KR100821356B1 - A container for paints and the supply system of paints thereof and the supply method of paints thereof - Google Patents

Abstract

A container for paints, and a paint supply system and a method using the same are provided to supply a large quantity of paints quickly and to prevent environmental pollution by repeatedly storing the paints of same color in the container by standardizing the container, and reusing the container by washing an inner cavity. A container(100) for storing and supplying paints(400) is composed of a chamber(20) having a paint inlet port(24) and a paint discharge port(26) connected with a cavity(22) storing the paint; a cover(40) for closing the opened inlet port of the chamber and having an air inflow stage(42) formed at one side to receive the compressed air and connected with the cavity of the chamber; and a discharge mechanism(60) installed at the opened discharge port of the chamber to open and close the discharge port. The discharge mechanism discharges the paint stored in the cavity, by opening the discharge port when the compressed air flows into the air inflow stage.

Description

A container for paints and the supply system of paints and and supply supply of paints

The present invention relates to a paint container, a paint supply system using the same, and a paint supply method. More specifically, the chamber includes a chamber having a cavity in which a cavity for storing a large amount of paint is standardized in a predetermined size and shape as a container for transporting dangerous goods. By supplying the paint using the used paint container, the transport and movement of the paint is made stable and smoothly, and even if the amount of paint to be supplied during the painting work is not only smooth and rapid supply of the paint, but also the paint container It is standardized so that paints of the same color are repeatedly introduced into the paint containers and stored, and if necessary, the already used paint containers are reused by washing the internal cavity, so that no waste is generated, thus saving resources and preventing environmental pollution. On the other hand, the compressed air is introduced into the paint container to allow the inside of the paint container to By discharging the stored paint to a separate paint spraying equipment, it prevents external leakage of paint during painting work, preventing contamination of the surrounding environment of the work space, and at the same time, the paint container is used to reduce the start of work by using the paint container and its use. A paint supply system and a paint supply method.

A large amount of paint is used for ship painting at shipyards and body painting at vehicle manufacturing plants. Most of the paints currently used at shipyards and car manufacturing plants are stored in small-capacity containers of 20 liters and 100 liters. Such small-capacity conventional paint packaging containers are disposable and are discarded after use of the paint.

However, the conventional packaging packaging containers discarded as described above are designated as industrial designated wastes and have to be disposed of in accordance with the procedures and rules prescribed by the law, which makes the processing process cumbersome and expensive. Waste paint remaining in the packaging container leaked to the outside there was a problem of polluting the environment. In particular, the conventional paint packaging container was discarded in one use and was not able to be recycled.

And, the main material of the paint provided in this way is provided by using a separate mixing container in the workplace to give a hardener and thinner (thinner) provided in the same form, and to mix, put in a separate moving container to transport the worker to the working position. In the preparation process, there are various problems. That is, since various containers are used for mixing and conveying, loss of paint occurs, and mixing and conveying are made by an operator, so that loss of paint occurs in various forms. In addition, the contamination of the workplace environment caused by paint dust and volatile dangerous substances during mixing and conveying, there is a problem that the worker is continuously exposed to the harmful environment, and the musculoskeletal system safety because the worker transfers the mixed paint directly to the working position Accidents occur frequently. In addition, since the volatile material is managed using a container that is not equipped with a safety device, there is a problem of being exposed to the risk of fire due to insufficient management of the paint.

On the other hand, in the conventional coating work was used a mixture of the curing agent and thinner to the main material to ensure a smooth coating, the exciting volatility is strong, and after mixing with the paint and the curing agent to paint the target quickly There was discomfort.

Accordingly, a two-component pump device having only a paint and a curing agent and storing the same in a separate container and connected to such a container and pumping the paint and the curing agent with a two-component pump and mixing them with each other has been proposed. The two-component pump device pumped the paint and the curing agent at the time of the painting operation to spray on the target object to achieve a smooth coating without the use of thinner.

As such a two-component pump device, Korean Patent Publication No. 10-0718925 No. "High viscosity two-component pump device" and the like have been proposed.

