KR102125090B1 - Quantity painting for notification system - Google Patents

Abstract

The present invention relates to a coating amount notification system capable of confirming and notifying the amount of coating material in real time during painting, thereby improving the quality of coating and reducing material cost, and providing a pump for pumping the paint contained in the coating container and compressed air as a pump It is provided in the air hose measuring unit for measuring the discharge amount of the paint, a transmission unit for receiving and transmitting the signal measured by the measurement unit, and a monitoring unit for determining the coating amount in real time according to the transmission of the transmission unit, And a transmitting unit that transmits the coating amount information measured by the measuring unit to a worker in real time by wireless communication.

Description

Coating amount notification system {QUANTITY PAINTING FOR NOTIFICATION SYSTEM}

The present invention relates to a coating amount notification system, and more specifically, it is possible to check and inform the coating amount in real time during coating, thereby improving the quality of coating, reducing material cost, and using coating technology for coating work by using ICT technology, worker information, etc. It not only collects all the data of the process and accumulates big data, but also based on this, it relates to the coating amount notification system that can be put on existing platforms such as ERP and MES in the future, and can be used for history management and quality improvement.

In general, when building a ship, before welding each block of the ship, a certain distance from the welding surface is vacated and painting is performed on each block of the ship, such as welding connecting each block of the ship. After the work is completed, the worker is painting the welding line and the corner part by brush or roller.

However, in the painting operation using a brush or roller or the like on the welding line and the edge portion of the ship block as described above, the painting range is vast and there are many areas that are difficult to access.

In addition, for painting, the worker can dip the brush or roller in a container of paint to deposit the paint and then, in performing the painting, the amount of paint applied to the brush or roller is small, so that the paint can be applied with one coat of paint Since the surface is very narrow and the paint has to be repeatedly applied, the efficiency of the work is reduced, and the fatigue of the worker is also increased.

In particular, in the case of painting on a block located on a high level of the ship's block where the operator's hand does not directly reach, a brush or roller must be attached to a support height-length support, in which case the paint is repeatedly applied to the brush or roller. There is a problem in that the fatigue of the worker due to the work is buried, and the work efficiency is also reduced.

To this end, conventionally, a paint feeding device that automatically pumps the paint by simply attaching and detaching it to a paint container in which the paint for painting the vessel is stored is implemented. It is automatically supplied so that the painting operation is performed.

In the conventional painting work, the paint is automatically supplied from the paint feeding device, but the painting is done by the worker, so the painting quality is different and the work is not uniform and the quality of the painting decreases and rework is performed. , There was a problem in that work efficiency was deteriorated because it was not possible to accurately grasp the painting condition and the work amount.

Republic of Korea Registered Patent Publication No. 10-1130631

Therefore, the present invention has been devised to solve the above-mentioned problems, and its purpose is to apply the paint to grasp and notify in real time the capacity to be coated, thereby making the painting work more accurate and efficient without being limited by the skill of the worker. It is possible to provide a coating amount notification system that can maximize work efficiency and satisfaction to users.

The paint amount notification system according to an embodiment of the present invention for achieving the above object is provided in a pump for pumping the paint contained in the paint container and an air hose providing compressed air as a pump, and a measuring unit for measuring the discharge amount of the paint. , A transmission unit that receives and transmits the signal measured by the measurement unit, and a monitoring unit that can grasp the coating amount in real time according to the transmission of the transmission unit.

It may further include a transmitting unit for transmitting the paint usage information measured by the measuring unit to the operator in real time by wireless communication.

The measuring unit may include a pressure sensor provided in an air hose connected to the pump to sense the air pressure supplied to the pump, and an acceleration sensor and a proximity sensor to measure the vibration and cycle of the pump.

The measuring unit may further include a temperature and humidity sensor for measuring the viscosity of the paint.

The transmission unit may include a communication module that receives the measurement signal of the sensor and transmits it to the monitoring unit, and an antenna module for transmitting communication of the communication module to the monitoring unit.

The monitoring unit controls the measurement signal of the measurement unit, calculates a database, monitors the usage of each worker's individual information and coating amount in real time, monitors the progress of the painting operation in real time, and monitors the painting status. It may include a graph showing a state graph.

The database may set information tags and measured values of workers to be painted by each user.

As described above, according to the coating amount notification system according to the present invention, the coating amount to which the paint is applied can be measured and monitored through a monitoring unit, so that the coating amount can be grasped in real time and immediately notified to the worker. It is possible to optimize the coating state by applying, reducing the inspection time, reducing the paint cost due to rework after defects, and shortening the construction period.

