KR20190074459A - A refueling encoder including encoder controller preventing replacement without notice and modulation of oil amount information, refueling system and method for preventing oil amount information - Google Patents

Abstract

Disclosed is a refueling encoder including an encoder controller preventing illegal replacement and alteration of oil amount information, which is replaced with an existing encoder one to one and performs mutual monitoring to prevent a previously installed controller from cheating a flow meter while communicating with the controller, and a refueling system and an oil amount information alteration prevention method thereof. According to the present invention, illegal replacement of the refueling encoder can be checked through information exchange between the encoder controller included in the refueling controller and the controller included in the refueling system. A pulse signal generated from the refueling encoder is converted into an oil amount in the encoder controller and the controller separated from each other, and both oil amounts are compared with each other when refueling is finished, thereby checking whether the oil amount is manipulated.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an encoder controller, an oil-feeding system, and a flow rate information tamper prevention method, which are capable of preventing unauthorized replacement and modulation of flow rate information. for preventing oil amount information}

The present invention relates to a lubricator encoder, and more particularly, to a lubricator encoder having an encoder controller capable of preventing unauthorized replacement of a lubricator encoder or modifying a pulse signal output from the lubricator encoder to thereby trickle the flow rate of lubricating oil, A lubrication system including an encoder, and a flow rate information tampering prevention method for preventing flow rate information from being modifiable by using a lubrication system.

1 is a configuration example of a conventional lubrication system.

FIG. 1A shows a configuration of a conventional lubrication system, and FIG. 1B shows an embodiment of a volumetric flow meter.

The main oil supply system 100 may include an underground oil tank 110 and a main pump 120. The main pump 120 may include a pump 121, a solenoid pump 122, a flow meter 123, An encoder 124, a controller 125, a nozzle 126, and a gasoline confirmation panel 127 are provided.

The underground oil tank 110 stores gasoline, light oil, and the like, and is generally buried underground for various reasons.

The lubricator 120 is installed on the ground and lifts the oil stored in the oil storage tank 110 installed in the ground by the pump 121 and supplies the oil to the automobile lamp 130 through the nozzle 126. The oil that has been raised to the ground by the pump 121 is ejected to the nozzle 126 via the solenoid valve 122 and the flow meter 123. The solenoid valve 122 controls the flow of the oil by opening and closing using the electromagnetic force of the electromagnetic coil in accordance with an instruction from the controller 125. The nozzle 126 includes a mechanism that can determine the start and stop of lubrication and, depending on the operation of the machine, the controller 125 can determine whether it is currently lubrication or stopped lubrication.

The flow meter 123 is configured to rotate a propeller (not shown) installed therein according to the amount of liquid or gaseous oil supplied through the nozzle 126. The rotation information of the propeller constituting the flow meter 123 is converted into a corresponding pulse signal by the encoder 124 connected to the flow meter 123 and is transmitted to the controller 125.

Referring to FIG. 1B, an oval flow meter is a combination of two elliptical rotors with teeth engraved in the periphery thereof. A fluid of a certain volume (indicated by dots) Direction). Therefore, if the rotation speed of the gear is known, the integrated flow rate can be measured.

After the head of the nozzle 126 is injected into the oil inlet (not shown) of the vehicle, the customer injects the oil into the vehicle by controlling the input indicating device such as a trigger. At this time, And the amount of the oil that is present. The controller 125 analyzes the pulse signal generated by the encoder 124 attached to the flowmeter 123 and displays the numerical value corresponding to the analysis result on the oil confirmation panel 127 ). Although not shown in detail in Fig. 1, the oil-supply confirmation panel 127 includes three panels that respectively indicate the unit price, the oil amount, and the oil amount of the oil.

Manipulating the pulse signal generated by the encoder 124 may trick the customer into tricking the customer into tricking him into administering a small amount of oil even though a small amount of oil is being administered. To this end, the encoder 124 attached to the flow meter 123 Or the signal transmitted from the encoder 124 to the controller 125 is processed so that the controller 125 performs an erroneous calculation.

Korean Patent Registration No. 10-1583751 (Jan. 4, 2016) proposes a method and apparatus for monitoring a pulse signal of a lubricator from being illegally processed. However, this apparatus is complicated and has a disadvantage that it is complicated and inconvenient, such as the additional arrangement of a new apparatus which performs a function which has not been used in the past.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide an uninterruptible power supply system capable of replacing a conventional encoder with a one-to- And an encoder controller capable of preventing modulation of flow rate information.