The high-viscosity two-component pump device includes two raw material supply pumps for respectively sucking the curing agent and the main raw material formed in the raw material packaging container; Two press tanks each of which a main material and a curing agent, which are raw materials of the two raw material supply pumps, are inserted; A main pump for mixing the raw materials discharged from the two press tanks into one; A heater unit connected to one side of the main pump to maintain raw materials mixed from the main pump at an appropriate temperature; A high pressure spray gun for discharging raw materials maintained at a temperature by the heater to the outside; And a control unit for controlling the operation of the devices.

Here, in order to perform painting of ships manufactured in shipyards and vehicles manufactured in vehicle manufacturing plants using the paint spraying equipment, including the above-described two-liquid pumping device, paint or hardener coating It must be supplied smoothly to the equipment. As a conventional small-capacity packaging container cannot supply a large amount of paint to the paint spraying equipment quickly and smoothly, a large amount of paint can be quickly and smoothly to the paint spraying equipment. The development of paint containers that can be supplied is urgently needed.

Therefore, the present invention improves the problems of the prior art, and supplies the paint using a container for a paint having a chamber formed inside the cavity which is standardized in a predetermined size and shape as a dangerous goods transport container, and the paint is stored in a large capacity. Thus, the transport and movement of the paint is made stable and smooth, and even when the amount of paint to be supplied is high, the paint is smoothly and quickly supplied, and the paint container is standardized to repeatedly paint the same color. A new type of paint container which can be stored and stored in the paint container and, if necessary, reused the paint container already used by washing of the internal cavity, thereby avoiding wastes and saving resources and preventing environmental pollution. To provide a paint supply system and paint supply method used The.

In addition, the present invention is the loss of the paint generated during the mixing and transport in the preparation of the paint during the conventional painting work, the contamination of the workplace environment by the dust and volatile dangerous materials of the paint, the worker of the worker generated by transporting the mixed paint to the work location It is an object of the present invention to provide a new type of container for paint that can prevent musculoskeletal safety accidents and the risk of fire due to inadequate control of the paint, a paint supply system and a paint supply method using the same.

In particular, the present invention by introducing the compressed air into the paint container to discharge the paint stored in the paint container to a separate paint spraying equipment to prevent external leakage of the paint during painting work to prevent contamination of the surrounding environment of the work space It is an object of the present invention to provide a new type of paint container, a paint supply system using the same, and a method of supplying paint, which can be prevented and at the same time reduce the start of work.

According to a feature of the present invention for achieving the above object, the present invention is a container for paint for storing and supplying paint, the inlet and the inlet through which the paint flows out of the cavity and the space in which the paint is stored; A chamber formed in connection; A lid configured to close the open inlet of the chamber, and an air inlet end through which compressed air is introduced to one side thereof is connected to the cavity of the chamber; And a discharge mechanism installed at an open discharge port of the chamber to open and close the discharge port and open the discharge port when the compressed air flows into the air inlet end to discharge the paint stored in the cavity. do.

In the container for paints according to the present invention, the support end is coupled to each corner of the lower surface of the chamber, so that a space for discharging the paint from the outlet and the discharge mechanism formed on the lower surface of the chamber may be formed. The fork jig into which the fork of the forklift is inserted into the support end is horizontally coupled to enable movement of the chamber by the forklift, and the lifting protrusions are coupled to each corner of the upper surface of the chamber. To allow movement of the chamber by a lifting mechanism, and a lifting protrusion formed on the upper surface of the chamber is located outside the support end formed on the lower surface of the chamber so that the support end is attached to the lifting protrusion. It is characterized in that the chamber is stacked side by side while being supported by.

In the container for paint according to the present invention, the outlet of the chamber is made of a hopper shape of a gentle curved surface so that the paint with high viscosity can be discharged to the outside without stopping.

In the coating container according to the present invention, the chamber is pinned to a fixed end formed at one end of the cover to a fixed end formed at an outer end of the inlet so that the cover can be opened and closed in a state fixed to the chamber. However, a plurality of fastening mechanisms paired around the inlet of the chamber and the cover are installed at a position corresponding to each other, so that the fixed end and the coupling end are fastened to each other in a direction perpendicular to the direction in which the pin is coupled. It is characterized in that the cover is firmly coupled.

In the paint container according to the present invention, the cover is provided with a safety valve connected to the cavity of the chamber on one side, so that the safety valve automatically opens when the internal pressure of the cavity is higher than a predetermined pressure value. It is characterized in that the explosion of the chamber is prevented.

