CN113496433A - Equipment lease charging method and system based on industrial internet identification - Google Patents

Abstract

The invention relates to the technical field of data processing, in particular to an equipment lease charging method and a system based on industrial internet identification, wherein when a charging device is started, corresponding associated information is obtained at an industrial internet identification resolving node according to an industrial internet identification code of production equipment; the associated information comprises the information of the quantity of the produced products, the rent information and the rent unit price information of the products; sending a starting instruction to a control system of the production equipment to start the production equipment; acquiring product output quantity information at a product output port of the production equipment; calculating rent increment information according to the product output quantity information and the product rent unit price information; updating the associated information according to the product output quantity information and the rent increment information; therefore, when equipment rent is calculated according to the number of produced products, more real and accurate product number information can be obtained, and the accuracy of charging is improved.

Description

Equipment lease charging method and system based on industrial internet identification

Technical Field

The invention relates to the technical field of data processing, in particular to an equipment lease charging method and system based on industrial internet identification.

Background

Generally, when a production device is leased, the production device is charged according to the lease duration, however, after the leased device is leased, the production device may be idle due to the decrease of orders by the lessee, but the lease of the device is still accumulated at this time, which results in extra loss. For this reason, a method for calculating a rent by a member is proposed, in which a predetermined unit price is multiplied by the number of products produced by a production device to obtain a rent to be paid by a lessee, however, at present, the number of products produced by the production device is generally obtained through production management information (such as a warehousing registration table) provided by the lessee, which is easy to counterfeit and has low credibility, thereby resulting in low charging accuracy.

Disclosure of Invention

In view of the defects of the prior art, an object of the embodiments of the present application is to provide an apparatus lease charging method and system based on an industrial internet identifier, which aim to solve the problem that the charging accuracy is low due to low reliability of the obtained product quantity information when an apparatus lease is calculated by using the produced product quantity in the prior art.

In a first aspect, an embodiment of the present application provides an equipment lease charging method based on an industrial internet identifier, which is applied to a charging device, where the charging device is in communication connection with a control system of a production equipment; the equipment lease charging method based on the industrial Internet identification comprises the following steps:

A1. when the industrial internet identification code is started, acquiring corresponding associated information at an industrial internet identification resolving node according to the industrial internet identification code of the production equipment; the associated information comprises the information of the quantity of the produced products, the rent information and the rent unit price information of the products;

A2. sending a starting instruction to a control system of the production equipment to start the production equipment;

A3. acquiring product output quantity information at a product output port of the production equipment;

A4. calculating rent increment information according to the product output quantity information and the product rent unit price information;

A5. and updating the associated information according to the product output quantity information and the rent increment information.

According to the equipment lease charging method based on the industrial internet identification, after the charging device is started and the starting instruction is sent to the production equipment, the production equipment can be started, the situation that a tenant directly uses the production equipment to produce to avoid monitoring without starting the charging device can be avoided, in the working process of the production equipment, the charging device obtains the product output quantity information at the product output port of the production equipment to calculate the rent increment, corresponding associated information is updated at the industrial internet identification analysis node, and the tenant does not have the authority to modify the associated information at the industrial internet identification analysis node, so that the produced product quantity information and the rent information recorded in the associated information are real and accurate, the tenant can be effectively prevented from being fake, and the charging accuracy is improved.

Preferably, step a3 includes:

and acquiring product output quantity information at the product output port of the production equipment according to the triggering times of the photoelectric sensor arranged at the product output port of the production equipment.

Preferably, after the step A3 and before the step A4, the method further comprises the steps of:

A6. acquiring the work duration information of the production equipment;

A7. judging whether the output quantity information of the products is credible or not according to the working duration information;

A8. if the confidence level is high, executing the steps A4 and A5; and if the information is not credible, sending a shutdown instruction to a control system of the production equipment and sending an alarm signal.

