CN113034132A - Installment payment supervision method for passive electronic load - Google Patents

Abstract

The invention discloses an installment supervision method for a passive electronic load, which comprises the following steps: the method comprises the steps that initial recharging is conducted on solar off-grid active battery equipment and passive load equipment which are purchased simultaneously; reading the prepayment state of the solar off-grid active battery equipment by utilizing the passive load equipment; if the solar off-grid active battery equipment is in the installment payment state, inquiring and comparing the ID information of the solar off-grid active battery equipment; accessing and acquiring the remaining days by using passive load equipment; and querying whether a clock failure signal exists in the solar off-grid active battery equipment by using the passive load equipment, if not, enabling the passive product to work normally, and continuing to visit once every hour. Through the scheme, the method has the advantages of safety, reliability, simple logic and the like, and has high practical value and popularization value in the technical field of installments of passive electronic loads.

Description

Installment payment supervision method for passive electronic load

Technical Field

The invention relates to the technical field of installment payment of passive electronic loads, in particular to an installment payment supervision method for passive electronic loads.

Background

In the rapid period of global economic growth, a large part of regions in the world are seriously short of electricity or regions without electricity at the roots, even the regions live by the illumination of kerosene lamps, are limited to the local industrial and economic development level, and the erection of a power grid is seriously lagged; therefore, the civil small-sized solar off-grid system which takes the solar panel and the energy storage battery as main core components is developed. Often, many people in such areas cannot pay for high-value solar off-grid products at one time, which inhibits the consumer's desire to purchase to some extent. Therefore, payment of goods in stages and matching with the payment capability of local consumers become a necessary foundation for accelerating popularization of the solar off-grid system in the power-shortage area. The area where these end users are located is substantially free of the internet and the mobile signals are unstable or even absent. So that the traditional installment products monitored by the network-based online (internet, mobile signal) background server cannot enter the region at all. The off-line technical method with high safety and flexibility is embodied on the solar off-network prepayment product, so that the solar off-network prepayment product can be used for honest and confident terminal consumers conveniently, the use of the maximum limiting product of a few malicious arrearage terminal users can be restricted, and the prepayment asset management of dealers and terminal consumers is guaranteed. The solar off-grid passive products such as televisions, refrigerators, fans and the like support installment payment, and can help local residents to use the solar off-grid passive products more conveniently and conveniently.

At present, the solar off-grid product in the prior art has the following problems:

firstly, the prepaid off-network products in the existing market are all realized by adopting active solar off-network products, and then, the prepaid off-network solar passive products in the market are few, so that the desire of some expensive off-network solar passive products for purchasing consumers is also restrained locally, and the development of the whole off-network solar industry is limited to a certain extent.

Second, although it is in the age of rapid development of internet economy, facing countries and regions with power shortage and no power, traditional installment products monitored by a network-based online (internet, mobile signal) background server cannot enter the region at all; some manufacturers propose a product solution adopting credit management type installment payment at present, but the personal credit management in the regions of the underdeveloped countries is very imperfect, few terminal consumers exist to maliciously arrear the installment payment, although the means of getting back the product at home and the like can be carried out, the method usually involves considerable manpower and material resources of the enterprise, and brings much trouble to the normal operation of the enterprise.

Third, in the existing solar off-grid prepaid product market, active products and passive load products of solar off-grid are matched and combined together for sale. When the solar off-network passive product paid by the client by stages is paid with the tail money or the consumer with the capability directly purchases the solar off-network product by the whole money, the client still can not separate the active product from the passive product and can only use the product by binding permanently, thus being unfair for the end consumer. And the existing solar off-network passive load product is an independent prepayment system, when a customer purchases the solar off-network active device and other passive load products at the same time, the customer needs to pay and recharge the passwords at the same time, and the terminal user can not distinguish whether the passwords belong to the active device product or the passive load product at all, and the terminal user confuses the recharging passwords for the active product and the passive product, so that the time spent by the terminal user is too long and inconvenient due to the confusion of the recharging passwords.