In the container for paint according to the present invention, the discharge mechanism is characterized in that it comprises an elbow connected to the outlet of the chamber, and a ball valve for controlling the opening and closing of the outlet coupled to the elbow.

According to another feature of the present invention for achieving the above object, the present invention provides a paint supply system for supplying the paint to be carried out, the pneumatic mechanism for supplying compressed air; The inlet and the outlet through which the paint flows are provided with a chamber formed by connecting with the cavity which is the space in which the paint is stored. An air inlet end is formed in the cover which is fixed to the chamber and closes the inlet. A paint container connected to the chamber and having a discharge mechanism installed in the chamber to open and close the discharge port so that the paint is discharged during painting; A paint spraying equipment which is connected to the discharge mechanism of the paint container and receives the paint to perform a painting operation; and by the compressed air introduced into the chamber of the paint container through the pneumatic mechanism. When the chamber reaches a predetermined discharge pressure, it is characterized in that the paint is supplied to the paint spray painting equipment by opening the discharge mechanism of the paint container.

According to another feature of the present invention for achieving the above object, the present invention includes a paint filling step of introducing the paint into the container for the paint having an inlet and an outlet connected to the cavity inside; A container moving step of moving the paint container to a work space where a painting work is performed using a transport moving device such as a vehicle, a lifting mechanism, or a forklift truck; The paint container is connected to the paint spray painting equipment provided separately, and the compressed air is introduced into the cavity inside the paint container, and the paint in the paint container is discharged to the paint spray painting equipment. A paint supply step to be performed; When the use of the paint stored in the paint container is completed in the paint supply step, the paint container is separated from the paint spraying equipment, and then the paint container is moved to a vehicle, a lifting device, a forklift, and the like. It is characterized in that it comprises a; refilling step of moving to a place where the paint is used to store the paint in the paint container again.

According to the paint container according to the present invention, a paint supply system using the same, and a paint supply method using the same, the paint container is provided with a chamber having a cavity formed therein that is standardized in a predetermined size and shape as a container for transporting dangerous goods, and the paint is stored in a large capacity. By supplying the paint by using the paint, the transport and movement of the paint is made stable and smoothly, even if the amount of paint to be supplied during the painting work is not only smooth and fast supply of paint, but also the container for the paint standardized The color paint is repeatedly stored in the paint container, and if necessary, the already used paint container is reused by washing the internal cavity, so that no waste is generated, thereby saving resources and preventing environmental pollution. After connecting the paint container to the pump device, pressurized air to the paint container The paint stored in the paint container is discharged to the two-component pump device so that the painting work is performed in the two-component pump device, thereby preventing external leakage of the paint, preventing contamination of the surrounding environment at the same time, and promptly Work is reduced. In addition, unlike the prior art, it is possible to eliminate the process of preparation and mixing of the paint in the workplace, compared to the prior art, it is possible to minimize the loss of the paint, dust of the paint and contamination of the workplace environment due to volatile dangerous goods, The risk of musculoskeletal safety accidents and fire can be effectively eliminated.

Hereinafter, a preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings, Figures 1 to 6, the same reference numerals are denoted with respect to the components performing the same function in Figures 1 to 6. On the other hand, in the drawings and detailed description showing and referring to the construction and operation that can be easily understood by those skilled in the art from the general paint container and paint supply system and paint supply method is briefly or omitted. In particular, in the drawings and detailed description of the drawings, detailed descriptions and illustrations of specific technical configurations and operations of elements not directly related to technical features of the present invention are omitted, and only the technical configurations related to the present invention are briefly shown or described. It was. In addition, although the size ratio between elements is somewhat different in the drawings of the drawings, or the size between the parts that are coupled to each other is expressed differently, the representation differences in these drawings can be easily understood by those skilled in the art. As they are parts, a separate description is omitted.

1 is a block diagram for showing a paint supply method according to the invention, Figure 2 is a block diagram for showing a process for supplying paint using the paint supply system according to the invention, Figure 3 is a view of the present invention 4 is a front perspective view of a paint container according to a preferred embodiment, FIG. 4 is a front view of a paint container according to a preferred embodiment of the present invention, and FIG. 5 is a side view of a paint container according to a preferred embodiment of the present invention. 6 is a plan view of a paint container according to a preferred embodiment of the present invention.

