KR20240146707A - SHORT DISTANCE LOGISTIC DELIVERY SYSTEM USING IoT TECHNOLOGY - Google Patents

Abstract

The present invention is a short-distance logistics delivery system, which comprises a short-distance delivery means (30) that receives an IoT delivery box (40) delivered by a delivery vehicle and delivers the IoT delivery box (40) to the purchaser by an electrically-powered transport means, a delivery management unit (20) that receives information from an IoT sensor installed in the IoT delivery box (40) and transmits information on the IoT delivery box (40) being delivered to a remote location while charging the battery when the short-distance delivery means (30) is not in operation, and an integrated management server (50) that receives information on the IoT delivery box (40) transmitted from the delivery management unit (20) and transmits product information via the purchaser's smartphone, and the IoT delivery box (40) comprises a high-voltage generation unit (46) that generates a high voltage to form an electric field by applying a high voltage of several thousand volts inside the IoT delivery box (40) to prevent airborne spoilage bacteria from attaching to food ingredients being delivered and maintain the freshness of the food ingredients, The anti-spoilage unit (45) is configured with a plate (47) that induces ions inside the IoT delivery box (40) to not attach to food ingredients inside the IoT delivery box (40) by the electric field formed by the high voltage generator (46) through the law of electromagnetic induction, and a UV sterilization unit (48) that has a UV LED installed inside to sterilize spoilage bacteria inside the IoT delivery box (40) by ultraviolet wavelengths, so that the location of the product being delivered and the delivery status of the product can be provided to the purchaser in real time. In addition, by providing for the use of an electric-driven delivery means for short-distance delivery, free entry and exit to the apartment can be prevented, and by using an electric-driven delivery means for delivery, there is the effect of enabling fast and environmentally friendly delivery.

Description

{SHORT DISTANCE LOGISTIC DELIVERY SYSTEM USING IoT TECHNOLOGY} that prevents microbial growth inside delivery boxes

The present invention relates to a short-distance logistics delivery system using IoT technology.

In general, there may be a difference between the estimated delivery time from the delivery terminal to the delivery destination and the actual delivery time due to factors such as the type of logistics, traffic complexity in the delivery area, road slope, and road conditions due to weather.

Recently, the demand for delivery services has increased, and systems have become more sophisticated. It is becoming more important to improve the quality of delivery services and manage delivery quality uniformly in line with the times.

Buyers want to receive real-time information on the location and status of products being delivered, and there is a need to develop a logistics system that can provide tailored information.

Publication of Patent Publication No. 10-2019-0100492, 'IoT-based Logistics Delivery Method'

Accordingly, the purpose of the present invention is to provide a short-distance logistics delivery system using IoT technology that prevents microbial growth inside a delivery box while enabling delivery using an electric bicycle for short-distance delivery while providing the purchaser with real-time location information of a product being delivered and the delivery status of the product.

It also provides a logistics delivery system that can prevent spoilage of food products during delivery.

According to the above purpose, the present invention is composed of a short-distance logistics delivery system, a short-distance delivery means (30) that receives an IoT delivery box (40) delivered by a delivery vehicle and delivers the IoT delivery box (40) to the buyer by an electrically-powered transportation means, a delivery management unit (20) that receives information from an IoT sensor installed in the IoT delivery box (40) and transmits information on the IoT delivery box (40) being delivered to a remote location while allowing the battery to be charged when the short-distance delivery means (30) is not in operation, and an integrated management server (50) that receives information on the IoT delivery box (40) transmitted from the delivery management unit (20) and transmits product information via the buyer's smartphone, and the IoT delivery box (40) is configured to generate a high voltage to prevent airborne spoilage bacteria from attaching to food ingredients being delivered, thereby maintaining the freshness of the food ingredients, and a high voltage generation unit (46) that applies a high voltage of several thousand volts to form an electric field inside the IoT delivery box (40) to prevent the food ingredients being delivered from being spoiled by airborne bacteria, and It is characterized by comprising a spoilage prevention unit (45) comprising an electrode plate (47) that induces ions inside the IoT delivery box (40) to not attach to food materials inside the IoT delivery box (40) by the law of electromagnetic induction due to an electric field formed by a high voltage generator (46), and an ultraviolet sterilization unit (48) that is installed inside to sterilize spoilage bacteria inside the IoT delivery box (40) by ultraviolet wavelengths with a UV LED installed therein.