Therefore, there is an urgent need to provide a safe, reliable, logically simple method for monitoring installment of passive electronic loads.

Disclosure of Invention

In view of the above problems, the present invention aims to provide an installment monitoring method for passive electronic loads, and the technical solution adopted by the present invention is as follows:

an installment supervision method for passive electronic loads, comprising the steps of:

step S01, the method includes steps of initially charging the solar off-grid active battery device and the passive load device which are purchased simultaneously; the initial load comprises an ID signal and an installment day;

step S02, connecting the solar off-grid active battery equipment with passive load equipment, and reading the prepayment state of the solar off-grid active battery equipment by using the passive load equipment; if the solar off-grid active battery equipment is in an installment state, the step S03 is carried out, otherwise, the step S06 is carried out;

step S03, inquiring ID information of the solar off-grid active battery equipment, comparing the ID information with ID information preset in the passive load equipment by initial recharging, and if the ID information is consistent with the ID information preset in the passive load equipment, entering step S04; otherwise, assigning the ID information of the solar off-grid active battery equipment to the passive load equipment, and entering the step S04;

step S04, accessing and acquiring the remaining days by using the passive load equipment; the remaining days are gradually decreased day by day of the installments payment days; if the remaining days are greater than 0, the process proceeds to step S05; otherwise, locking the passive load device;

step S05, using passive load equipment to inquire whether a clock failure signal exists in the solar off-grid active battery equipment, if so, locking the passive load equipment; otherwise, returning to the step S03, and accessing at an interval of T time;

step S06, using passive load device to inquire ID information of solar off-grid active battery device, comparing with ID information preset in passive load device,

step S07, if the time interval is consistent with the preset time interval, returning to the step S06; otherwise, the solar off-grid active battery equipment and the passive load equipment are unbound.

Further, T is 1 hour.

Further, if the passive load device is purchased for a full amount, a free code is initially charged to the passive load device.

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

(1) the invention solves the problem that the prior solar off-network passive load product can realize high-security and high-flexibility off-line prepayment mode for asset management and distribution in areas without internet, unstable or even no mobile signal, the number of days of installment payment and the asset are encrypted by a Hash algorithm, and a cipher chain { N } can only go forward and cannot go back, but can only be an irreversible cipher chain according to { N +1, N +2, N +3, N +4 }, when a terminal consumer pays off the solar off-network product for a fee, a Free Code { Free Code } can be generated to charge off-network equipment for the terminal user; when the end user does not want to use the off-network device, a Reset Code can be generated to clear the off-network device for the day number of days, and the number is Reset, and the dealer can sell the product again for sale.

(2) When a terminal customer purchases the solar off-network active battery device and the passive load product at the same time, only one-time password needs to be charged, the passive load product can send an instruction to match in the past when being connected with the active device, the passive load can read the current state of the active device, and the prepayment system of the two products can work only by charging the password once, so that the trouble that the passive load needs to be charged is reduced.

(3) According to the invention, for customers who purchase the passive electronic load in whole money, the passive electronic load can be purchased independently without matching with active battery equipment as communication, the passive electronic load can automatically break away from communication, and a proper power supply can be matched at will to supply power to the passive electronic load; the passive electronic load can automatically break away from communication for clients paying off by installments, and the passive electronic load can be supplied with power by matching with a proper power supply at will besides being supplied with power by matching with active battery equipment.

In conclusion, the invention has the advantages of safety, reliability, simple logic and the like, and has high practical value and popularization value in the technical field of installments payment of passive electronic loads.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope of protection, and it is obvious for those skilled in the art that other related drawings can be obtained according to these drawings without inventive efforts.

FIG. 1 is a logic diagram of the present invention.