The paint container according to the present invention is used as a dangerous goods transport container, and includes a chamber 20, a cover 40, and a discharge mechanism 60.

The chamber 20 is standardized to have a predetermined size and shape. Unlike the conventional small-capacity packing container, the chamber 20 has a size that can be stored in the large-capacity paint 400. For example, it can be produced in the size of 600 liter capacity. Such a chamber 20 is provided with a cavity 22, which is a space in which the paint 400 is stored, and the chamber 20 according to the preferred embodiment of the present invention is designed to withstand a predetermined internal pressure and the paint 400 is stably stored in the cavity 22, and even if compressed air is introduced into the cavity 22, deformation or breakage of the chamber 20 is prevented. That is, the chamber 20 according to the preferred embodiment of the present invention is configured to allow the paint 400 stored in the cavity 22 to be discharged to the outside while compressed air is introduced from the outside. 400) and the pressure of the compressed air flowing into the cavity 22 is designed to withstand a predetermined internal pressure.

To this end, the chamber 20 according to the preferred embodiment of the present invention is made of a metal material having high pressure resistance, for example, stainless steel may be used. As shown in FIG. 3, the support 34 may be additionally installed horizontally around the outer surface of the chamber 20 to withstand the pressure acting on the side of the chamber 20. At this time, in the present invention, the chamber 20 preferably has a high pressure resistance, but considering the cost, it is necessary to meet the technical requirements of the present invention while satisfying the safety range, which corresponds to the standard of the pressure vessel commonly referred to It is not required to have pressure resistance. In other words, according to the Enforcement Regulations of the Industrial Safety and Health Act (Labor Decree No. 265 2007.1.12.), The pressure vessel has a working pressure of more than 0.2 kilograms per square centimeter of gauge pressure and the operating pressure (in kilograms per square centimeter) It is specified that the product of the enemy (unit: cubic meter) is 1 or more, but the chamber 20 according to the preferred embodiment of the present invention has a working pressure of 1 kg / cm ² , and its product is 600 l × 10 ⁻³ m ³ . 0.6, which does not apply to ordinary pressure vessels.

In addition, the chamber 20 may be provided with a pressure gauge on the outer surface to monitor the internal pressure of the cavity 22.

The upper and lower portions of the chamber 20 are formed with an inlet 24 through which the paint 400 flows, and an outlet 26 through which the paint 400 flows out, respectively, wherein the inlet 24 and the outlet 26 are It is connected to the cavity 22 in the chamber 20 so as to flow in and out of the paint 400 to the cavity 22.

Here, the chamber 20 is a paint 400 from the discharge port 26 and the discharge mechanism 60 formed on the lower surface of the chamber 20 is coupled to the support end 28 having a predetermined height in each corner of the lower surface Allow a space to be discharged to form a space. Of course, the support end 28 also serves as a leg to support the chamber 20 when the chamber 20 is placed on the floor, such as the workspace.

In addition, a fork jig 30 is horizontally coupled to the lower surface of the chamber 20 inside the support end 28 to transport the paint container 100 according to the present invention if necessary. Since the fork of the forklift is inserted into the fork jig 30, the transport of the paint container 100 by the forklift can be performed smoothly and stably. Such a fork jig 30 may be a 'c' type channel (channel).

In addition, a lifting mechanism 32 is coupled to each corner portion of the upper surface of the chamber 20 so that the lifting mechanism, which lifts and moves the paint container 100 according to the present invention up and down, if necessary, protrudes for lifting. In order to be connected at the stage 32, the movement of the paint container 100 by the lifting mechanism can be performed smoothly and stably. In this case, the lifting protrusion 32 has a connection hole 322 to pierce the wires or strings connecting the lifting mechanism and the lifting protrusion 32 to each other.

The lifting protrusion 32 as described above has a 'b' type channel shape when the chamber 20 has a hexahedron shape as in a preferred embodiment of the present invention, 'b' type on the upper surface of the chamber 20. It is preferable to be installed to correspond to each corner formed by.

On the other hand, the paint container 100 according to the present invention has a large amount of paint required for painting work or when the paint container 100 to be moved to another place in a batch, a plurality of paint containers 100 It moves up and down by stacking.

