CN112709933A - Intelligent cylinder valve control system and method - Google Patents

Abstract

The invention discloses an intelligent cylinder valve control system and method. The intelligent cylinder valve control system comprises a control device for receiving and storing pre-used gas output information and generating a gas output control instruction; and the cylinder valve component is used for receiving and executing the air outlet action according to the air outlet control instruction. When the liquefied petroleum gas pre-using device is used, a user can upload pre-used gas output information to the control device, the control device receives and stores the pre-used gas output information and then generates a gas output control instruction, the cylinder valve assembly receives and executes a gas output action according to the gas output control instruction, so that the user can plan the pre-used gas output of the liquefied petroleum gas used each time, the pre-use times of each bottle of liquefied petroleum gas are estimated, liquid is timely filled into the steel cylinder when the pre-use times are nearly used up, the liquefied petroleum gas cannot be found to be exhausted until the stove cannot be ignited, the normal use of the user in daily life is ensured, and the use convenience of the bottled liquefied petroleum gas is improved.

Description

Intelligent cylinder valve control system and method

Technical Field

The invention relates to the technical field of valve control, in particular to an intelligent cylinder valve control system and method.

Background

Liquefied petroleum gas is used as a novel fuel, has the advantages of convenience, quickness, cleanness and the like, and more residents adopt the liquefied petroleum gas as an important fuel for cooking and warming.

The liquefied petroleum gas for residents is generally filled in a liquefied gas cylinder (steel cylinder for short), and when the liquefied petroleum gas in the steel cylinder is used up, the steel cylinder is transported to a gas supply station for filling. At present, in the process of using liquefied petroleum gas, residents cannot plan the actual consumption of liquefied natural gas in advance, and cannot estimate the use times and use period of each bottle of liquefied gas, so that the residents can know that the liquefied petroleum gas in a steel cylinder is used up when the kitchen range cannot be ignited, the use of the residents in daily life is influenced, and the use convenience of the bottled liquefied petroleum gas is reduced.

Therefore, how to improve the convenience of using the bottled liquefied petroleum gas becomes a technical problem to be solved urgently by those skilled in the art.

Disclosure of Invention

The invention aims to provide an intelligent cylinder valve control system and method to improve the convenience of using bottled liquefied petroleum gas.

To achieve the above object, the present invention provides an intelligent cylinder valve control system, comprising:

the control device is used for receiving and storing the pre-used air output information and generating an air output control instruction;

and the cylinder valve component is used for receiving and executing the air outlet action according to the air outlet control instruction.

Preferably, in the above smart cylinder valve control system, the cylinder valve assembly comprises:

the valve is used for adjusting the air outlet opening degree;

and the air outlet control unit is used for receiving and controlling the valve to execute air outlet action according to the air outlet control instruction.

Preferably, in the above intelligent cylinder valve control system, the cylinder valve assembly further includes a gas amount detection unit for collecting the gas use surplus information of the user; and the air outlet control unit is combined with the air outlet control instruction and the air consumption allowance information to control the valve to execute air outlet action.

Preferably, in the above intelligent cylinder valve control system, the gas amount detection unit is an ultrasonic sensor, an infrared sensor or a hall sensor.

Preferably, in the above intelligent cylinder valve control system, the control device includes a storage unit and a gas consumption control unit, the storage unit is configured to store the prepaid information of the user, and the gas consumption control unit is configured to receive the information of the prepaid gas consumption and generate the gas consumption control instruction by combining the information of the prepaid gas consumption and the information of the prepaid gas consumption of the user.

Preferably, in the above intelligent cylinder valve control system, the control device further comprises a power supply management unit, and the power supply management unit has a mains supply circuit and/or a battery supply circuit.

Preferably, in the above intelligent cylinder valve control system, the system further includes a server, and the server receives the gas consumption information transmitted by the control device, and generates distribution planning information by combining with the user information.

Preferably, in the above-described smart cylinder valve control system, the server comprises:

the monitoring unit is used for monitoring the gas consumption information;

a subscriber management unit for storing said subscriber information in advance, and

and when the gas consumption information shows that the value of the gas consumption surplus information is lower than the surplus threshold, the user information is called and the distribution planning unit of the distribution planning information is generated.