The present invention has the effect of providing the purchaser with real-time information on the location of a product being delivered and the delivery status of the product, and by providing for the use of an electric delivery means for short-distance delivery, it is possible to freely enter and exit an apartment and prevent safety accidents resulting therefrom, and by delivering using an electric delivery means, it has the effect of enabling environmentally friendly and fast delivery.

Figure 1 is a configuration diagram explaining a short-distance logistics delivery system using IoT technology according to an embodiment of the present invention.
Figure 2 is a block diagram schematically explaining the configuration of Figure 1.
Figure 3 is a detailed configuration diagram of a delivery management unit according to an embodiment of the present invention.
Figure 4 is a detailed configuration diagram of an IoT delivery box according to an embodiment of the present invention.
Figure 5 is a drawing illustrating the configuration of the anti-corruption unit of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the attached drawings.

FIG. 1 is a drawing explaining the overall configuration of a short-distance logistics delivery system using IoT technology according to an embodiment of the present invention, and FIG. 2 is a block diagram schematically illustrating the same.

The short-distance logistics delivery system using IoT technology of the present invention comprises a short-distance delivery means (30) that receives an IoT delivery box (40) delivered by a delivery vehicle and delivers the IoT delivery box (40) to the buyer by an electrically-powered transport means, a delivery management unit (20) that receives information from an IoT sensor installed in the IoT delivery box (40) and transmits information on the IoT delivery box (40) being delivered to a remote location while allowing the battery to be charged when the short-distance delivery means (30) is not in operation, and an integrated management server (50) that receives information on the IoT delivery box (40) transmitted by the delivery management unit (20) and transmits product information via a wireless terminal (60) such as a smartphone of the buyer.

As an embodiment of the present invention, the short-distance delivery means (30) may be a two-wheeled vehicle that can be driven by battery charging, and may be an electric motorcycle or an electric bicycle.

In the present invention, a delivery management unit (20) is configured to deliver IoT delivery boxes (40) transported in bulk by a delivery vehicle (10) to each purchaser.

Figure 3 explains the detailed configuration of the delivery management unit (20) according to an embodiment of the present invention.

The delivery management unit (20) of the present invention comprises an IoT receiving unit (21) that receives information on an IoT delivery box (40) being delivered as status information so that the delivery status of the IoT delivery box (40) can be checked in real time, a wireless charging device (22) that charges the battery of a short-distance delivery means (30) for delivering the IoT delivery box (40) to the buyer, a wireless communication unit (23) that transmits the delivery information of the IoT delivery box (40) managed through the delivery management unit (20) to an integrated management server (50) located at a remote location, a battery life prediction unit (24) that measures the remaining amount of the charged battery of the short-distance delivery means (30) managed through the delivery management unit (20) and predicts the operating time of the short-distance delivery means (30), and a location information of the IoT delivery box (40) received through the IoT receiving unit (21) so that the expected time for the IoT delivery box (40) to be delivered to the buyer can be calculated and delivered to the buyer. It consists of a delivery expected time calculation section (25).

The IoT receiving unit (21) above receives status information of the IoT delivery box (40) transmitted from the IoT delivery box (40) to check the status of the product being delivered, and receives status information such as temperature and vibration status of the IoT delivery box (40) described below to check in real time whether the product is being delivered safely.

The above wireless charging device (22) is used to charge the battery of a short-distance delivery means (30) for delivering an IoT delivery box (40) to a purchaser, and the battery is charged when the short-distance delivery means (30) is not in operation and is stored in the delivery management unit (20).

The above wireless charging device (22) can charge the battery of a short-distance delivery means (30) by wireless charging, and can also be installed in a wired charging or battery replacement type to replace a pre-charged battery.