Preferably, the associated information further includes product output quantity information per unit time of the production equipment; step a7 includes:

calculating an estimated product output quantity value according to the work duration information and the unit time product output quantity information;

calculating a deviation between the product output quantity estimate and the product output quantity information;

judging whether the deviation is within a preset tolerance range;

if so, judging that the output quantity information of the product is credible; otherwise, judging that the output quantity information of the product is not credible.

Preferably, step a5 includes:

accumulating the product output quantity information to the produced product quantity information to obtain new produced product quantity information;

accumulating the rent increment information to the rent information to obtain new rent information;

and replacing the produced product quantity information and the rent information in the associated information with the new produced product quantity information and the new rent information respectively.

In a second aspect, an embodiment of the present application provides an equipment lease charging system based on an industrial internet identifier, including a production equipment and a charging device; the charging device is in communication connection with a control system of the production equipment;

the charging device is used for acquiring corresponding associated information at an industrial internet identification analysis node according to an industrial internet identification code of the production equipment when the charging device is started, wherein the associated information comprises produced product quantity information, rent information and product rent unit price information, a starting instruction is sent to a control system of the production equipment to start the production equipment, product output quantity information at a product output port of the production equipment is acquired, rent increment information is calculated according to the product output quantity information and the product rent unit price information, and the associated information is updated according to the product output quantity information and the rent increment information.

Preferably, the billing device comprises a photoelectric sensor arranged at a product output port of the production equipment; when the charging device acquires the product output quantity information at the product output port of the production equipment:

and acquiring product output quantity information at a product output port of the production equipment according to the number of times that the photoelectric sensor is triggered.

Preferably, the charging device acquires the work duration information of the production equipment after acquiring the output quantity information of the products at the product output port of the production equipment; judging whether the output quantity information of the products is credible or not according to the working duration information; if the production equipment is not credible, sending a shutdown instruction to a control system of the production equipment and sending an alarm signal; if the execution is trusted:

and calculating rent increment information according to the product output quantity information and the product rent unit price information, and updating the associated information according to the product output quantity information and the rent increment information.

Preferably, the associated information further includes product output quantity information per unit time of the production equipment; when the charging device judges whether the product output quantity information is credible according to the work duration information:

calculating an estimated product output quantity value according to the work duration information and the unit time product output quantity information;

calculating a deviation between the product output quantity estimate and the product output quantity information;

judging whether the deviation is within a preset tolerance range;

if so, judging that the output quantity information of the product is credible; otherwise, judging that the output quantity information of the product is not credible.

Preferably, when updating the association information according to the product output quantity information and the rent increment information, the charging apparatus:

accumulating the product output quantity information to the produced product quantity information to obtain new produced product quantity information;

accumulating the rent increment information to the rent information to obtain new rent information;

and replacing the produced product quantity information and the rent information in the associated information with the new produced product quantity information and the new rent information respectively.

Has the advantages that:

according to the equipment lease charging method and system based on the industrial internet identification, after the charging device is started and the starting instruction is sent to the production equipment, the production equipment can be started, the situation that a tenant directly uses the production equipment to produce to avoid monitoring without starting the charging device can be avoided, in the working process of the production equipment, the charging device obtains the product output quantity information at the product output port of the production equipment to calculate the rent increment, corresponding associated information is updated at the industrial internet identification analysis node, and the tenant does not have the authority to modify the associated information at the industrial internet identification analysis node, so that the produced product quantity information and the rent information recorded in the associated information are real and accurate, the tenant can be effectively prevented from being fake, and the charging accuracy is improved.

Drawings

Fig. 1 is a flowchart of an apparatus lease charging method based on an industrial internet identifier according to an embodiment of the present application.

Fig. 2 is a schematic structural diagram of a device rental billing system based on an industrial internet identifier according to an embodiment of the present application.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, features defined as "first", "second", may explicitly or implicitly include one or more of the described features. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

The following disclosure provides embodiments or examples for implementing different configurations of the invention. To simplify the disclosure of the present invention, the components and arrangements of specific examples are described below. Of course, they are merely examples and are not intended to limit the present invention. Furthermore, the present invention may repeat reference numerals and/or letters in the various examples, such repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed. In addition, the present invention provides examples of various specific processes and materials, but those of ordinary skill in the art will recognize applications of other processes and/or uses of other materials.