1 is an overall configuration diagram showing a coating amount notification system according to the present invention.
2 is a block diagram showing a measuring unit of the coating amount notification system according to the present invention.
3 is a block diagram showing a control unit of the coating amount notification system according to the present invention.
4 is a configuration diagram showing a monitoring unit of the coating amount notification system according to the present invention.

The present invention can be applied to various changes and can have various embodiments, and specific embodiments will be illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

In the drawings, the embodiments of the present invention are not limited to the specific form shown and are exaggerated for clarity. Although specific terms are used in this specification, they are used for the purpose of describing the present invention, and are not used to limit the scope of the present invention described in the meaning limitation or the claims.

In this specification, the expression'and/or' is used to mean including at least one of the components listed before and after. Also, the expression'connected/coupled' is used as a meaning including directly connected to another component or indirectly connected through another component. In the present specification, the singular form also includes the plural form unless otherwise specified in the phrase. Also, components, steps, operations and elements referred to as'comprising' or'comprising' as used in the specification mean the presence or addition of one or more other components, steps, operations and elements.

In the description of the embodiments, each layer (membrane), region, pattern or structure may be "on/on" or "under/under" the substrate, each side (membrane), region, pad or pattern. The term "formed on" includes all formed directly or through another layer. The criteria for top/bottom or bottom/bottom of each layer are described based on the drawings.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is an overall configuration diagram showing a coating amount notification system according to the present invention, FIG. 2 is a configuration diagram showing a measuring unit of the coating amount notification system according to the present invention, and FIG. 3 is a coating amount notification system according to the present invention 4 is a configuration diagram showing a control unit of the coating amount notification system according to the present invention.

1 to 4, the coating amount notification system according to the present invention includes a pump 100, an air hose 200, a measuring unit 300, a transmitting unit 400, and a monitoring unit ( 500) and a transmitter 600.

The pump 100 receives the paint contained in the paint container 10 and pumps it according to the driving of a cylinder (not shown) to supply it to the paint hose 20.

The air hose 200 supplies air to the pump 100 when the paint in the paint container 10 is supplied to the pump 100.

The paint hose 20 is connected to the pump 100 to suck the paint according to the operation of the pump 100 and discharge it to the sprayer 30 for applying the paint to the painted product.

The measuring unit 300 is provided in the pump 100 and the air hose 200 to be able to measure the discharge amount of the paint sprayed through the paint hose 20 by the operation of the pump 100.

In addition, as shown in FIG. 2, the measurement unit 300 includes a pressure sensor 310, an acceleration sensor 320, a temperature and humidity sensor 330, and a proximity sensor 340.

The pressure sensor 310 is connected to the pump 100 and is provided in the air hose 200 to which air is supplied to sense the air pressure supplied to the pump 100.

That is, the pressure of the paint sprayed with the air by the pressure sensor 310 can be estimated (or linked) to immediately grasp the amount of the paint used.

The acceleration sensor 320 and the proximity sensor 340 are provided in the pump 100 to measure the vibration and cycle of the pump 100.

The temperature and humidity sensor 330 is provided in the pump 100 to measure the viscosity of the paint discharged to the air hose 200 in consideration of the working environment such as the season.

By measuring the viscosity of the paint in the temperature and humidity sensor 330, it is possible to optimize the viscosity state of the sprayed paint to increase the painting quality.

In addition, the measurement unit 300 can measure the discharge amount of the paint based on an average of 95 cc, which is automatically converted and measured by sensors (acceleration/proximity/temperature and humidity) applied to the working environment and the system of the present invention. .

That is, according to the measurement of the measurement unit 300, it is possible to grasp in real time the amount of the paint pumped by the pump 100, so that the coating state can be immediately recognized.

The transmission unit 400 receives the signal measured by the measurement unit 300 and transmits it to the monitoring unit 500 so that an operator can control the amount of paint used.

In addition, the transmission unit 400 is electrically connected to the measurement unit 300 and is able to communicate with the monitoring unit 500 by wire or wireless.

As in FIG. 3, the transmission unit 400 includes a communication module 410 and an antenna module 420.

The communication module 410 receives the measurement signal from the measurement unit 300 and transmits it to the monitoring unit 500.

In addition, the communication module 410 is capable of communicating with the database 510 of the monitoring unit 500, wired or wireless.

The antenna module 420 enables communication of the communication module 410 to receive the signal measured by the measurement unit 300 from the transmission unit 400 and transmit it to the monitoring unit 500.

In addition, the antenna module 420 may be made of an internal antenna or an external antenna embedded in the transmission unit 400.

The monitoring unit 500 is connected to the transmission unit 400 by wire/wireless, so that it is possible to grasp the coating amount in real time according to the transmission of the transmission unit 400.

