CN112802269A - Ice powder online sale system and method - Google Patents

Abstract

The invention belongs to the technical field of food, and discloses an ice powder online sale system and method, which comprises a cloud platform and a plurality of self-service goods storage machines connected with the cloud platform through a network; the cloud platform comprises a central processing unit, and a first transmission module, a warehousing module, a matching module and an electronic map module which are respectively connected with the central processing unit; the first transmission module is used for receiving information of each self-service cargo aircraft, receiving delivery address information corresponding to each order and acquiring weather information in a delivery address delivery time period from the Internet; the warehousing module is used for receiving the number of all self-service stock machines in a specified area range, the number of ice powder products in each self-service stock machine and the storage temperature; according to the invention, a refrigeration means required for the ice powder product in the transportation time period can be more accurately selected according to the actual situation.

Description

Ice powder online sale system and method

Technical Field

The invention relates to the technical field of food, in particular to an ice powder online selling system and method.

Background

Nicandra physaloides, also known as crystal bean jelly or commonly called ice powder, is an annual herbaceous plant in Solanaceae and has the effects of clearing away heat and toxic materials, promoting urination and tranquilizing. When the ice powder is purely manually made by adopting the traditional method, the nicandra physaloides seeds are wrapped in gauze, then the gauze is soaked in water, the gauze bag is manually rubbed by manpower, so that the nicandra physaloides colloid is dissolved in the water, a certain proportion of calcium liquid is prepared, the calcium liquid is mixed with the colloid solution, and the calcium liquid and the nicandra physaloides colloid are subjected to bridging reaction and are condensed into the ice powder.

The ice powder is cool and smooth in the entrance, and is generally more popular in summer with hot weather, however, the ice powder generally needs to be refrigerated for storage, which causes great difficulty in on-line selling and delivering of the ice powder, because the distances between purchasers and delivery places are different, the judgment on the refrigeration time required by the ice powder in the transportation process is inaccurate, and the situation that the taste of the ice powder is poor due to the fact that the ice bag melts for too long time in the transportation process often occurs.

Disclosure of Invention

The invention aims to solve the problem of influence on the taste of the ice powder caused by the difference between the refrigeration time and the transportation time in the online selling process of the existing ice powder.

The ice powder online sale system comprises a cloud platform and a plurality of self-service cargo storages connected with the cloud platform through a network;

the cloud platform comprises a central processing unit, and a first transmission module, a warehousing module, a matching module and an electronic map module which are respectively connected with the central processing unit;

the first transmission module is used for receiving information of each self-service cargo aircraft, receiving delivery address information corresponding to each order and acquiring weather information in a delivery address delivery time period from the Internet;

the warehousing module is used for receiving the number of all self-service stock machines in a specified area range, the number of ice powder products in each self-service stock machine and the storage temperature;

the matching module is used for comparing the delivery address information with the distances of the self-service cargo aircraft in the designated area, and sending the position information of the self-service cargo aircraft to be selected meeting the matching rule to the central processing unit;

the electronic map module is used for marking the distance between the self-service cargo aircraft and the delivery address to form a planned path;

matching rules are preset in the central processing unit, and the central processing unit selects the position information and the planned path of the target self-service cargo aircraft from the self-service cargo aircraft to be selected according to the matching rules and sends the position information and the planned path to a delivery person for delivery bill sending.

The scheme has the advantages that:

can draw the delivery address information according to order information to different delivery address information, take out the ice powder product from the self-service stock machine of the most matching and carry out short distance delivery, avoid because delivery time overlength makes the ice bag melt, influence the condition production of ice powder taste. In addition, the system can overcome a plurality of defects of the existing ice powder on-line sale and provides possibility for large-scale ice powder on-line sale.

Further, the matching rule is determined as follows in sequence: when the storage temperature is met, selecting the self-service cargo aircraft to be selected with the closest distance as a target self-service cargo aircraft; when the distance between more than two self-service stocking machines to be selected and the delivery address information is equal, selecting the self-service stocking machine to be selected with the largest quantity of stored ice powder products as a target self-service stocking machine; when the number of the ice powder products in more than two to-be-selected self-service goods depositors is equal, selecting the to-be-selected self-service goods depositor with the shortest average storage time of the stored ice powder products as a target self-service goods depositor; if the average storage time of the ice powder products in more than two self-service stocking machines to be selected is equal, selecting the self-service stocking machine to be selected with stable weather information in the transportation time period as a target stocking machine; and when the only target self-service cargo airplane can not be selected, randomly selecting one from the rest to-be-selected self-service cargo airplanes as the target self-service cargo airplane.