Referring to fig. 1, the equipment lease charging method based on the industrial internet identifier according to the embodiment of the present application is applied to a charging device, and the charging device is in communication connection with a control system of a production equipment; the equipment lease charging method based on the industrial Internet identification comprises the following steps:

A1. when the industrial internet identification code is started, acquiring corresponding associated information at an industrial internet identification resolving node according to the industrial internet identification code of the production equipment; the associated information comprises the information of the quantity of the produced products, the rent information and the rent unit price information of the products;

A2. sending a starting instruction to a control system of the production equipment to start the production equipment;

A3. acquiring product output quantity information at a product output port of the production equipment;

A4. calculating rent increment information according to the product output quantity information and the product rent unit price information;

A5. and updating the associated information according to the product output quantity information and the rent increment information.

In practical application, the industrial internet identification code is distributed to the production equipment by a lender of the production equipment in advance and recorded in the charging device, and the lender records corresponding associated information for the industrial internet identification code at an industrial internet identification analysis node (generally, a secondary node, but not limited thereto), wherein before the production equipment is rented, initial values of produced product quantity information and rent information in the associated information are both 0. The industrial internet identification code can also be arranged (arranged in a mode of pasting, spraying, carving and the like) on the production equipment, so that a lessee can check corresponding associated information according to the industrial internet identification code, but the lessee can only check the associated information and does not have the authority to modify the associated information in the industrial internet identification analysis node.

The equipment lease charging method based on the industrial internet identification is characterized in that after the charging device is started and a starting instruction is sent to the production equipment, the production equipment can be started (namely, the production equipment can be started only when the charging device is started), can avoid monitoring by directly using production equipment to produce without starting a charging device by a lessee, the charging device acquires the product output quantity information at the product output port of the production equipment to calculate rent increment, and further updates corresponding associated information at the industrial internet identification analysis node, since the lessee does not have the right to modify the association information at the industrial internet identity resolution node, the produced product quantity information and rent information recorded in the associated information are real and accurate, so that the false creation of a lessee can be effectively avoided, and the charging accuracy is improved.

In addition, if the rental price of the renter is changed, the rental unit price information of the product only needs to be directly updated in the associated information, the associated information is inquired after the charging device is started each time, so that the updated rental unit price information of the product can be obtained, the price can be charged according to the new rental unit price information of the product, the new rental unit price information of the product does not need to be sent to the charging device independently, and the charging error caused by the fact that the new rental unit price information of the product is not timely sent to the charging device is avoided.

It should be noted that, if the charging device stops working during the operation of the production equipment, the production equipment needs to stop working, so as to prevent the tenant from closing the charging device to avoid monitoring after starting the production equipment. For example, in some embodiments, after step a2, the method further comprises the steps of:

and periodically sending heartbeat signals to the production equipment according to a preset period so as to keep the production equipment in a working state.

The heartbeat signal is used for informing the production equipment that the charging device is in a working state, and the specific content of the heartbeat signal can be set according to actual needs, and is not limited here; the charging device can send heartbeat signals to the production equipment only in a working state, when the charging device stops working, the heartbeat signals are not sent to the production equipment any more, and when a control system of the production equipment cannot receive the heartbeat signals within a continuous preset time period (the length of the preset time period can be set according to actual needs), the production equipment is controlled to stop. Therefore, the production equipment can work only when the charging device is in a working state, and the production equipment is always monitored by the charging device when working.

In practical application, products produced by production equipment are generally output from a product output port, and if a sensor (such as a photoelectric sensor) is arranged at the product output port of the production equipment to detect the output quantity of the products, the quantity of the products produced by the production equipment can be acquired in real time; thus, in some embodiments, step a3 includes:

and acquiring product output quantity information at the product output port of the production equipment according to the triggering times of the photoelectric sensor arranged at the product output port of the production equipment.