As shown in FIG. 4, the monitoring unit 500 is connected to the measurement unit 300 by wire/wirelessly and controls a measurement signal measured by the measurement unit 300 to calculate a painting amount and a database 510 , A usage monitor 512 that informs each worker's personal information and painting amount in real time, a progress monitor 530 that notifies the overall progress of the painting operation, and a status graph 540 that graphs the painting operation status It will include.

The database 510 is programmed to set information tags such as the worker's number or ID to perform painting, and measurement values of the painting for each worker.

That is, it is possible to easily grasp the working state of each worker by setting the measurement value of the painting according to the employee information tag of the worker who is painting in the database 510.

The monitoring unit 500 acquires the information of the measurement unit 300 from the transmission unit 400, displays the painting amount for each worker by the database 510, and monitors the overall progress of the painting amount with the monitor 530. It is represented by the graph 540 so that the work status can be checked in real time.

The transmitting unit 600 transmits the information of the coating amount measured by the measuring unit 400 in real time to a worker through wireless communication.

In this way, it is possible to perform the painting work easily and accurately even if the skill level is low since the transmission unit 600 can check the work status of the worker in real time.

Looking at the operating state according to the coating amount notification system of the present invention consisting of the above system is as follows.

The paint contained in the paint container 10 is supplied through the sprayer 30 by supplying air from the air hose 200 to the pump 100 and supplying it to the paint hose 20 according to the operation of the pump 100. It is applied to the surface and painted.

When the paint is supplied to the paint hose 20 according to the operation of the pump 100, the supply amount of the paint is measured in real time by the measuring unit 300, and the signal measured by the measuring unit 300 is transmitted to 400), the data is transferred to the database 510 and the amount of painting is calculated in the database 510 to be set for each user.

In addition, the data measured by the measurement unit 300 is transmitted to the monitoring unit 500 through the communication module 410, and the monitoring unit 500 converts the measured data into painting usage by an internal algorithm in real time. With monitoring, it is possible to grasp the painting condition of each worker.

Accordingly, the coating amount of the paint sprayed by the pumping operation of the pump 100 is measured in real time and monitored so that it can be grasped by each user. It is possible to maximize the accuracy of painting and reduce the amount of paint used.

In addition, the coating amount of the worker calculated by the measuring unit 300 is transmitted to the operator in real time through the transmitting unit 600 to immediately check the painting amount of the worker, so that the painting operation can be performed more easily.

As described above, the present invention is not limited to the specific preferred embodiments described above, and any person having ordinary knowledge in the technical field to which the present invention pertains without departing from the gist of the present invention as claimed in the claims Of course, modifications are possible, and such changes are within the scope of the claims.

10: paint container
20: paint hose
30: injector
100: pump
200: air hose
300: measuring unit
310: pressure sensor
320: acceleration sensor
330: temperature and humidity sensor
340: proximity sensor
400: transmission unit
410: communication module
420: antenna module
500: monitoring unit
510: database
520: usage monitor
530: progress monitor
540: state graph
600: transmitter

Claims (7)

A pump unit 100 for pumping the paint contained in the paint container 10 and an air hose 200 providing compressed air to the pump 100 to measure the discharge amount of the paint;
A transmitting unit 400 receiving and transmitting the signal measured by the measuring unit 300; And
It includes; a monitoring unit 500 connected to the transmission unit 400 by wire/wireless and capable of grasping the coating amount in real time according to the transmission of the transmission unit 400;
Further comprising a transmitting unit 600 for transmitting the paint usage information measured by the measuring unit 300 to the operator in real time by wireless communication,
The transmission unit 400 includes a communication module 410 for receiving the measurement signal of the sensor and transmitting it to the monitoring unit 500; And
Includes; antenna module 420 for transmitting the communication of the communication module 410 to the monitoring unit 500;
The monitoring unit 500,
A database 510 for controlling and calculating a measurement signal of the measurement unit 300, and setting a worker's number or ID information tag for painting and a measurement value of painting for each worker;
A usage monitor 520 for real-time information of each worker's personal information and painting amount;
A progress monitor 530 that notifies in real time the progress of the painting operation; And
Includes; state graph 540 to graph the painting state;
The database 510 is a coating amount notification system, characterized in that for setting the information tag and the measurement value of each worker to be painted. delete According to claim 1,
The measurement unit 300,
A pressure sensor 310 provided in the air hose 200 connected to the pump 100 to sense the air pressure supplied to the pump 100;
Acceleration sensor (320) and proximity sensor (340) for measuring the vibration and cycle of the pump (100). The method of claim 3,
The measurement unit 300, the coating amount notification system further comprises a temperature and humidity sensor 330 for measuring the viscosity of the paint. delete delete delete

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