According to the rule, the best matched target self-service cargo airplane can be selected.

Further, the delivery time period is the general delivery time from the delivery address to the delivery address plus the overflow delivery time corresponding to the weather information.

The transit time period thus calculated is more accurate.

Further, the general delivery time and the overflow delivery time are both stored in the central processing unit and are updated regularly.

The general delivery time and the overflow delivery time are updated regularly after being optimized according to the actual feedback time, so that the calculated delivery time period is more accurate.

Further, the overflow delivery time is directly related to the distance between the target self-service cargo aircraft and the delivery address and the weather information during the delivery time period.

The further away, the greater the weather fluctuation, the longer the spill delivery time.

Further, a microcontroller, a second transmission module, a motor, a weight sensor and a position sensor are arranged in the self-service stock storing machine, and the second transmission module, the motor, the weight sensor and the position sensor are respectively connected with the microcontroller;

the second transmission module is in communication connection with the first transmission module and used for receiving weather information of the place where the self-service stock machine is located;

the motor is used for driving the self-service stock machine to move and driving the ice powder products in the self-service stock machine to move;

the weight sensor is used for detecting the storage conditions of ice powder products and ice bags in the self-service stock machine;

the position sensor is used for monitoring the current position information of the self-service cargo aircraft and sending the current position information to the microcontroller;

an emergency danger avoiding mode is preset in the microcontroller, and when the self-service stock machine triggers the emergency danger avoiding mode, the microcontroller controls the motor to drive the whole self-service stock machine to search for the nearest emergency danger avoiding point for avoiding danger.

The self-service cargo airplane of this structure can carry out quick location and promptly keep away the danger.

Further, the emergency risk avoiding point is pre-stored position information on the electronic map module.

Furthermore, each self-service goods storage machine comprises a base, and a pedal and a case which are arranged on the base; the pedal is positioned in front of the case; the pedal can move up and down relative to the base; a contraction bag linked with the pedal is arranged on the case; the shrinkage bag is communicated with a spray pipe penetrating into the case; when the pedal is stepped, the shrinkage bag is compressed to spray dry ice into the case.

Furthermore, a taking and placing opening for taking and placing ice powder products is formed in the case.

Furthermore, the case comprises an outer shell and an inner shell, the contraction bag is arranged between the outer shell and the inner shell, a rotating shaft which is rotatably connected to the outer shell and the inner shell is arranged below the contraction bag, a rotating disc is fixedly connected to the rotating shaft, and a pressing rod capable of extruding the contraction bag is radially arranged on the rotating disc.

The invention also provides an ice powder online selling method, which is characterized by comprising the following steps: the method comprises the following steps:

the method comprises the steps that firstly, a first transmission module acquires delivery address information from order information, and the first transmission module acquires weather information in a delivery time period of an area where the delivery address information is located from the Internet and sends the weather information to a central processing unit;

step two, the central processing unit selects a target self-service cargo aircraft from the designated area range where the delivery address information is located according to the matching rule, and sends the address information and the planned path of the target self-service cargo aircraft to a delivery person to form a delivery bill;

step three, the cloud platform selects the offline warehouse which is closest to the self-service stock machine from the selected offline warehouse to be matched with the self-service stock machine;

step four, the matched offline warehouse conveys ice powder products meeting the quantity demand of the ice powder products to the self-service storage machine;

and step five, simultaneously, the self-service stock machine recovers the ice powder products put into the machine case, and when a throwing person steps on the pedal, dry ice is sprayed into the machine case through a shrinkage bag linked with the pedal.

The method has the advantages that:

can be according to actual conditions, select more accurately in the transportation time quantum, need be the cold storage means that the ice powder product goes on.

Drawings

Fig. 1 is a logic block diagram of an embodiment of an ice powder online sales system of the present invention.

Fig. 2 is a perspective view of a self-service storage machine in an embodiment of the ice powder online sales system of the invention.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the solar cell panel comprises an outer shell 1, an inner shell 2, a support rod 3, a rotating shaft 4, a solar cell panel 5, a communicating pipe 11, a shrinkage bag 12, a rotary disc 13, a pressure lever 14, a vertical ejector rod 15, a transverse ejector rod 16, a movable plate 17, a vertical ejector rod 18, a transverse ejector rod 19 and a fan 20.