It is another object of the present invention to provide a lubrication system including a lubricator encoder having an encoder controller capable of preventing tampering and modulation of flow rate information.

It is another object of the present invention to provide a flow information modulating apparatus and method which can prevent the flow information from being modulated by using a lubricator encoder having an encoder controller capable of preventing the tampering and the modulation of flow rate information, And to provide a method.

According to an aspect of the present invention, there is provided a lubricator encoder including an encoder controller capable of preventing tampering and tampering of flow rate information according to the present invention. The lubricator encoder can be used to change a pulse signal output from a lubricator encoder, Wherein the encoder controller includes a pulse generator installed in a flowmeter constituting a main flow system and generating a pulse signal obtained by converting the rotation of the propeller in response to the flow of oil flowing in the main flow system, A signal processor for calculating a flow rate using a pulse signal generated from the pulse generator and transmitting the signal to the outside, and a storage unit for storing a unique ID of the signal processor.

According to another aspect of the present invention, there is provided a lubrication system including a lubricator encoder and a controller according to the first aspect of the present invention, wherein the controller stores, at the moment when the power is turned off for the first time, And transmits the unique ID to the encoder controller. If the unique ID is not identical to the reference ID, the controller notifies the user of the fact that the unique ID has been set, The flow rate is calculated by converting the pulse signal generated by the lubricator encoder and reproduced by the main confirmation module, and when receiving a signal indicating completion of gas supply from the nozzle constituting the gas supply system, Encoder control by requesting lubricator encoder If the flow rate is the same or the difference is within the preset error range, make sure to follow the normal procedure related to the oil supply. Otherwise, notify it to the preset location.

According to another aspect of the present invention, there is provided a method for preventing flow rate information tampering, which uses the gas supply system according to claim 3, wherein the lubricator encoder registration step. An unauthorized replacement checking step, a pulse signal simultaneous conversion step, a flow comparison step, and an action step.

In the lube oil encoder registering step, when the lube oil system is first configured, a unique ID of the lube oil encoder is stored as a reference ID in the controller constituting the lube oil system. The controller configuring the gas supply system requests the unique ID of the lubricant encoder to the encoder controller constituting the lubricant encoder when power is first applied to the main supply system, And compares the unique ID with the reference ID to check whether or not the lubricant encoder has been tampered with. If the unique ID and the reference ID are not the same, emergency measures are taken to stop the operation of the lubricant system. Wherein the pulse signal synchronous conversion step is performed when it is determined that the unique ID and the reference ID are the same in the step of confirming the unauthorized change, and using the pulse signal generated by the pulse generator constituting the lubricant encoder, The flow rate is calculated, and the encoder controller simultaneously calculates the second flow rate. The flow rate comparison step is performed when the controller receives from the nozzle a signal indicating completion of lubrication and requests the controller to transmit the second flow rate to the encoder controller, It is determined whether the difference between the first flow rate and the second flow rate is within the error range?. Wherein when the difference between the first flow rate and the second flow rate belongs to the error range (?) As a result of the comparison in the flow rate comparison step, the gas flow process such as issuance of a receipt is normally proceeded, When the difference of the second flow rate deviates from the error range (?), A letter or voice message is transmitted to the smartphone of the gas station owner or an emergency alarm is sounded by the speaker.

As described above, when using the lubricator encoder according to the present invention, it is possible to confirm whether or not the lubricator encoder is unchanged through exchange of information between the encoder controller constituting the lubricator encoder and the controller constituting the lubricant system. The pulse signal is converted into a flow rate by a separate encoder controller and a controller, and when the main flow is finished, it is compared with the flow rate, and a pulse signal is modulated in the main flow system to check whether the flow rate is being manipulated.

1 is a configuration example of a conventional lubrication system.
2 is an embodiment of a lubricator encoder having an encoder controller capable of preventing tampering and modulation of flow rate information according to the present invention.
Fig. 3 shows a lubrication system according to the present invention.
4 is an embodiment of a flow rate information tampering prevention method according to the present invention.

In order to fully understand the present invention and the operational advantages of the present invention and the objects achieved by the practice of the present invention, reference should be made to the accompanying drawings, which are provided for explaining exemplary embodiments of the present invention, and the contents of the accompanying drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Like reference symbols in the drawings denote like elements.