Preferably, in the above-described smart cylinder valve control system, the delivery schedule information includes time information and/or address information.

Preferably, in the above intelligent cylinder valve control system, the user information includes basic information and prepaid information of the user.

An intelligent cylinder valve control method adopts the intelligent cylinder valve control system, and comprises the following steps:

step S11: receiving the pre-used air output information and generating an air output control instruction;

step S12: and receiving the air outlet control instruction and executing the air outlet action.

Preferably, in the above-mentioned smart cylinder valve control method, the step S11 includes:

step S11-1: pre-storing the pre-payment information of a user;

step S11-2: and receiving the pre-used gas output information, and generating a gas output control instruction by combining the pre-used gas output information and the pre-paid information of the user.

Preferably, in the above-mentioned smart cylinder valve control method, the step S12 includes:

step S12-1: receiving the air outlet control instruction and controlling a valve to execute air outlet action;

step S12-2: and adjusting the air outlet opening of the valve.

Preferably, in the above-described smart cylinder valve control method, the step S12-1 includes:

step S12-1 a: collecting the gas consumption allowance information of a user;

step S12-1 b: and controlling the valve to execute the air outlet action by combining the air outlet control instruction and the air consumption allowance information.

Preferably, in the above intelligent cylinder valve control method, the method further includes step S22: and generating distribution planning information according to the gas consumption information of the user and the user information.

Preferably, in the above-mentioned smart cylinder valve control method, the step S22 includes:

step S22-1: monitoring the gas consumption information of the user;

step S22-2: and when the value of the gas consumption surplus information displayed by the gas consumption information is lower than a surplus threshold value, calling the user information and generating the distribution planning information.

According to the technical scheme, when the intelligent cylinder valve control system provided by the invention is used, the control device receives and stores the pre-used gas output information and then generates a gas output control instruction, and the cylinder valve component receives the pre-used gas output information and then executes a gas output action. Therefore, the intelligent cylinder valve control system provided by the invention can control the gas output of the cylinder valve component according to the pre-use gas output information received by the control device, so that a user can plan the pre-use gas output of liquefied petroleum gas used each time, and further estimate the pre-use times of each bottle of liquefied petroleum gas, when the pre-use times are about to use, the liquid is timely filled into the steel cylinder, the liquefied petroleum gas cannot be found to be exhausted until a stove cannot be ignited, the normal use of the user in daily life is ensured, and the use convenience of the bottled liquefied petroleum gas is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an intelligent cylinder valve control system according to an embodiment of the present invention;

FIG. 2 is a schematic flow chart illustrating a method for controlling an intelligent cylinder valve according to an embodiment of the present invention;

FIG. 3 is a schematic flow chart illustrating a process of receiving pre-use air output information and generating air output control commands according to an embodiment of the present invention;

fig. 4 is a schematic flow chart illustrating a process of receiving a gas output control command and performing a gas output operation according to an embodiment of the present invention;

fig. 5 is a schematic flow chart illustrating a process of receiving a gas output control command and controlling a valve to perform a gas output operation according to an embodiment of the present invention;

fig. 6 is a schematic flow chart of generating distribution planning information according to an embodiment of the present invention.

The system comprises a control device 100, a gas control unit 101, a power supply management unit 102, a data transmission unit 103, a cylinder valve assembly 200, a valve 201, a gas outlet control unit 202, a gas amount detection unit 203, an internal control unit 204, a server 300, a monitoring unit 301, a user management unit 302, a distribution planning unit 303 and a use authorization unit 304.

Detailed Description

In view of the above, the core of the present invention is to provide an intelligent cylinder valve control system and method to improve the convenience of using the bottled liquefied petroleum gas.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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 invention.