Example one

The embodiment is basically as shown in the attached figure 1: the ice powder online sale system comprises a cloud platform and a plurality of self-service cargo aircraft which are connected with the cloud platform through a network and are installed in different places.

The cloud platform comprises a central processing unit, a first transmission module, a storage module, an induction module, a matching module and an electronic map module, wherein the first transmission module, the storage module, the induction module, the matching module and the electronic map module are electrically connected with the central processing unit; and the first transmission module is used for carrying out network communication with each self-service cargo aircraft.

The first transmission module is used for receiving information of each self-service cargo aircraft, receiving delivery address information corresponding to each order and acquiring weather information in a delivery address delivery time period from the Internet;

the warehousing module is used for receiving the number of all self-service stock machines in a specified area range, the number of ice powder products in each self-service stock machine and the storage temperature;

the matching module is used for comparing the delivery address information with the distances of the self-service cargo aircraft in the designated area, and sending the position information of the self-service cargo aircraft to be selected meeting the matching rule to the central processing unit;

the electronic map module is used for marking the distance between the self-service cargo aircraft and the delivery address to form a planned path;

matching rules are preset in the central processing unit, and the central processing unit selects the position information and the planned path of the target self-service cargo aircraft from the self-service cargo aircraft to be selected according to the matching rules and sends the position information and the planned path to a delivery person for delivery bill sending.

The scheme has the advantages that:

can draw the delivery address information according to order information to different delivery address information, take out the ice powder product from the self-service stock machine of the most matching and carry out short distance delivery, avoid because delivery time overlength makes the ice bag melt, influence the condition production of ice powder taste. In addition, the system can overcome a plurality of defects of the existing ice powder on-line sale and provides possibility for large-scale ice powder on-line sale.

The matching rule is determined as follows in sequence: when the storage temperature is met, selecting the self-service cargo aircraft to be selected with the closest distance as a target self-service cargo aircraft; when the distance between more than two self-service stocking machines to be selected and the delivery address information is equal, selecting the self-service stocking machine to be selected with the largest quantity of stored ice powder products as a target self-service stocking machine; when the number of the ice powder products in more than two to-be-selected self-service goods depositors is equal, selecting the to-be-selected self-service goods depositor with the shortest average storage time of the stored ice powder products as a target self-service goods depositor; if the average storage time of the ice powder products in more than two self-service stocking machines to be selected is equal, selecting the self-service stocking machine to be selected with stable weather information in the transportation time period as a target stocking machine; and when the only target self-service cargo airplane can not be selected, randomly selecting one from the rest to-be-selected self-service cargo airplanes as the target self-service cargo airplane. According to the rule, the best matched target self-service cargo airplane can be selected.

The delivery time period is the general delivery time from the delivery address to the delivery address plus the overflow delivery time corresponding to the weather information. The transit time period thus calculated is more accurate.

The general delivery time and the overflow delivery time are both stored in the central processing unit and are updated regularly. The general delivery time and the overflow delivery time are updated regularly after being optimized according to the actual feedback time, so that the calculated delivery time period is more accurate.

The overflow delivery time is directly related to the distance between the target self-service cargo aircraft and the delivery address and the weather information in the delivery time period. The further away, the greater the weather fluctuation, the longer the spill delivery time.

The storage module is used for storing and updating the quantity of the ice powder products stored in each off-line warehouse in real time; the sensing module is used for storing the quantity of the ice powder products left in each self-service cargo aircraft; the matching module is used for matching each offline warehouse in the storage module with a self-service storage machine in the sensing module according to a distribution rule preset by the central processing unit, and when the storage quantity in the offline warehouse is more than or equal to the required quantity of the self-service storage machine, the offline warehouse can supply ice powder products to the self-service storage machine, wherein the storage quantity refers to the quantity which can be currently conveyed to the self-service storage machine by the offline warehouse, the required quantity refers to the quantity of the ice powder products which need to be supplied when the storage space of the recovered ice powder products is met, specifically, the required quantity is equal to the quantity obtained by dividing the quantity of the storage positions of the self-service storage machine minus the residual quantity of the ice powder products by two, and the quantity of the storage positions of the self-service storage machine is the quantity of the ice powder products which can be stored when the self-service storage machine is fully filled, the remaining number of the ice powder products refers to the number of all ice powder products including overdue ice powder products, the number of the ice powder products which can be filled currently is obtained by subtracting the ice powder products from the remaining number of the ice powder products, and the ice powder products which continuously exceed the storage life are considered, so that the required quantity sent to the cloud platform is half of the required quantity, the ice powder products can be always sold on the self-service storage machine, and the space for placing the recovered ice powder products can be fully ensured.