For example, the correlation laser sensor is arranged at a product output port of the production equipment, and when one product passes through between a transmitting end and a receiving end of the correlation laser sensor, laser between the transmitting end and the receiving end is blocked, so that the correlation laser sensor generates a trigger signal, and the frequency of receiving the trigger signal by the charging device is the product output number.

In practice, the photoelectric sensor may also be an infrared sensor, an ultrasonic sensor, a radar sensor, or the like.

A camera may also be arranged at the product output port of the production equipment, so that the information of the product output quantity at the product output port of the production equipment is obtained in step a3 through an image recognition method.

Specifically, in step a4, the rental increment information is obtained by multiplying the product output quantity information by the product rental unit price information.

Sometimes, the output quantity information of the products acquired by the charging device is not credible due to the reasons that the charging device fails, the sensor at the product output port fails or the renter takes out the products before the products reach the product output port, so that the charging is inaccurate; to this end, in some preferred embodiments, after step A3 and before step a4, the method further comprises the steps of:

A6. acquiring the work duration information of the production equipment;

A7. judging whether the output quantity information of the products is credible or not according to the working duration information;

A8. if the confidence level is high, executing the steps A4 and A5; and if the information is not credible, sending a shutdown instruction to a control system of the production equipment and sending an alarm signal.

For example, the related information further includes product output amount information per unit time of the production equipment; step a7 includes:

calculating an estimate of product output based on the work duration information and the unit time product output information (specifically, multiplying the work duration information by the unit time product output information);

calculating a deviation between the product output quantity estimate and the product output quantity information;

judging whether the deviation is within a preset tolerance range (which can be set according to actual requirements);

if so, judging that the output quantity information of the product is credible; otherwise, judging that the output quantity information of the product is not credible.

The output quantity information of the production equipment in unit time can be measured by a leasing party in advance and recorded in the associated information, or can be calculated according to the historical operation data of the production equipment and recorded in the associated information. For the latter mode, step a7 is followed by the steps of:

A9. if the product output quantity information is credible, calculating the product output quantity information of the current operation in unit time according to the product output quantity information and the working duration information, and then calculating the average value of the product output quantity information of the current operation in unit time and the product output quantity information of the unit time in the associated information;

A10. and updating the product output quantity information in unit time in the associated information by taking the average value as new product output quantity information in unit time.

Therefore, the output quantity information of the products in unit time in the associated information can be updated according to the actual working condition of the production equipment, and the reliability is higher.

Specifically, step a5 includes:

accumulating the product output quantity information to the produced product quantity information to obtain new produced product quantity information;

accumulating the rent increment information to the rent information to obtain new rent information;

and replacing the produced product quantity information and the rent information in the associated information with the new produced product quantity information and the new rent information respectively.

Therefore, according to the equipment lease charging method based on the industrial internet identification, when the charging device is started, corresponding associated information is obtained at an industrial internet identification analysis node according to the industrial internet identification code of the production equipment; the associated information comprises the information of the quantity of the produced products, the rent information and the rent unit price information of the products; sending a starting instruction to a control system of the production equipment to start the production equipment; acquiring product output quantity information at a product output port of the production equipment; calculating rent increment information according to the product output quantity information and the product rent unit price information; updating the associated information according to the product output quantity information and the rent increment information; therefore, when equipment rent is calculated according to the number of produced products, more real and accurate product number information can be obtained, and the accuracy of charging is improved.