As shown in FIG. 1, the present invention discloses an intelligent cylinder valve control system, which comprises a control device 100 and a cylinder valve assembly 200; the control device 100 is used for receiving and storing the pre-used gas output information and generating a gas output control instruction so as to control the cylinder valve assembly 200 to perform a gas output action according to the gas output control instruction; the cylinder valve assembly 200 is used for receiving and executing the air outlet action according to the air outlet control instruction, so that air outlet is stopped when the air outlet quantity of the cylinder valve assembly 200 reaches the preset air outlet quantity indicated by the preset air outlet quantity information received by the control device 100.

When the intelligent cylinder valve control system provided by the invention is used, a user can upload the pre-used gas output information to the control device 100, the control device 100 receives and stores the pre-used gas output information and then generates a gas output control instruction, the cylinder valve component 200 receives the pre-used gas output information and then executes a gas output action according to the gas output control instruction, and when the gas output of the cylinder valve component 200 reaches the pre-used gas output indicated by the pre-used gas output information received by the control device 100, the gas output is stopped. Therefore, the intelligent cylinder valve control system provided by the invention can control the gas output of the cylinder valve assembly 200 according to the pre-use gas output information received by the control device 100, so that a user can plan the pre-use gas output of liquefied petroleum gas used each time, and further estimate the pre-use times of each bottle of liquefied petroleum gas, when the pre-use times are about to use, liquid is timely filled into the steel cylinder, the liquefied petroleum gas cannot be found to be exhausted until a stove cannot be ignited, the normal use of the user in daily life is ensured, and the use convenience of the bottled liquefied petroleum gas is improved.

It should be noted that the pre-use gas output information received and stored by the control device 100 may be information such as the weight of the pre-use liquefied petroleum gas or the amount of heat generated during combustion, and the information is within the scope of the present invention as long as the information can measure the amount of the liquefied petroleum gas; preferably, in the embodiment of the present invention, the pre-use gas output information received and stored by the control device 100 is the weight of the liquefied petroleum gas.

The control device 100 may receive the pre-use output information in a form of manual key entry or remote control input by the user on the control device 100, and any form that enables the control device 100 to receive the pre-use output information is within the scope of the present invention.

In addition, the cylinder valve assembly 200 and the control device 100 may be a split structure or an integrated structure, and any structure that can meet the use requirement is within the protection scope of the present invention; preferably, the embodiment of the present invention employs a split structure.

When the cylinder valve assembly 200 and the control device 100 are constructed in a separate type, data transmission therebetween may be performed through wire transmission or wireless transmission. For example, when the wireless transmission is performed, the control device 100 may be a terminal service device separately installed, or may be a mobile phone with APP or a computer with remote control software, and any device that can meet the use requirement is within the scope of the present invention; when the data is transmitted through a wire, the connection terminals are respectively arranged between the cylinder valve assembly 200 and the control device 100, and the data transmission between the control device 100 and the cylinder valve assembly 200 can be realized by connecting the corresponding connection terminals.

Further, the cylinder valve assembly 200 includes a valve 201 and an air outlet control unit 202, the valve 201 is used for adjusting an air outlet opening, and the air outlet control unit 202 is used for receiving an air outlet control instruction and controlling the valve 201 to execute an air outlet action, so that the cylinder valve assembly 200 is made to outlet air according to a preset air outlet quantity uploaded by a user, and thus air outlet according to a certain quantity is realized.

It should be noted that the valve 201 may be a valve whose opening can be arbitrarily adjusted between 0% and 100%, or may be a valve that can only achieve two openings of 0% and 100%, that is, a valve that has only opening and closing functions.

The cylinder valve assembly 200 further includes a gas amount detection unit 203 for collecting the gas consumption surplus information of the user, so that the gas outlet control unit 202 controls the valve 201 to perform the gas outlet operation by combining the gas outlet control instruction and the gas consumption surplus information.

It should be noted that the remaining gas consumption information collected by the gas amount detection unit 203 may be information such as the weight, the liquid level height, or the liquid pressure of the remaining liquefied petroleum gas in the gas cylinder, and the information is within the scope of the present invention as long as the information can reflect the amount of the remaining liquid in the gas cylinder.

In addition, the air quantity detection module is a sensor, and the sensor can be an ultrasonic sensor, an infrared sensor or a hall sensor, and the like, and any sensor capable of acquiring the residual quantity information is within the protection scope of the present invention.