Matching the multiple off-line warehouses meeting the conditions with a self-service cargo storage machine; and an electronic map marked with longitude and latitude positions of each self-service cargo aircraft is stored in the electronic map module in advance.

The self-service stock stocking machine is internally provided with a microcontroller, and a second transmission module, a motor, a weight sensor and a position sensor which are respectively connected with the microcontroller;

the second transmission module is in communication connection with the first transmission module and used for receiving weather information of the place where the self-service stock machine is located;

the motor is used for driving the self-service stock machine to move and driving the ice powder products in the self-service stock machine to move;

the weight sensor is used for detecting the storage conditions of ice powder products and ice bags in the self-service stock machine;

the position sensor is used for monitoring the current position information of the self-service cargo aircraft and sending the current position information to the microcontroller;

an emergency danger avoiding mode is preset in the microcontroller, and when the self-service stock machine triggers the emergency danger avoiding mode, the microcontroller controls the motor to drive the whole self-service stock machine to search for the nearest emergency danger avoiding point for avoiding danger.

The self-service cargo airplane of this structure can carry out quick location and promptly keep away the danger. The emergency risk avoiding point is pre-stored position information on the electronic map module.

The whole cloud platform can directly adopt an Ali cloud, a network cloud or other cloud products, the first transmission module adopts a current universal network transmission module, the warehouse promotion module, the induction module, the matching module and the electronic map module are storage modules, the storage space of the cloud can be directly utilized, and the storage chips can be independently adopted for storage.

The cloud platform receives the electric signals transmitted by the self-service stock machines through the first transmission module, and updates and stores the number of the remaining ice powder products in each self-service stock machine into the sensing module in real time; according to the prior art, a matching rule is preset in a central processing unit, namely when the storage quantity N of a certain offline warehouse is more than or equal to the demand M of a certain self-service inventory machine, the offline warehouse is matched with the self-service inventory machine. The demand M is equal to a value obtained by dividing a value obtained by subtracting the commodity residual quantity H in the self-service stocking machine from the maximum storage quantity L of the self-service stocking machine by two and then taking an integer, and the maximum storage quantity L of each self-service stocking machine is stored in the sensing module in advance. The matching module firstly corresponds a plurality of off-line warehouses to a certain self-service inventory machine according to the matching rule, then the central processing unit finds the off-line warehouses and the self-service inventory machine in an electronic map in the electronic map module, selects the off-line warehouse closest to the self-service inventory machine as the off-line warehouse for supplementing ice powder products to the self-service inventory machine, and randomly selects one off-line warehouse if the two off-line warehouses are the same in distance from the self-service inventory machine. The selected off-line warehouse can send people to convey ice powder products with corresponding supplement quantity to the self-service cargo airplane for supplement. Through the cloud platform, the cost can be saved to the utmost extent when each self-service cargo aircraft can be guaranteed to replenish goods in time.

As shown in figure 1, the self-service goods storage machine comprises a microcontroller, and a second transmission module, a photosensitive device, an electromagnetic device, an infrared sensor, a motor, a position sensor and a weight sensor which are respectively electrically connected with the microcontroller. The second transmission module is used for establishing communication with the first transmission module and is used for being connected with the cloud platform network; the second transmission module only needs to adopt the existing network transmission module; the photosensitive device is used for detecting whether the self-service goods storage machine is irradiated by sunlight or not and sending a detection signal to the microcontroller; the photosensitive device can adopt a photoresistor; the electromagnetic device is used for controlling the opening and closing of the spray pipe, and can adopt a commercially available electromagnetic valve; infrared ray sensor for respond to the surplus ice powder product quantity of self-service stock machine, infrared ray sensor passes through the place that its alignment of infrared ray detection has article, install infrared ray sensor in every space of placing the ice powder product, can detect out in which space have the ice powder product directly perceivedly and which do not, and then can calculate the detection signal that sends of how many infrared ray sensor of receiving altogether according to prior art through microcontroller, and then it remains how many ice powder products in this self-service stock machine to count out. And the motor is used for receiving the control rotation of the microcontroller or stopping the rotation. And the weight sensor is used for detecting whether a person stands on the pedal or not, and after the person stands on the pedal, the microcontroller controls the electromagnetic device to open the nozzle of the spray pipe. The microcontroller can adopt an STM32 singlechip or an 80C51 singlechip.