2 is an embodiment of a lubricator encoder having an encoder controller capable of preventing tampering and modulation of flow rate information according to the present invention.

2, a lubricator encoder 200 (hereinafter referred to as a lubricator encoder) having an encoder controller capable of preventing tampering and modulation of flow information according to the present invention is basically composed of a propeller (not shown) constituting a flow meter 123 And a signal processor 221 for calculating a flow rate using a pulse signal generated from the pulse generator 210 and transmitting the pulse signal to the outside, And a storage unit 222 for storing a unique ID of the storage unit 222. The storage unit 222 transmits the unique ID stored in the storage unit 222 to the outside when the power is turned off And an encoder controller 220 that performs a function of the encoder. The transmission and reception of information and data can be wireless or wireline, and this technique can be easily implemented by anyone having ordinary skill in the art, and will not be described in detail here.

It is preferable that the process of calculating the flow rate by using the pulse signal in the encoder controller 220 is the same as the process performed by the controller 150 constituting the main flow system.

Fig. 3 shows a lubrication system according to the present invention.

Referring to FIG. 3, a gas supply system 300 according to the present invention includes a gasifier encoder 200 and a controller 310.

The controller 310 requests the encoder controller 220 installed in the lubricator encoder 200 to transmit a unique ID and the unique ID received from the encoder controller 220 in advance The stored ID is compared with the stored reference ID, and when the ID is not the same, this is notified to a preset location. Here, a telephone set of the owner of the gas station or a speaker (not shown) constituting the gas supply system 300 is exemplified as a place previously set. When it is determined that an unauthorized replacement situation has occurred, a text or voice message can be delivered to the owner of the gas station, and an emergency beep can be issued to the speaker so that the gas station staff as well as the customer can check it. When the unique ID and the reference ID are the same, the gasoline system 300 will normally operate. It is a matter of course that the controller 310 also includes a signal processor 311 and a storage unit 312 corresponding to the elements constituting the encoder controller 220.

When the oiling system 300 is in charge of the customer's vehicle, the pulse signal generated by the lubricator encoder 200 is converted to calculate the flow rate and reproduce the flow rate on the oiling confirmation panel 127. When the main oil supply is terminated, that is, when a signal indicating completion of lubrication is received from the nozzle 126, the pulse signal is converted first, and then the calculated flow rate is requested to the lubricator encoder 200 and the flow rate received from the gas station controller 220 is If they are the same or if the difference is within the preset tolerance range, they should follow the normal procedure related to oiling. As described above, when the controller 310 converts a pulse signal into a corresponding flow rate, the encoder controller 220 configuring the lubricator encoder 200 performs the same process as that performed by the controller 310 , It is necessary that there is a difference within a certain error range considering the error of the machine or the flow rate converted by the two controllers 220 and 310.

When the difference between the flow rate calculated by the encoder controller 220 and the flow rate calculated by the controller 310 exceeds the error range, it is notified to the outside that an emergency situation in which the pulse signal has been processed has occurred, . Here, the notification to the outside can be made as in the case where the situation occurs in the confirmation process of the lubricator encoder 200. [

4 is an embodiment of a flow rate information tampering prevention method according to the present invention.

4, the method 400 for preventing flow information tampering according to the present invention includes a lubricator encoder registration step 410, an unauthorized replacement check step 420, a pulse signal simultaneous conversion step 430, a flow rate comparison step 440 And an action step 450 are performed.

In the lubricator encoder registration step 410, the unique ID of the lubricator encoder 200 is stored in the controller 310 constituting the lubricant system 300 when the lubricant system 300 is initially configured. For convenience of explanation, it is assumed that the unique ID of the lubricator encoder 200 stored in the controller 310 is a reference ID.

The controller 310 configuring the gas supply system 300 is connected to the encoder controller 220 constituting the gasifier encoder 200 by the gasifier encoder (421), and compares the unique ID sent from the lubricator encoder (200) with the reference ID (422) to check whether the lubricator encoder (200) is unauthorized. When the unique ID and the reference ID are the same (yes), it is determined that the lubricator encoder 200 has not been tampered with. Therefore, the oil refueling system 300 can be normally operated. (No), an emergency action 452 may be taken so as not to operate the gas main supply system 300.