In addition, the cylinder valve assembly 200 further includes an internal control unit 204 for transmitting information between the cylinder valve assembly 200 and the control device 100, so that the remaining gas consumption information collected by the gas amount detection unit 203 is transmitted to the control device 100, and further transmitted to the server 300 through the control device 100.

The control device 100 provided by the invention comprises a storage unit and an air consumption control unit 101, wherein the storage unit is used for storing the prepayment information of a user, the air consumption control unit 101 is used for receiving the prepayment air output information and generating an air output control instruction by combining the prepayment information of the user, so that the cylinder valve component 200 can execute air output action according to the air output control instruction after receiving the air output control instruction, and further, the air output of the cylinder valve component 200 is stopped when reaching the prepayment air output indicated by the prepayment air output information received by the control device 100.

It should be noted that, only when the prepaid fee displayed by the prepaid information of the user is enough to purchase the prepaid gas amount displayed by the prepaid gas amount information, the gas control unit 101 generates a corresponding gas amount control instruction, otherwise, the gas control unit does not generate the gas amount control instruction, so as to improve the control capability of the lpg enterprise on the user and reduce the economic loss of the lpg enterprise.

Further, the control device 100 further includes a data transmission unit 103, so as to transmit information with the cylinder valve assembly 200 and the server 300 described below through the data transmission unit 103.

In addition, the control device 100 further includes a power supply management unit 102, the power supply management unit 102 employs a commercial power supply circuit or a battery power supply circuit to supply power to the cylinder valve assembly 200, and in order to maintain uninterrupted power supply to the cylinder valve assembly 200, the power supply management unit 102 having both the commercial power supply circuit and the battery power supply circuit may be used to supply power.

The intelligent cylinder valve control system provided by the invention further comprises a server 300, which is used for receiving the gas consumption information transmitted by the control device 100 and generating distribution planning information by combining with the user information, so that a liquefied petroleum gas enterprise can distribute the liquefied petroleum gas for users in time, residents can fill liquid into the steel cylinders in time, and normal use of the users in daily life is guaranteed.

Further, the server 300 includes a monitoring unit 301, a user management unit 302, and a distribution planning unit 303, where the monitoring unit 301 is configured to monitor the gas usage information of the user, the user management unit 302 is configured to store the user information in advance, and the distribution planning unit 303 is configured to invoke the user information and generate the distribution planning information when the gas usage information shows that the value of the gas usage surplus information is lower than the surplus threshold.

The user information includes one or more of the identification code, the manufacturer, the model, the production batch and the merchant code of the cylinder valve assembly 200, so that the distribution planning unit 303 calls the user information to generate distribution planning information, and a liquefied petroleum gas enterprise timely distributes liquefied petroleum gas to users; meanwhile, the use authorization unit 304 of the server 300 determines whether the user information provided by the user management unit 302 matches with the information base stored in the use authorization module, and determines whether to open a use authorization authority for the user in combination with the prepaid information of the user, so as to ensure the life safety and property safety of the end user.

In addition, the basic information of the user may include other information besides the above listed information, which may be set according to the request of the merchant, and is not listed here.

The distribution planning information includes time information or address information, and in order to facilitate the lpg enterprises to distribute the lpg to the users timely and accurately, the distribution planning information generated by the distribution planning unit 303 may also include both time information and address information.

The gas consumption information includes information such as the used gas amount information of the liquefied petroleum gas used by the user and the gas consumption surplus information of the remaining liquefied petroleum gas, so that the liquefied petroleum gas enterprise can know the gas consumption information of the user conveniently, and can distribute the liquefied petroleum gas to the user in time according to the distribution planning information generated by the distribution planning unit 303.

The control device 100 and the server 300 may be in a wired or wireless transmission system as long as information can be transmitted; preferably, the embodiment of the invention adopts a wireless transmission mode, so that the adaptability and the convenience of the intelligent cylinder valve control system are improved.