Specifically, the self-service storage machine, as shown in fig. 2, includes a base, and a step mounted on the base and a chassis, the step is located in front of the chassis, and a person must stand on the step when he or she needs to take the ice powder product from the chassis or put the ice powder product into the chassis.

The case comprises an outer shell 1 and an inner shell 2, wherein a photosensitive device is embedded in the top end of the outer shell 1. The box body of the case is also provided with a display window for checking ice powder products in the case, an operation panel for self-service purchase like the prior art, and a delivery opening for taking goods after successful purchase or putting the ice powder products to be recovered. By utilizing the prior art, the clamping jaw can be arranged in the feeding port to grab the ice powder product to be recovered, which is placed in the feeding port, into the case for disinfection. Wherein, the clamping jaw setting can adopt now on the market grab the clamping jaw of doll machine the same, also can adopt other structure settings, and it is no longer repeated here.

Two sides of the case are connected with a rotating shaft 4 which can rotate, supporting pipes are welded on the rotating shaft 4, and a solar cell panel 5 is connected between the two supporting pipes. Wherein, the stay tube is hollow structure, conveniently arranges the wire and is connected with solar cell panel 5. The motor is installed on the rotating shaft 4, the rotating shaft 4 can adjust the relative position of the solar cell panel 5 and the case along with the rotation of the motor, and the rotating shaft 4 can also be driven to rotate by the linkage mechanism of the pedal. Through rotating pivot 4, can adjust solar cell panel 5's inclination through the stay tube, not only can make solar cell panel 5 adjust to better angle and receive the sunlight, can also make solar cell panel 5 cover the self-service machine of depositing of its below through the inclination of adjusting solar cell panel 5, solar cell panel 5 has not only played and has become the electric energy with solar energy conversion, for self-service stock machine provides clean energy's effect, the effect of the rainwater of sheltering from for self-service machine of depositing has still been played. Of course, the self-service cargo airplane utilizes the electric energy converted by the solar cell panel 5, and the self-service cargo airplane is connected with the commercial power, so that continuous and stable electric energy supply is provided for the self-service cargo airplane.

The outer side of the inner case shell 2 is covered with a communicating pipe 11, two ends of the communicating pipe 11 are respectively communicated with a shrinkage bag 12 filled with disinfectant, the disinfectant can adopt any existing liquid solution which can be used for disinfection, and different disinfectant can be selected according to different commodities used for loading ice powder products, such as alcohol, calcium hypochlorite, peroxyacetic acid and the like. One end of the shrinkage bag 12 close to the inner shell 2 is connected with a spray pipe, and the spray pipe penetrates through the inner shell 2 and extends into the case. The spray pipe is provided with a valve, and an electromagnetic device on the valve is controlled by a microcontroller. The communicating pipe 11 is communicated with an inlet pipe extending out of the case, an opening of the inlet pipe is positioned on the back of the case, and disinfectant can be filled into the two shrinkage bags 12 communicated with the communicating pipe 11 through the inlet pipe.

The rotating shaft 4 is positioned below the shrinkage bag 12, the rotating shaft 4 penetrates through the outer shell 1 and the inner shell 2, and a rotating disc 13 rotating along with the rotating shaft 4 and a fan 20 rotating along with the rotating shaft 4 are closely connected to the rotating shaft 4. The rotary table 13 is positioned between the inner shell 2 and the outer shell 1, the fan 20 is positioned in a case formed by the inner shell 2 in an enclosing mode, the fan 20 is composed of a plurality of fan blades, and when the rotating shaft 4 rotates, the plurality of fan blades rotate together with the rotating shaft 4 to form ice powder products in the case. A pressure lever 14 extending radially outwards is integrally connected to an external source of the rotary disc 13, and when the pressure lever 14 contacts the contracting bag 12 in the rotating process of the rotary disc 13, the pressure lever 14 presses the contracting bag 12 to spray the disinfectant in the contracting bag 12 into the case through the spray pipe. The rotary disc 13 is connected with a linkage mechanism of the pedal, and when a person steps on the pedal, the rotating shaft 4 is driven to rotate.

