving the payment information of the user, so that the user can obtain the purchased trash bag 200.

The payment component 408 can be implemented as a touch screen, and the user can purchase the designated trash bag 200 after the payment component 408 completes the corresponding payment process.

Referring to fig. 5 and to fig. 1-3, another application of the disposal bag deployment system 1000 in accordance with the present invention is illustrated.

In this example, the disposal bag station 400 is present near the demand environment, and then based on a monitoring result of the disposal bag station monitoring unit 14, it is found that the disposal bag 200 of the type is not needed in the disposal bag station 400 or the number of the disposal bags 200 existing in the disposal bag station 400 cannot meet the current demand.

The policy generation unit 2222 generates a configuration policy based on the information obtained by the environmental disposal bag monitoring unit 1111 and the disposal bag station monitoring unit 14, the disposal bag configuration vehicle 300 configures the disposal bag 200 towards the disposal bag station 400 to enable the user to obtain the disposal bag 200 from the disposal bag station 400.

It is worth mentioning that the waste bag station 400 can be placed downstairs in the community where the user is located or downstairs in the unit, so that the user can conveniently obtain the waste bags 200 from the waste bag station 400 during downstairs.

It will be appreciated by persons skilled in the art that the embodiments of the invention described above and shown in the drawings are given by way of example only and are not limiting of the invention. The objects of the invention have been fully and effectively accomplished. The functional and structural principles of the present invention have been shown and described in the examples, and any variations or modifications of the embodiments of the present invention may be made without departing from the principles.

Claims (20)

1. A disposal bag deployment method, comprising the steps of:

acquiring the environment information required by a garbage bag;

generating at least one garbage bag configuration scheme according to the garbage bag demand environment information; and

and configuring the garbage bags based on the garbage bag configuration scheme.

2. The trash bag arrangement method of claim 1, wherein the trash bag demand environment information is selected from one or more of combined trash bag location environment information and trash bag usage status information.

3. The trash bag arrangement method of claim 2, wherein the trash bag arrangement method further comprises the steps of:

providing the disposal bag configuration scheme for selection by a user; and

confirming the disposal bag configuration scheme based on the user's selection.

4. A disposal bag disposal method as recited in any one of claims 1 to 3, wherein the disposal bag disposal method further comprises the steps of:

selecting the time for configuring the garbage bags based on the real-time environment information of the garbage bag demand, and configuring the garbage bags at the time.

5. The method of claim 4, wherein in the method, the bags are deployed when the number of bags in a demand environment is below a predetermined value.

6. The trash bag disposal method of claim 4, wherein in said method, the trash bags are disposed when the number of trash bags is predicted to be lower than a predetermined value based on a rate of trash bag consumption.

7. The trash bag arrangement method of claim 4 wherein in said method, the trash bags are arranged based on a user command.

8. The trash bag deployment method of claim 4, wherein in said method further comprising the steps of:

generating a configuration route based on a location information of a demand environment and a location information of a trash bag configuration vehicle; and

the disposal bag deployment vehicle follows the deployment route to dispense the disposal bags.

9. The trash bag deployment method of claim 4, wherein in said method further comprising the steps of:

searching a garbage bag configuration vehicle which is nearest and available for configuring garbage based on position information of a demand environment;

the disposal bag deployment vehicle delivers the disposal bags to the pre-set environment.

10. The trash bag deployment method of claim 4, wherein in said method further comprising the steps of:

searching whether a garbage bag station exists within a preset range from a demand environment; and

and if so, configuring the garbage bags to the garbage bag station.

11. The trash bag deployment method of claim 4, wherein in said method further comprising the steps of:

searching whether a garbage bag station exists within a preset range from a demand environment;

if so, judging whether the garbage bags in the garbage bag station meet the requirements or not; and

if yes, a prompt message is sent out.

12. A disposal bag deployment system, comprising:

a monitoring center; and

a configuration center, wherein the configuration center is communicatively connected to the monitoring center, the configuration center generates a disposal bag configuration scheme based on a disposal bag requirement environment information acquired by the monitoring center, and the configuration center configures the disposal bag based on the disposal bag configuration scheme.

13. The trash bag deployment system of claim 12 wherein the deployment center selects the timing of the disposal of the trash bags and deploys the trash bags based on the monitoring center obtaining a state of trash bag usage within a demand environment.

14. The trash bag deployment system of claim 12 or 13, wherein the deployment center comprises a policy generation unit and a deployment unit, wherein the deployment unit is communicatively coupled to the policy generation unit, the policy generation unit being communicatively coupled to the monitoring center, wherein the policy generation unit is configured to: generating a configuration policy based on a garbage bag consumption rate anticipating that a quantity of garbage bags in the demand environment is below a predetermined value, wherein the configuration unit executes the configuration policy.

15. The disposal bag deployment system of claim 14, wherein said policy generation unit comprises a disposal bag deployment generation module and a deployment time generation module, wherein said deployment time generation module and said disposal bag deployment generation module are respectively communicably connected to said monitoring center, wherein said deployment time generation module generates a deployment time based on a usage status of said disposal bag, wherein said disposal bag deployment generation module generates a disposal bag deployment plan based on said usage status of said disposal bag, and said deployment time generation module and said disposal bag deployment generation module are respectively communicably connected to said deployment unit.

16. The trash bag configuration system of claim 15, wherein the trash bag configuration module is configured to generate the trash bag configuration scheme based on a historical trash bag usage information of the demand environment.

17. The trash bag configuration system of claim 15, wherein the trash bag configuration module is configured to generate the trash bag configuration scheme based on a trash bag identification of the demand environment.

18. The trash bag deployment system of claim 13 or 14 wherein the deployment unit is a trash bag deployment vehicle.

19. The trash bag deployment system of claim 14 wherein the policy generation unit comprises a deployment route generation module, wherein the deployment route generation module is communicatively coupled to the monitoring center and the deployment unit, respectively, the deployment route generation module obtains a location information of the demand environment based on the monitoring center and plans a deployment route based on a location information of the deployment unit, wherein the deployment unit deploys the trash bags based on the deployment route.

20. The disposal bag deployment system of claim 14, wherein said policy generation unit comprises a deployment pattern generation module, wherein said deployment pattern generation module is communicably connected to said deployment unit and said monitoring center, respectively, wherein said deployment pattern generation module searches for a nearest said deployment unit based on a location information of said demand environment and generates a deployment pattern based on which said deployment unit is deployed.

Images