Here, the lifting protruding end 32 formed on the upper surface of the chamber 20 is located outside the support end 28 formed on the lower surface of the chamber 20, so that the chamber 20 is up and down When it is applied to the support end 28 of the chamber 20 stacked on the upper side is located inside the lifting protrusion 32 of the lower chamber 20 is supported side by the lifting protrusion 32 Accordingly, the stacking of the paint container 100 is stably made and the paint container 100 positioned on the upper side of the paint container 100 is prevented from shaking and falling.

In addition, the outlet 26 of the chamber 20 according to the preferred embodiment of the present invention has a smooth curved funnel shape, that is, a hopper shape, which takes into account the characteristics of the highly viscous paint 400. This is to ensure a smooth discharge when the paint 400 is discharged down the discharge port 26 in the cavity 22.

The cover 40 closes the open inlet 24 of the chamber 20, and the paint 400 may be applied to the inlet 24 of the chamber 20 with the outlet 26 of the chamber 20 closed. After inflow, the inlet 24 is closed to close. The cover 40 is formed such that the air inlet end 42 is connected to the cavity 22 of the chamber 20 at one side, and the air inlet end 42 is connected to the pipe of the pneumatic mechanism 200 provided separately. Compressed air is to be introduced into the cavity 22 of the chamber 20. Such air inlet end 42 is preferably provided with a valve for opening and closing the air inlet end 42 to control the inflow and blocking of the compressed air.

In addition, the cover 40 according to the preferred embodiment of the present invention is provided with a safety valve 44 connected to the cavity 22 of the chamber 20, such a safety valve 44 is a pneumatic mechanism for painting work In order to prevent the paint container 100 from being exploded or damaged by the compressed air supplied to the paint container 100 through the 200, the internal pressure of the cavity 22 in which the paint 400 is stored is stored in the chamber. When the pressure 20 can withstand the pressure value higher than the pressure set separately for safety, the safety valve 44 is automatically opened to lower the pressure inside the cavity 22 of the chamber 20.

In order to fix the cover 40 to the chamber 20, the chamber 20 forms a fixed end 36 at an outer end of the inlet 24, and the cover 40 has a fixed end 36. A coupling end 46 is formed at a position corresponding to the coupling end 46 so that the fixed end 36 of the chamber 20 and the coupling end 46 of the cover 40 are pinned to each other by a coupling pin. 40 is to open and close the chamber 20 in a fixed state to the chamber 20 while rotating the coupling pin axis.

In addition, a pair of fastening mechanisms 38 and 48 are installed at a position corresponding to the periphery of the inlet 24 of the chamber 20 and the cover 40, and the fastening mechanisms 38 and 48 are formed in the chamber ( A plurality of the plurality of spaced apart from each other along the periphery of the inlet 24 and the periphery of the cover 40 of the 20 is coupled to each other to secure the lid 40 to the chamber 20, where the fastening mechanism 38, 48 is The fixed end 36 and the coupling end 46 are perpendicular to the direction in which they are pinned to each other, that is, unlike the fixed end 36 and the coupling end 46 which are pinned in the horizontal direction in a preferred embodiment of the present invention. The fasteners 38 and 48 are released in use, the lid 40 continues to the chamber 20 by engagement at the fixed end 36 and the engaging end 46. It can be fixed.

Fastening mechanism 38, 48 according to a preferred embodiment of the present invention is formed in the form of an eye bolt, the anchor bolt 382 coupled to the chamber 20, the nut (40) in close contact with the cover (40) 482 is in the form of an eye bolt.

The discharge mechanism 60 is installed in the open discharge port 26 of the chamber 20 to open and close the discharge port 26. When the compressed air is introduced into the air inlet 42, the discharge hole 26 is opened to open the cavity. The paint 400 stored in the 22 is discharged. Here, the discharge mechanism 60 according to the preferred embodiment of the present invention controls the opening and closing of the elbow 62 and the outlet 26 coupled to the elbow 62 and the outlet 26 of the chamber 20. It consists of a ball valve (64).

The paint supply system according to the present invention using such a paint container 100 includes a pneumatic mechanism 200 for supplying compressed air, a paint container 100, and a paint spraying equipment 300. Is done.