The eccentric position of the rotary table 13 is hinged with a vertical ejector rod 15 through a pin, the vertical ejector rod 15 is positioned between the inner shell 2 and the outer shell 1, the bottom end of the vertical ejector rod 15 is an inclined surface, and the inclined surface at the bottom end of the vertical ejector rod 15 inclines towards the pedal. The base is a top end opening, and the centre has the structure of cavity, and the footboard forms a hollow cuboid structure with the base together, specifically, the base includes bottom plate parallel with the footboard and sets up the curb plate in the bottom plate left and right sides, and two curb plates all are connected with the footboard. The footboard includes fixed plate and the fly leaf 17 that the interval set up, be provided with the fixed column that is used for supporting the fixed plate between fixed plate and the bottom plate and fixed plate and the bottom plate with the curb plate mortise and tenon connection, be connected with the spring between fly leaf 17 and the bottom plate, through spring support fly leaf 17, integrated into one piece is connected with perpendicular push rod 18 on the bottom surface of fly leaf 17, it has the spout to open on the bottom plate of the below of perpendicular push rod 18, sliding connection has horizontal push rod 19 on the bottom plate, the one side that horizontal push rod 19 and perpendicular push rod 18 are close to each other is assorted inclined plane, when fly leaf 17 is trampled the downstream, the in-process of perpendicular push rod 18 downstream, vertical push rod 18 promotes horizontal push rod.

One side of the two side plates close to the pedal is provided with a contact hole for the transverse push rod 19 to extend into, the contact hole is communicated with a sliding cavity horizontally arranged on the side plates, and a transverse push rod 16 which can be pushed by the transverse push rod 19 is connected in the sliding cavity in a sliding manner. The contact surface of the cross push rod 16 and the cross push rod 19 is an inclined surface which is far away from the case, the end of the inclined surface is called as the front end of the cross push rod 16, and a spring for resetting the cross push rod 16 is connected between the front end of the cross push rod 16 and the front side wall of the sliding cavity. The end of the transverse ejector rod 16 close to the case is called as the rear end, the rear end of the transverse ejector rod 16 is also an inclined surface, the transverse ejector rod 16 can extend out of the side plate to extend into the case to abut against the vertical ejector rod 15 when pushed by the transverse push rod 19, the bottom end of the vertical ejector rod 15 is matched with the inclined surface at the rear end of the transverse ejector rod 16, the transverse ejector rod 16 pushes the vertical ejector rod 15 to enable the vertical ejector rod 15 to move upwards when moving backwards, the vertical ejector rod 15 drives the rotating disc to rotate in the upward movement process, and the rotating disc 13 drives the rotating shaft 4 to rotate. In order to enable the vertical push rod 15 to better drive the rotary table 13 to rotate, a guide groove for enabling the vertical push rod 15 to move up and down can be arranged on the inner wall of the shell 1.

Specifically, the method for ordering the ice powder product by adopting the ice powder product ordering system comprises the following steps:

s1, detecting all existing ice powder products including the recovered ice powder products on the self-service cargo airplane through infrared sensors arranged in each placing space in the chassis of the self-service cargo airplane, and sending detection signals to the microcontroller;

s2, calculating the residual quantity of ice powder products on the self-service storage machine by the microcontroller by receiving a detection signal transmitted by the infrared sensor according to the prior art, dividing the residual quantity of the ice powder products by a value obtained by subtracting the residual quantity of the ice powder products from the maximum storage quantity of the self-service storage machine stored in the microcontroller in advance and then dividing the value by two to obtain the required quantity of the ice powder products of the self-service storage machine, and sending the required quantity of the ice powder products to the cloud platform by the microcontroller through a second transmission module;

s3, the cloud platform receives the ice powder product demand on the self-service stock machine through the first transmission module, and sends the ice powder product demand on each self-service stock machine to the induction module for storage;

s4, the central processing unit selects the offline warehouse from the storage module to be in one-to-one correspondence with the self-service cargo depositors in the induction module according to the matching rules preset in the matching module and the longitude and latitude positions of each offline warehouse and the self-service cargo depositors in the electronic map module;

the matching rule is that the storage amount of the offline warehouse is larger than the demand amount of the self-service stocking machine, and meanwhile, the selected offline warehouse is closest to the self-service stocking machine which puts forward the demand;

s5, the cloud platform sends information of supplying ice powder products to the corresponding self-service stock machine to the selected optimal off-line warehouse;