Detailed Description

To further clarify the objects, technical solutions and advantages of the present application, the present invention will be further described with reference to the accompanying drawings and examples, and embodiments of the present invention include, but are not limited to, the following examples. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Examples

As shown in fig. 1, the embodiment is an installment supervision method for passive electronic loads, which includes the following steps:

firstly, a part of powerful consumers can directly pay for a whole purchase like a traditional product at one time, so that a passive load product (when the state is that the TVS is 1) can be normally used, the passive load can be separated from the solar off-grid active battery device, more choices are provided for an end user, the end user can provide a proper active power supply for supplying power to the passive load by himself, and the value of the passive load product is that the TVS is 1 all the time, and the next operation cannot be executed.

In addition, a consumer who needs to pay for a prepaid installment purchases both the solar off-grid active device and the passive load device, and the passive load (at this time, the state is TVS ═ 0) reads the prepaid state of the active battery device. The passive load device then sends an instruction to check the current state value (detecting the current prepaid installment state or the full Free state of the active device), and when detecting whether the current state value is Free, if not, the passive load device will inquire the ID information of the active battery, and compare with the ID information preset in the passive load device by initial charging, the passive load device will write the current active battery ID into the eerp rom independent storage area of the passive load directly when detecting the ID inconsistency. And then the passive device sends an instruction to determine whether the value of the number of access days is greater than 0, if the number of the access days is 0, the passive device belongs to a locked state and returns to the original factory locked value, if the number of the access days is greater than 0, the passive load device further needs to continuously send an instruction to inquire whether the current active device has a clock failure signal {0 represents normal, 1 represents error information }, when 1 is detected, the passive load device directly returns to the locked state, when 0 is detected, the passive product normally works, and the access is continuously performed once every hour.

When the passive load device (TVS ═ 0) sends an instruction to detect that the current active battery device is in Free state, the passive load device will inquire whether the ID of the active device is consistent with the ID of the eerp rom storage area of the passive load, if the two are not consistent, the passive load device will return to the initial inquiry state of the passive load and the active battery, and the access will continue once every hour. When the passive load device accesses the active battery device ID and the storage area ID of the passive load device EEPROM, the TVS is 1, and when the TVS of the passive device is 1, the active device and the passive load device can be separated from the binding.

The above-mentioned embodiments are only preferred embodiments of the present invention, and do not limit the scope of the present invention, but all the modifications made by the principles of the present invention and the non-inventive efforts based on the above-mentioned embodiments shall fall within the scope of the present invention.

Claims (3)

1. An installment supervision method for passive electronic loads, characterized by comprising the following steps:

step S01, the method includes steps of initially charging the solar off-grid active battery device and the passive load device which are purchased simultaneously; the initial load comprises an ID signal and an installment day;

step S02, connecting the solar off-grid active battery equipment with passive load equipment, and reading the prepayment state of the solar off-grid active battery equipment by using the passive load equipment; if the solar off-grid active battery equipment is in an installment state, the step S03 is carried out, otherwise, the step S06 is carried out;

step S03, inquiring ID information of the solar off-grid active battery equipment, comparing the ID information with ID information preset in the passive load equipment by initial recharging, and if the ID information is consistent with the ID information preset in the passive load equipment, entering step S04; otherwise, assigning the ID information of the solar off-grid active battery equipment to the passive load equipment, and entering the step S04;

step S04, accessing and acquiring the remaining days by using the passive load equipment; the remaining days are gradually decreased day by day of the installments payment days; if the remaining days are greater than 0, the process proceeds to step S05; otherwise, locking the passive load device;

step S05, using passive load equipment to inquire whether a clock failure signal exists in the solar off-grid active battery equipment, if so, locking the passive load equipment; otherwise, returning to the step S03, and accessing at an interval of T time;

step S06, using passive load device to inquire ID information of solar off-grid active battery device, comparing with ID information preset in passive load device,

step S07, if the time interval is consistent with the preset time interval, returning to the step S06; otherwise, the solar off-grid active battery equipment and the passive load equipment are unbound.

2. The method of claim 1, wherein T is 1 hour.

3. The method of claim 1, wherein the passive load device is initially charged with a free code if the passive load device is a full purchase.

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