The above wireless communication unit (23) enables the IoT delivery box (40) information of the delivery management unit (20) to be transmitted to a remote integrated management server (50), and real-time delivery information is transmitted to the integrated management server (50) using a mobile communication network, etc., so that it can be transmitted back to the purchaser, allowing the purchaser to check information on the product being delivered.

The above battery life prediction unit (24) checks the remaining battery capacity of the short-distance delivery means (30) to estimate the driving distance of the short-distance delivery means (30), checks the location to which each IoT delivery box (40) must be delivered, calculates the distance to the delivery management unit (20), and matches the IoT delivery box (40) that can be delivered with the current battery charge status with the short-distance delivery means (30) to enable delivery of the IoT delivery box (40).

The above-mentioned delivery expected time calculation unit (25) calculates the location where the IoT delivery box (40) should be delivered and the departure time of the short-distance delivery means (30) in the delivery management unit (20) to predict the time at which the IoT delivery box (40) will arrive at the purchaser, and transmits the expected arrival time information of the IoT delivery box (40) to the integrated management server (50) through the IoT receiving unit (21).

The expected arrival time information of the IoT delivery box (40) transmitted to the integrated management server (50) is transmitted to the purchaser's smartphone so that the purchaser can check it.

Figure 4 is a block diagram explaining the configuration of an IoT delivery box (40) according to an embodiment of the present invention.

The IoT delivery box (40) of the present invention is composed of a temperature measurement unit (41) that measures the temperature inside the IoT delivery box (40) during delivery to determine the condition of the product, a vibration measurement unit (42) that measures vibration transmitted to the IoT delivery box (40) during delivery to detect whether the product being delivered is damaged, an IoT transmission unit (43) that transmits condition information such as temperature information and vibration information of the IoT delivery box (40) to the delivery management unit (20), a GPS measurement unit (44) that measures the location information of the IoT delivery box (40) currently being delivered in real time and transmits it to the delivery management unit (20) through the IoT transmission unit (43), and a spoilage prevention unit (45) that generates a high voltage inside the IoT delivery box (40) to prevent spoilage of food ingredients by preventing spoilage bacteria in the air from attaching to the food products inside the IoT delivery box (40).

The above temperature measuring unit (41) measures the temperature inside the IoT delivery box (40) in real time and transmits the measured temperature information to the delivery management unit (20). As an example, the internal temperature of the IoT delivery box (40) can be measured using an infrared temperature measuring device.

The measured internal temperature of the IoT delivery box (40) can be transmitted via the smartphone of the carrier operating the short-distance delivery means (30), and especially when exposed to high temperatures in the summer, the freshness of the food being delivered may decrease, so that immediate action can be taken by notifying the user of this.

The above vibration measurement unit (42) measures the degree of vibration transmitted to the IoT delivery box (40) during delivery, and the measured vibration information is transmitted to the delivery management unit (20).

Since there is a high risk of damage to the product when a fragile product is placed inside an IoT delivery box (40), damage can be prevented by notifying the delivery person if excessive vibrations are continuously generated in the IoT delivery box (40). In addition, the responsibility for a product damaged during delivery can be confirmed using the vibration information collected in real time.

The above IoT transmitter (43) transmits status information such as location, temperature, and vibration information of the IoT delivery box (40) to the delivery management unit (20), and the status information of the IoT delivery box (40) transmitted to the delivery management unit (20) is transmitted to the integrated management server (50) via the wireless communication unit (23).

The integrated management server (50) monitors the status information of the transmitted IoT delivery box (40) and manages the IoT delivery box (40) being delivered in an integrated manner.

The above GPS measurement unit (44) checks in real time the current location of the IoT delivery box (40) being delivered by the short-distance delivery means (30), and transmits the confirmed location information to the delivery management unit (20) through the IoT transmission unit (43) so that it can be managed through the integrated management server (50).

The location information of the IoT delivery box (40) measured in real time is transmitted to the purchaser, so that the purchaser can check the current location of the IoT delivery box (40) that he or she wishes to receive.