s6, when people use the self-service cargo airplane, the people stand on the pedals, the movable plate 17 in the pedals moves downwards, and simultaneously, the weight sensor arranged on the surface of the movable plate 17 and the vertical push rod 18 integrally connected with the movable plate 17 generate state change; the weight sensor receives the weight signal and sends the weight signal to the microcontroller, and the microcontroller controls a valve arranged on the spray pipe to be opened through an electromagnetic device; the vertical push rod 18 moves downwards along with the movable plate 17, the horizontal push rod 19 is pressed to move towards the side plate in the downward movement process of the vertical push rod 18, the horizontal push rod 19 extends into the sliding cavity through the contact hole to extrude the horizontal ejector rod 16 backwards, so that the horizontal ejector rod 16 is pushed to move towards the inside of the case, the lower end of the vertical ejector rod 15 is extruded by the rear end of the horizontal ejector rod 16, so that the vertical ejector rod 15 moves upwards along the guide groove, the vertical ejector rod 15 drives the rotary table 13 to rotate upwards in the upward movement process, the rotary table 13 drives the rotary shaft 4 connected with the rotary table to rotate, and the rotary shaft 4 rotates to drive the support rod 3 and the fan 20 connected with the rotary table; the rotation of the supporting rod 3 can adjust the position of the solar cell panel 5 for covering the case and absorbing sunlight, so that the solar cell panel 5 can better perform solar energy conversion; fan 20 rotates and to blow to quick-witted incasement, one can cool down to quick-witted incasement, make the ice powder product do benefit to the save more, on the other hand can cooperate the rotation of carousel 13, carousel 13 makes depression bar 14 oppression shrink bag 12 rotating the in-process, pass through the spray tube with the antiseptic solution in the shrink bag 12 and spray the ice powder product of quick-witted incasement, 20 fans at the in-process fan that sprays the antiseptic solution, be favorable to making the antiseptic solution spray more evenly, make all ice powder products of grabbing into quick-witted case recovery by the clamping jaw can both be disinfected.

In addition, in order to make the rotation between the supporting rod 3 and the rotating shaft 4 different, the supporting rod 3 rotates a smaller angle when the rotating shaft 4 rotates one or more circles, and the existing gear structure can be added between the connecting part of the rotating shaft 4 and the supporting rod 3, so that the rotating shaft 4 can drive the supporting rod 3 and the fan 20 to move simultaneously, and the swinging of the supporting rod 3 and the rotation of the fan 20 are not influenced.

Example two

In the embodiment, the quality guarantee periods corresponding to different ice powder products are set in the ice powder online sale system, the microcontroller controls the motor and the electromagnetic device to recycle overdue colorful products by comparing the difference between the current date and the ice powder product production date with the quality guarantee periods.

EXAMPLE III

In this embodiment, the general delivery time is obtained by accumulating an average time difference between the delivery date and the delivery time of an order in a certain specified area as the general delivery time, and the overflow delivery time is obtained by accumulating a difference between the average time difference between the delivery date and the delivery time of an order in a certain specified area and the general delivery time. The general delivery time and spill delivery time are updated as frequently as once a week.

The foregoing is merely an example of the present invention, and common general knowledge in the field of known specific structures and characteristics is not described herein in any greater extent than that known in the art at the filing date or prior to the priority date of the application, so that those skilled in the art can now appreciate that all of the above-described techniques in this field and have the ability to apply routine experimentation before this date can be combined with one or more of the present teachings to complete and implement the present invention, and that certain typical known structures or known methods do not pose any impediments to the implementation of the present invention by those skilled in the art. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (10)

1. The utility model provides an ice powder on-line sales system which characterized in that: the system comprises a cloud platform and a plurality of self-service cargo aircraft connected with the cloud platform through a network;

the cloud platform comprises a central processing unit, and a first transmission module, a warehousing module, a matching module and an electronic map module which are respectively connected with the central processing unit;

the first transmission module is used for receiving information of each self-service cargo aircraft, receiving delivery address information corresponding to each order and acquiring weather information in a delivery address delivery time period from the Internet;

the warehousing module is used for receiving the number of all self-service stock machines in a specified area range, the number of ice powder products in each self-service stock machine and the storage temperature;

the matching module is used for comparing the delivery address information with the distances of the self-service cargo aircraft in the designated area, and sending the position information of the self-service cargo aircraft to be selected meeting the matching rule to the central processing unit;

the electronic map module is used for marking the distance between the self-service cargo aircraft and the delivery address to form a planned path;

matching rules are preset in the central processing unit, and the central processing unit selects the position information and the planned path of the target self-service cargo aircraft from the self-service cargo aircraft to be selected according to the matching rules and sends the position information and the planned path to a delivery person for delivery bill sending.