Referring to fig. 2, an embodiment of the present application provides an equipment lease charging system based on an industrial internet identifier, including a production equipment 1 and a charging device 2; the charging device 2 is in communication connection with the control system 101 of the production equipment 1;

the charging device 2 is configured to, when starting up, obtain corresponding associated information at an industrial internet identifier resolution node according to an industrial internet identifier of the production equipment 1, where the associated information includes produced product quantity information, rent information, and product rent unit price information, send a start instruction to the control system 101 of the production equipment 1, start up the production equipment 1, obtain product output quantity information at a product output port of the production equipment 1, calculate rent increment information according to the product output quantity information and the product rent unit price information, and update the associated information according to the product output quantity information and the rent increment information.

In some embodiments, see fig. 2, the production facility 1 comprises a control system 101 and an execution system 102; the execution system 102 is a main body of the production apparatus 1 for executing actions of the production process; the control system 101 is used for controlling the operation of the execution system 102. The charging device 2 comprises a control module 201 and a gateway 202, the control module 201 can be but is not limited to an MCU control module, and the control module 201 is connected to the industrial internet identity resolution node through the gateway 202 in a communication manner.

In practical application, the industrial internet identification code is distributed to the production equipment 1 by a lender of the production equipment 1 in advance and recorded in the charging device 2, and the lender records corresponding associated information for the industrial internet identification code at an industrial internet identification analysis node (generally, a secondary node, but not limited thereto), wherein before the production equipment 1 is rented, initial values of produced product quantity information and rent information in the associated information are both 0. The industrial internet identification code can also be set (by means of pasting, spraying, carving and the like) on the production equipment 1, so that the lessee can check the corresponding associated information according to the industrial internet identification code, but the lessee can only check the associated information and has no authority to modify the associated information in the industrial internet identification analysis node.

If the charging device 2 stops operating during the operation of the production facility 1, the production facility 1 needs to stop operating so as to prevent the tenant from closing the charging device 2 to avoid monitoring after starting the production facility 1. For example, in some embodiments, the charging apparatus 2 is further configured to, after sending a start instruction to the control system 101 of the production facility 1:

and periodically sending heartbeat signals to the production equipment according to a preset period so as to keep the production equipment in a working state.

The heartbeat signal is used for informing the production equipment 1 that the charging device 2 is in a working state, and the specific content of the heartbeat signal can be set according to actual needs, and is not limited here; the charging device 2 sends the heartbeat signal to the production equipment 1 only in the working state, when the charging device 1 stops working, the heartbeat signal is not sent to the production equipment 2 any more, and the control system 101 of the production equipment 1 controls the production equipment 1 to stop when the heartbeat signal cannot be received in a continuous preset time period (the length of the preset time period can be set according to actual needs). Therefore, the production equipment 1 can work only when the charging device 2 is in a working state, and the production equipment 1 is ensured to be monitored by the charging device 2 all the time when working.

In practical application, products produced by the production equipment 1 are generally output from a product output port, and if a sensor (such as a photoelectric sensor 203) is arranged at the product output port of the production equipment 1 to detect the output quantity of the products, the quantity of the products produced by the production equipment can be acquired in real time; thus, in some embodiments, the billing device 2 comprises a photosensor 203 arranged at the product outlet of the production facility 1; when the charging device 2 obtains the product output quantity information at the product output port of the production equipment 1:

and acquiring the product output quantity information at the product output port of the production equipment 1 according to the number of times that the photoelectric sensor 203 is triggered.

For example, a correlation laser sensor is provided at a product output port of the production apparatus 1, and when a product passes through between a transmitting end and a receiving end of the correlation laser sensor, laser between the transmitting end and the receiving end is blocked, so that the correlation laser sensor generates a trigger signal, and the number of times the charging device 2 receives the trigger signal is the product output number.

In practice, the photoelectric sensor 203 may be an infrared sensor, an ultrasonic sensor, a radar sensor, or the like.

A camera may also be arranged at the product output port of the production equipment 1, so that the charging device 2 obtains the information of the product output quantity at the product output port of the production equipment 1 by an image recognition method.

Specifically, when calculating the rent increment information according to the product output quantity information and the product rent unit price information, the charging device 2 multiplies the product rent unit price information by the product output quantity information to obtain rent increment information.