As shown in fig. 2 to 6, the present invention further discloses an intelligent cylinder valve control method, which adopts the intelligent cylinder valve control system described above, and includes:

step S11: and receiving the pre-used gas output information and generating a gas output control command. The pre-used gas output information can be information such as the weight of the pre-used liquefied petroleum gas or the heat generated during combustion, and the like, and the information which can measure the amount of the liquefied petroleum gas belongs to the protection scope of the invention; preferably, in the embodiment of the present invention, the received and stored information about the amount of the pre-used liquefied petroleum gas is the weight of the pre-used liquefied petroleum gas.

In addition, the receiving of the pre-use air output information may be performed by a manual key receiving method or a remote control input method, and any method capable of receiving the pre-use air output information is within the scope of the present invention.

Step S12: and receiving the air outlet control instruction and executing the air outlet action. The mode for receiving the air output control instruction can be a wired transmission mode or a wireless transmission mode, and any transmission mode capable of receiving the air output control instruction belongs to the protection scope of the invention.

Therefore, the intelligent cylinder valve control method provided by the invention can generate the gas output control instruction according to the pre-used gas output uploaded by the user in advance, realize quantitative gas output according to the gas output control instruction, further plan the gas output of the liquefied petroleum gas in advance, estimate the times and the liquid filling period of each bottle of liquefied gas, timely charge liquid into the steel cylinder when the use times are nearly used up or a liquid filling period is about to be reached, avoid finding the liquefied gas is used up until the stove cannot be ignited, ensure the normal use of the user in daily life, and improve the use convenience of the bottled liquefied petroleum gas.

As shown in fig. 3, the step S11 includes:

step S11-1: and pre-storing the prepayment information of the user to judge whether the prepayment displayed by the prepayment information is enough to purchase the prepayment displayed by the prepayment information.

Step S11-2: and receiving the pre-used gas output information, and generating a gas output control instruction by combining the pre-used gas output information and the pre-paid information of the user so as to realize gas output according to the quantity.

It should be noted that, only when the prepaid fee displayed by the prepaid information of the user is enough to purchase the prepaid gas amount displayed by the prepaid gas amount information, the corresponding gas amount control instruction is generated, otherwise, the gas amount control instruction is not generated, so as to improve the management and control capability of the liquefied petroleum gas enterprise on the user and reduce the economic loss of the liquefied petroleum gas enterprise.

Further, as shown in fig. 4, the step S12 includes:

step S12-1: receiving the air output control instruction and controlling the valve 201 to execute the air output action.

Step S12-2: the air outlet opening degree of the valve 201 is adjusted to adjust the air outlet quantity.

Specifically, as shown in fig. 5, the sub-step of the step S12-1 includes:

step S12-1 a: and collecting the gas consumption surplus information of the user so as to judge whether the user still has residual liquefied petroleum gas.

Step S12-1 b: the valve 201 is controlled to perform the air outlet action by combining the air outlet control instruction and the air consumption allowance information.

It should be noted that the user remaining amount information may be information such as the weight, the liquid level height, or the liquid pressure of the remaining liquefied petroleum gas in the gas cylinder, and any information that can reflect the amount of the remaining liquid in the gas cylinder is within the scope of the present invention.

In addition, the intelligent cylinder valve control method provided by the invention further comprises the step S22: and generating distribution planning information according to the gas consumption information of the user and the user information so as to facilitate the liquefied petroleum gas enterprise to distribute the liquefied petroleum gas for the user in time.

It should be noted that step S11 and step S22 may be performed simultaneously or separately, that is, step S11 and step S22 are not distinct from each other.

As shown in fig. 6, step S22 includes:

step S22-1: the gas usage information of the user is monitored so as to determine whether the value of the remaining gas usage amount information is lower than the remaining amount threshold in step S22-2.

Step S22-2: and when the numerical value of the gas consumption allowance information displayed by the gas consumption information is lower than the allowance threshold value, calling the user information and generating distribution planning information so as to enable the liquefied petroleum gas enterprise to distribute the liquefied petroleum gas for the user in time.

It should be noted that, the present invention does not limit the specific value of the margin threshold, and in practical applications, the margin threshold may be set according to actual requirements, and as long as the margin threshold can meet the use requirements, the present invention is within the protection scope of the present invention.