Here, the pneumatic mechanism 200 is connected to the air inlet end 42 formed on the cover 40 of the paint container 100 to supply compressed air, the paint spray painting equipment 300 is a paint container ( It is connected to the discharge mechanism 60 of 100 to receive the paint 400 discharged from the chamber 20 by the compressed air.

The paint supply method according to the present invention using such a paint container 100 comprises a paint filling step, a container moving step, a paint supply step, a paint refilling step.

In the paint filling step, the paint 400 is introduced into and stored in the paint container 100 having the inlet 24 and the outlet 26 connected to the cavity 22 therein. Such a paint container 100 is standardized to a predetermined size and shape, and has a size that can be stored in a large amount of paint 400 smoothly to a large amount of paint 400 at the work site where the painting work is made. I can supply it.

Here, the paint container 100 standardized as described above may be used limited to the color of the paint, which is to reuse the paint container 100. Of course, if necessary, the inner cavity 22 of the paint container 100 may be cleaned to refill the paint of another color.

In addition, the paint container 100 according to the present invention is preferably used to limit the color by color mainly around the paint color is generally used in the painting work.

On the other hand, the paint container 100 according to the present invention is connected to a storage tank or a tank lorry (tank lorry) where a large amount of paint is stored to fill the paint (400).

The container moving step is a step of moving the paint container 100 to the work space where the painting work is performed using a transport movement equipment such as a vehicle, a lifting mechanism, a forklift truck, and the like. The paint container 100 according to the present invention is standardized to a predetermined size and shape, and is provided with a lifting protrusion 32 and a fork jig 30 to smoothly move by a lifting mechanism and a forklift to supply paint. The time taken for the process is shortened, and the productivity is improved.

The paint supply step is to supply the paint 400 for the painting work. To this end, first, the outlet 26 of the paint container 100 is connected to the paint spraying equipment 300, which can be used in various forms, including a two-component pump device that is separately provided, and the paint container 100 It is to connect the air inlet end 42 of the paint container 100 to the pneumatic mechanism 200 is provided separately to supply compressed air to the.

Next, the compressed air flows into the cavity 22 in a state in which the discharge mechanism 60 installed at the discharge port 26 is closed, and when the pressure reaches a pressure value determined to perform a smooth painting operation inside the cavity 22, the discharge port is discharged. Opening the discharge mechanism 60 installed in the (26) so that the paint 400 inside the paint container 100 is discharged to the paint spray painting equipment 300 to perform the painting work. As described above, in the present invention, as the paint 400 is immediately discharged to the paint spraying paint equipment 300, external leakage of the paint 400 is prevented, and the supply of the paint 400 is made quickly and smoothly.

The paint refilling step is for the paint from the pneumatic mechanism 200 to which the paint spraying equipment 300 and the compressed air is supplied when the use of the paint 400 stored in the paint container 100 in the paint supply step is completed. After the container 100 is separated, the paint container 100 is moved to a place where the paint is provided by using a transportation device such as a vehicle, a lifting device, or a forklift, and then the paint is stored in the paint container. .

As described above, the paint container 100 is standardized to a predetermined size and shape, and the paint 400 is stored in a large capacity in the cavity 22 of the chamber 20. Accordingly, the transport vehicle, lifting mechanism, forklift, etc. By being able to move the transport using the transport equipment, the transport and movement of the paint 400 is made stable, smooth, and quick. In addition, even when the amount of the paint 400 to be supplied during the painting operation is large, as having a large-capacity cavity 22, the large-capacity paint 400 is smoothly and quickly made.

In addition, the paint container 100 according to the present invention is standardized, and the paint of the same color is repeatedly introduced into the paint container 100 and stored therein, and, if necessary, the inner cavity 22 is washed to remove other paints. The paint of the color is also to be stored, as described above, in the present invention, because the already used paint container 100 is reused, waste is not generated and resources are saved and environmental pollution is prevented.

In addition, after connecting the paint container 100 to the paint spraying equipment 300 of various types, including a two-component pump device, the compressed air is introduced into the paint container 100 to the inside of the paint container 100. By discharging the stored paint 400 to the paint spray painting equipment 300 so that the painting work is performed in the paint spray painting equipment 300, the painting work is quickly and smoothly, and the painting work time is shortened. In the supply process of 400, the external leakage of the paint 400 is prevented to prevent contamination of the surrounding environment of the work space.