Since the location information of this IoT delivery box (40) is accurate location information at the stage where actual delivery takes place, it can provide more precise location information than location information in a typical logistics warehouse.

The above-mentioned anti-spoilage unit (45) generates a high voltage within the IoT delivery box (40) to prevent airborne spoilage bacteria from attaching to food ingredients during delivery, thereby maintaining the freshness of the food ingredients, and may be composed of a high voltage generation unit (46) and an electrode plate (47).

Referring to Fig. 5, the high voltage generation unit (46) applies a high voltage of several thousand volts to the IoT delivery box (40) to form an electric field, and the ions inside the IoT delivery box (40) are prevented from being attached to food by being induced to the electrode plate (47) installed inside the IoT delivery box (40) by the electromagnetic induction law by the electric field formed.

The spoilage of food ingredients during delivery begins when airborne spoilage bacteria attach to the food ingredients. By forming an electric field by generating a high voltage to prevent the spoilage bacteria from attaching to the food ingredients and guiding the spoilage bacteria floating in the air to the electrode plate (47), the freshness of the food ingredients can be maintained.

In addition, a UV sterilization unit (48) is installed to sterilize putrefactive bacteria inside the IoT delivery box (40) using ultraviolet wavelengths by installing a UV LED.

Ultraviolet sterilization can effectively remove harmful substances in the air with a sterilizing power approximately 1,600 times that of sunlight, and by using ultraviolet sterilization with a wavelength of 2500 to 2800 Å, it is effective against all types of bacteria and has a great sterilizing effect.

Since ultraviolet rays can be harmful when viewed directly with the eyes or when exposed to the skin, they can be installed inside the IoT delivery box (40).

Although the above description of the present invention has been made with respect to specific embodiments, various modifications can be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be determined by the described embodiments, but by the claims and their equivalents.

(10)-- Delivery vehicle
(20)-- Delivery Management Department (21)-- IoT Receiving Department
(22)-- Wireless charging device (23)-- Wireless communication unit
(24)-- Battery life estimate section (25)-- Delivery time estimate calculation section
(30)-- Short-distance delivery method
(40)-- IoT delivery box (41)-- Temperature measurement unit
(42)-- Vibration measurement unit (43)-- IoT transmission unit
(44)-- GPS Measurement Department (45)-- Anti-Corruption Department
(46)-- High voltage generator (47)-- Electrode plate
(48)-- UV sterilization section
(50)-- Integrated Management Server
(60)-- Wireless terminal

Claims (1)

In the short-distance logistics delivery system,
A short-distance delivery means (30) that delivers the IoT delivery box (40) to the buyer by an electrically-powered transportation means to receive the IoT delivery box (40) delivered by the delivery vehicle and deliver it to the buyer,
A delivery management unit (20) that receives information from an IoT sensor installed in an IoT delivery box (40) and transmits information about an IoT delivery box (40) being delivered to a remote location while charging the battery when the above-mentioned short-distance delivery means (30) is not in operation,
It consists of an integrated management server (50) that receives information on the IoT delivery box (40) transmitted from the above delivery management department (20) and transmits product information via the purchaser's smartphone.
The IoT delivery box (40) has a high voltage generator (46) that generates high voltage to form an electric field by applying thousands of volts of high voltage inside the IoT delivery box (40) to prevent airborne spoilage bacteria from attaching to food ingredients during delivery, thereby maintaining the freshness of the food ingredients.
An electrode plate (47) that induces ions inside the IoT delivery box (40) to not be attached to food materials inside the IoT delivery box (40) by the electric field formed by the high voltage generator (46) through the law of electromagnetic induction,
A short-distance logistics delivery system using IoT technology to prevent the propagation of microorganisms inside a delivery box, characterized by comprising a spoilage prevention unit (45) configured with an ultraviolet sterilization unit (48) installed with a UV LED installed inside to sterilize spoilage bacteria inside the IoT delivery box (40) using ultraviolet wavelengths.