Sometimes, the output quantity information of the product acquired by the charging device 2 is not credible due to the reasons that the charging device 2 is in fault, the sensor at the product output port is in fault, or the product is taken out by a lessee before the product reaches the product output port, so that the charging is inaccurate; for this purpose, in some preferred embodiments, the charging device 2 acquires the operation duration information of the production equipment 1 after acquiring the output quantity information of the product at the product output port of the production equipment 1; judging whether the output quantity information of the products is credible or not according to the working duration information; if the information is not credible, sending a shutdown instruction to the control system 101 of the production equipment 1 and sending an alarm signal; if the execution is trusted:

and calculating rent increment information according to the product output quantity information and the product rent unit price information, and updating the associated information according to the product output quantity information and the rent increment information.

For example, the related information further includes product output amount information per unit time of the production equipment; when the charging device 2 judges whether the product output quantity information is credible according to the work duration information:

calculating an estimate of product output based on the work duration information and the unit time product output information (specifically, multiplying the work duration information by the unit time product output information);

calculating a deviation between the product output quantity estimate and the product output quantity information;

judging whether the deviation is within a preset tolerance range (which can be set according to actual requirements);

if so, judging that the output quantity information of the product is credible; otherwise, judging that the output quantity information of the product is not credible.

The product output amount information of the production equipment 1 per unit time can be measured by a leasing party in advance and recorded in the associated information, or can be calculated according to the historical operation data of the production equipment 1 and recorded in the associated information. As for the latter mode, after determining whether the product output quantity information is authentic according to the work duration information, the charging device 2 further performs:

if the product output quantity information is credible, calculating the product output quantity information of the current operation in unit time according to the product output quantity information and the work duration information (dividing the product output quantity information by the work duration information), and then calculating the average value of the product output quantity information of the current operation in unit time and the product output quantity information of the unit time in the associated information;

and updating the product output quantity information in unit time in the associated information by taking the average value as new product output quantity information in unit time.

Therefore, the output quantity information of the products in unit time in the associated information can be updated according to the actual working condition of the production equipment 1, and the reliability is higher.

Specifically, when updating the association information according to the product output quantity information and the rent increment information, the charging apparatus 2:

accumulating the product output quantity information to the produced product quantity information to obtain new produced product quantity information;

accumulating the rent increment information to the rent information to obtain new rent information;

and replacing the produced product quantity information and the rent information in the associated information with the new produced product quantity information and the new rent information respectively.

Therefore, when the charging device is started, the equipment lease charging system based on the industrial internet identification acquires corresponding associated information at an industrial internet identification resolving node according to the industrial internet identification code of the production equipment; the associated information comprises the information of the quantity of the produced products, the rent information and the rent unit price information of the products; sending a starting instruction to a control system of the production equipment to start the production equipment; acquiring product output quantity information at a product output port of the production equipment; calculating rent increment information according to the product output quantity information and the product rent unit price information; updating the associated information according to the product output quantity information and the rent increment information; therefore, when equipment rent is calculated according to the number of produced products, more real and accurate product number information can be obtained, and the accuracy of charging is improved.

In summary, although the present invention has been described with reference to the preferred embodiments, the above-described preferred embodiments are not intended to limit the present invention, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention, which are substantially the same as the present invention.

Claims (10)

1. The equipment lease charging method based on the industrial Internet identification is characterized by being applied to a charging device, wherein the charging device is in communication connection with a control system of production equipment; the equipment lease charging method based on the industrial Internet identification comprises the following steps:

A1. when the industrial internet identification code is started, acquiring corresponding associated information at an industrial internet identification resolving node according to the industrial internet identification code of the production equipment; the associated information comprises the information of the quantity of the produced products, the rent information and the rent unit price information of the products;

A2. sending a starting instruction to a control system of the production equipment to start the production equipment;

A3. acquiring product output quantity information at a product output port of the production equipment;

A4. calculating rent increment information according to the product output quantity information and the product rent unit price information;

A5. and updating the associated information according to the product output quantity information and the rent increment information.