In the pulse signal simultaneous conversion step 430, the two controllers 220 and 310 simultaneously calculate the pulse signal generated by the pulse generator 210 constituting the lubricator encoder 200. As described above, although the encoder controller 220 and the controller 310 are separated from each other, it is necessary to make the processes of calculating the pulse signals the same.

In the flow rate comparison step 440, the controller 310 is performed when a signal indicating completion of gas supply is received from the nozzle 126, and the controller 310 sends a signal to the encoder controller 220, That is, the first flow rate and the second flow rate calculated by the controller 221, and compares 442 the flow rate calculated by the controller 310, that is, the first flow rate and the second flow rate. In practice, however, it is judged whether or not the difference between the two flow rates is within a certain error range (?).

As a result of the determination in the flow comparison step 440, if the difference between the two flow rates belongs to the error range? (Yes), then in step 450, the oiling process such as issue of a receipt is normally performed 451, When the difference of the flow rates of the two flow rates exceeds the error range (?), As described above, a text or voice message can be transmitted to the owner of the gas station by the smartphone, and the emergency alarm can be sounded by the speaker. (452) so that it can be confirmed.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the scope of the present invention.

110: Underground oil tank
120: Encoder
200: Lubricator encoder
210: Pulse generator 220: Encoder controller
300: Lubrication system
310: controller 320: lubricator encoder

Claims (4)

There is provided a lubricator encoder having an encoder controller capable of preventing unauthorized replacement of a lubricator encoder or modifying a pulse signal output from a lubricator encoder to thereby deceive the flow rate of lubricating oil,
Wherein the encoder controller comprises:
A pulse generator installed in a flowmeter constituting the oil supply system and generating a pulse signal which is obtained by converting the rotation of the propeller according to the flow of lubricating oil;
A signal processor for calculating a flow rate using a pulse signal generated from the pulse generator and transmitting the flow rate to the outside; And
A storage unit for storing its own unique ID; To
And an encoder controller capable of preventing unauthorized replacement and modulation of flow rate information.
A lubrication system including a lubricator encoder and a controller according to claim 1,
The controller comprising:
When the power is turned off and then turned on for the first time, requests to transmit a unique ID stored in the encoder controller, and compares the unique ID received from the encoder controller with a reference ID stored in advance, To inform this fact,
When the gas is supplied to the customer's vehicle, the pulse signal generated by the gasifier encoder is converted to calculate the flow rate, and the flow rate is reproduced by the gasoline confirmation module. When the signal indicating completion of gas supply is received from the nozzle constituting the gas supply system, And the flow rate received from the encoder controller are compared with each other. When the difference is within a predetermined error range, the flow rate is converted into a normal flow rate related to the oil supply, and if not, it is set in advance And notifies the user of the fact. 3. The apparatus of claim 2,
And a speaker installed in a gas station of a gas station owner.
A flow rate information tampering prevention method using the gas supply system according to claim 3,
A lubricant encoder registration step of storing the unique ID of the lubricant encoder as a reference ID in the controller constituting the lubricant system when the lubricant system is first configured;
When the electric power is first applied to the main system, the controller constituting the main system requests a unique ID of the main motor encoder to the encoder controller constituting the main motor encoder, and outputs a unique ID sent from the main motor encoder to the reference ID An unauthorized replacement checking step of checking whether or not the lubricant encoder is tampered and taking an emergency action to stop the operation of the lubricant system when the unique ID and the reference ID are not identical;
Wherein the controller calculates the first flow rate by using the pulse signal generated by the pulse generator constituting the lubricator encoder, and when the controller determines that the unique ID and the reference ID are identical, A simultaneous pulse signal conversion step of simultaneously calculating a second flow rate;
Wherein the controller is requested when the controller receives from the nozzle a signal indicating completion of lubrication and requests the controller to transmit the second flow rate to the encoder controller and receives the first flow rate calculated by the controller and the first flow rate calculated by the controller, A flow rate comparison step of determining whether or not the difference in flow rate is within an error range (?); And
Wherein when the difference between the first flow rate and the second flow rate belongs to the error range (?) As a result of the determination in the flow rate comparison step, the gas flow process such as issuance of a receipt is normally proceeded, and the first flow rate and the second flow rate When the difference is out of the error range (DELTA), transmitting a text or voice message to a smartphone of a petrol station owner or making an emergency beep sound to the speaker; To
And the flow rate information is stored in the storage unit.

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