2. An on-line ice powder selling system according to claim 1, characterized in that: the matching rule is determined as follows in sequence: when the storage temperature is met, selecting the self-service cargo aircraft to be selected with the closest distance as a target self-service cargo aircraft; when the distance between more than two self-service stocking machines to be selected and the delivery address information is equal, selecting the self-service stocking machine to be selected with the largest quantity of stored ice powder products as a target self-service stocking machine; when the number of the ice powder products in more than two to-be-selected self-service goods depositors is equal, selecting the to-be-selected self-service goods depositor with the shortest average storage time of the stored ice powder products as a target self-service goods depositor; if the average storage time of the ice powder products in more than two self-service stocking machines to be selected is equal, selecting the self-service stocking machine to be selected with stable weather information in the transportation time period as a target stocking machine; and when the only target self-service cargo airplane can not be selected, randomly selecting one from the rest to-be-selected self-service cargo airplanes as the target self-service cargo airplane.

3. An on-line ice powder selling system according to claim 1, characterized in that: the delivery time period is the general delivery time from the delivery address to the delivery address plus the overflow delivery time corresponding to the weather information.

4. An on-line ice powder selling system according to claim 1, characterized in that: the general delivery time and the overflow delivery time are both stored in the central processing unit and are updated regularly.

5. An on-line ice powder selling system according to claim 1, characterized in that: the overflow delivery time is directly related to the distance between the target self-service cargo aircraft and the delivery address and the weather information in the delivery time period.

6. An on-line ice powder selling system according to claim 1, characterized in that: the self-service stock stocking machine is internally provided with a microcontroller, and a second transmission module, a motor, a weight sensor and a position sensor which are respectively connected with the microcontroller;

the second transmission module is in communication connection with the first transmission module and used for receiving weather information of the place where the self-service stock machine is located;

the motor is used for driving the self-service stock machine to move and driving the ice powder products in the self-service stock machine to move;

the weight sensor is used for detecting the storage conditions of ice powder products and ice bags in the self-service stock machine;

the position sensor is used for monitoring the current position information of the self-service cargo aircraft and sending the current position information to the microcontroller;

an emergency danger avoiding mode is preset in the microcontroller, and when the self-service stock machine triggers the emergency danger avoiding mode, the microcontroller controls the motor to drive the whole self-service stock machine to search for the nearest emergency danger avoiding point for avoiding danger.

7. An on-line ice powder selling system according to claim 6, characterized in that: the emergency risk avoiding point is pre-stored position information on the electronic map module.

8. An on-line ice powder selling system according to claim 6, characterized in that: each self-service goods storage machine comprises a base, and a pedal and a case which are arranged on the base; the pedal is positioned in front of the case; the pedal can move up and down relative to the base; a contraction bag linked with the pedal is arranged on the case; the shrinkage bag is communicated with a spray pipe penetrating into the case; when the pedal is stepped, the shrinkage bag is compressed to spray dry ice into the case.

9. An on-line ice powder selling system according to claim 6, characterized in that: the case is provided with a taking and placing opening used for taking and placing ice powder products.

10. The ice powder on-line selling method is characterized by comprising the following steps: the method comprises the following steps:

the method comprises the steps that firstly, a first transmission module acquires delivery address information from order information, and the first transmission module acquires weather information in a delivery time period of an area where the delivery address information is located from the Internet and sends the weather information to a central processing unit;

step two, the central processing unit selects a target self-service cargo aircraft from the designated area range where the delivery address information is located according to the matching rule, and sends the address information and the planned path of the target self-service cargo aircraft to a delivery person to form a delivery bill;

step three, the cloud platform selects the offline warehouse which is closest to the self-service stock machine from the selected offline warehouse to be matched with the self-service stock machine;

step four, the matched offline warehouse conveys ice powder products meeting the quantity demand of the ice powder products to the self-service storage machine;

and step five, simultaneously, the self-service stock machine recovers the ice powder products put into the machine case, and when a throwing person steps on the pedal, dry ice is sprayed into the machine case through a shrinkage bag linked with the pedal.

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