The terms "first" and "second," and the like in the description and claims of the present invention and the above-described drawings are used for distinguishing between different objects and not for describing a particular order. Furthermore, the terms "comprising" and "having," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not set forth for a listed step or element but may include steps or elements not listed.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (16)

1. A smart cylinder valve control system, comprising:

the control device (100) is used for receiving and storing the pre-used air output information and generating an air output control instruction;

and the cylinder valve assembly (200) is used for receiving and executing gas outlet action according to the gas outlet control instruction.

2. The smart cylinder valve control system of claim 1, wherein the cylinder valve assembly (200) comprises:

a valve (201) for adjusting the degree of outlet opening;

and the gas outlet control unit (202) is used for receiving and controlling the valve (201) to execute gas outlet action according to the gas outlet control instruction.

3. The smart cylinder valve control system of claim 2, wherein the cylinder valve assembly (200) further comprises a gas volume detection unit (203) for collecting information on a gas usage allowance of a user; the air outlet control unit (202) is combined with the air outlet control instruction and the air consumption allowance information to control the valve (201) to execute air outlet action.

4. The smart cylinder valve control system of claim 3, wherein the gas amount detection unit (203) is an ultrasonic sensor, an infrared sensor, or a Hall sensor.

5. The intelligent cylinder valve control system according to claim 1, wherein the control device (100) comprises a storage unit and an air usage control unit (101), the storage unit is used for storing the prepayment information of the user, and the air usage control unit (101) is used for receiving the prepayment air output information and combining the prepayment air output information with the prepayment information of the user to generate the air output control instruction.

6. The smart cylinder valve control system according to claim 1, wherein the control device (100) further comprises a power management unit (102), the power management unit (102) having a mains supply circuit and/or a battery supply circuit.

7. The smart cylinder valve control system according to claim 1, further comprising a server (300), wherein the server (300) receives the gas consumption information transmitted by the control device (100) and generates distribution planning information in combination with the user information.

8. The smart cylinder valve control system of claim 7, wherein the server (300) comprises:

a monitoring unit (301) for monitoring the gas usage information;

a subscriber management unit (302) for storing said subscriber information in advance, and

and a delivery planning unit (303) for calling the user information and generating the delivery planning information when the gas consumption information shows that the value of the gas consumption surplus information is lower than the surplus threshold.

9. The smart cylinder valve control system of claim 8, wherein the delivery schedule information comprises time information and/or address information.

10. The smart cylinder valve control system of claim 8, wherein the user information comprises basic information and prepaid information of the user.

11. A smart cylinder valve control method, using the smart cylinder valve control system according to any one of claims 1 to 10, comprising:

step S11: receiving the pre-used air output information and generating an air output control instruction;

step S12: and receiving the air outlet control instruction and executing the air outlet action.

12. The smart cylinder valve control method according to claim 11, wherein the step S11 includes:

step S11-1: pre-storing the pre-payment information of a user;

step S11-2: and receiving the pre-used gas output information, and generating a gas output control instruction by combining the pre-used gas output information and the pre-paid information of the user.

13. The smart cylinder valve control method according to claim 11, wherein the step S12 includes:

step S12-1: receiving the air output control instruction and controlling a valve (201) to execute air output action;

step S12-2: and adjusting the air outlet opening degree of the valve (201).

14. The smart cylinder valve control method according to claim 13, wherein the step S12-1 comprises:

step S12-1 a: collecting the gas consumption allowance information of a user;

step S12-1 b: and controlling the valve (201) to perform air outlet action by combining the air outlet control instruction and the air consumption allowance information.

15. The smart cylinder valve control method according to claim 11, further comprising the step S22 of: and generating distribution planning information according to the gas consumption information of the user and the user information.

16. The smart cylinder valve control method according to claim 15, wherein the step S22 includes:

step S22-1: monitoring the gas consumption information of the user;

step S22-2: and when the value of the gas consumption surplus information displayed by the gas consumption information is lower than a surplus threshold value, calling the user information and generating the distribution planning information.

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