2. The method for charging rental of equipment based on industrial internet identification as claimed in claim 1, wherein step a3 comprises:

and acquiring product output quantity information at the product output port of the production equipment according to the triggering times of the photoelectric sensor arranged at the product output port of the production equipment.

3. The method for billing rental of equipment based on industrial internet identification as claimed in claim 1, wherein after step A3 and before step a4, further comprising the steps of:

A6. acquiring the work duration information of the production equipment;

A7. judging whether the output quantity information of the products is credible or not according to the working duration information;

A8. if the confidence level is high, executing the steps A4 and A5; and if the information is not credible, sending a shutdown instruction to a control system of the production equipment and sending an alarm signal.

4. The method for billing rental of equipment based on industrial internet id as claimed in claim 3, wherein said related information further includes output quantity per unit time information of said production equipment; step a7 includes:

calculating an estimated product output quantity value according to the work duration information and the unit time product output quantity information;

calculating a deviation between the product output quantity estimate and the product output quantity information;

judging whether the deviation is within a preset tolerance range;

if so, judging that the output quantity information of the product is credible; otherwise, judging that the output quantity information of the product is not credible.

5. The method for charging rental of equipment based on industrial internet identification as claimed in claim 1, wherein step a5 comprises:

accumulating the product output quantity information to the produced product quantity information to obtain new produced product quantity information;

accumulating the rent increment information to the rent information to obtain new rent information;

and replacing the produced product quantity information and the rent information in the associated information with the new produced product quantity information and the new rent information respectively.

6. An equipment lease charging system based on industrial internet identification is characterized by comprising production equipment and a charging device; the charging device is in communication connection with a control system of the production equipment;

the charging device is used for acquiring corresponding associated information at an industrial internet identification analysis node according to an industrial internet identification code of the production equipment when the charging device is started, wherein the associated information comprises produced product quantity information, rent information and product rent unit price information, a starting instruction is sent to a control system of the production equipment to start the production equipment, product output quantity information at a product output port of the production equipment is acquired, rent increment information is calculated according to the product output quantity information and the product rent unit price information, and the associated information is updated according to the product output quantity information and the rent increment information.

7. The equipment lease billing system based on industrial internet identification as claimed in claim 6, wherein the billing means comprises a photoelectric sensor provided at a product output port of the production equipment; when the charging device acquires the product output quantity information at the product output port of the production equipment:

and acquiring product output quantity information at a product output port of the production equipment according to the number of times that the photoelectric sensor is triggered.

8. The system of claim 6, wherein the billing means obtains the duration information of the operation of the production equipment after obtaining the output quantity information of the product at the output port of the production equipment; judging whether the output quantity information of the products is credible or not according to the working duration information; if the production equipment is not credible, sending a shutdown instruction to a control system of the production equipment and sending an alarm signal; if the execution is trusted:

and calculating rent increment information according to the product output quantity information and the product rent unit price information, and updating the associated information according to the product output quantity information and the rent increment information.

9. The system of claim 8, wherein the related information further comprises product output per unit time information of the manufacturing equipment; when the charging device judges whether the product output quantity information is credible according to the work duration information:

calculating an estimated product output quantity value according to the work duration information and the unit time product output quantity information;

calculating a deviation between the product output quantity estimate and the product output quantity information;

judging whether the deviation is within a preset tolerance range;

if so, judging that the output quantity information of the product is credible; otherwise, judging that the output quantity information of the product is not credible.

10. The system of claim 6, wherein the billing means, when updating the association information according to the product output quantity information and the rent increment information:

accumulating the product output quantity information to the produced product quantity information to obtain new produced product quantity information;

accumulating the rent increment information to the rent information to obtain new rent information;

and replacing the produced product quantity information and the rent information in the associated information with the new produced product quantity information and the new rent information respectively.

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