As described above, the paint supply method according to an embodiment of the present invention and a container for paint therefor are shown in accordance with the above description and drawings, but this is merely an example and is within the scope not departing from the technical spirit of the present invention. It will be understood by those skilled in the art that various changes and modifications are possible in the art.

1 is a block diagram for showing a paint supply method according to the present invention;

Figure 2 is a block diagram for showing a process of supplying paint using the paint container according to the present invention;

3 is an overall perspective view of a container for paints according to a preferred embodiment of the present invention;

4 is a front view of a paint container according to a preferred embodiment of the present invention;

5 is a side view of a paint container according to a preferred embodiment of the present invention;

6 is a plan view of a paint container according to a preferred embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

20: chamber 22: cavity

24: inlet 26: outlet

28: support end 30: jig for fork

32: protruding end for lifting 322: connecting hole

34: support 36: fixed end

38, 48: fastening mechanism 382: anchor bolt

40: cover 42: air inlet end

44: safety valve 46: coupling end

482: nut 60: discharge mechanism

62: elbow 64: ball valve

100: paint container 200: pneumatic mechanism

300: paint spraying equipment 400: paint

Claims (8)

In the paint container for storing and supplying paint, A chamber in which the inlet port through which the paint flows in and the outlet port through which the paint flows out are connected to a cavity which is a space for storing the paint; A lid configured to close the open inlet of the chamber, and an air inlet end through which compressed air is introduced to one side thereof is connected to the cavity of the chamber; And a discharge mechanism installed at an open discharge port of the chamber to open and close the discharge port and open the discharge port when the compressed air flows into the air inlet end to discharge the paint stored in the cavity. Paint container. The method of claim 1, The chamber has a support end coupled to each corner of the lower surface such that a free space for discharging the paint from the outlet and the discharge mechanism formed on the lower surface of the chamber is formed, and the forklift to the inside of the support end. The fork jig into which the fork is inserted is horizontally coupled to allow movement of the chamber by a forklift, and a lifting protrusion is coupled to each corner of the upper surface of the chamber to move the chamber by the lifting mechanism. Make it possible, Lifting protrusions formed on the upper surface of the chamber is located on the outside than the support end formed on the lower surface of the chamber is characterized in that the support end is supported side by the lifting protrusion for the chamber is stacked up and down Paint container. The method of claim 1, The discharge port of the chamber is made of a hopper shape of a gentle curved surface paint container characterized in that the highly viscous paint can be discharged to the outside without stopping. The method of claim 1, The chamber is pin-coupled to a coupling end formed at one end of the cover to a fixed end formed at an outer end of the inlet so that the cover can be opened and closed in a state fixed to the chamber, A plurality of fastening mechanisms paired around the inlet of the chamber and on the cover are installed in a position corresponding to each other so that the fixed end and the engaging end are fastened to each other in a direction perpendicular to the direction in which the pin is coupled. Paint container, characterized in that firmly coupled. The method of claim 1, The cover is provided with a safety valve connected to the cavity of the chamber on one side, so that the safety valve is automatically opened when the internal pressure of the cavity is higher than a predetermined pressure value to prevent the explosion of the chamber Paint container. The method of claim 1, The discharge mechanism is a paint container comprising an elbow connected to the outlet of the chamber, and a ball valve for controlling the opening and closing of the outlet coupled to the elbow. In the paint supply system to supply the paint to perform the painting work, A pneumatic mechanism for supplying compressed air; The inlet and the outlet through which the paint flows are provided with a chamber formed by connecting with the cavity which is the space in which the paint is stored. An air inlet end is formed in the cover which is fixed to the chamber and closes the inlet. A paint container connected to the chamber and having a discharge mechanism installed in the chamber to open and close the discharge port so that the paint is discharged during painting; It is made, including; paint spraying equipment which is connected to the discharge mechanism of the paint container is supplied with the paint to perform the painting work; When the chamber reaches a predetermined discharge pressure by the compressed air flowing into the chamber of the paint container through the pneumatic mechanism, open the discharge mechanism of the paint container so that the paint is supplied to the paint spraying equipment. Paint supply system, characterized in that. A paint filling step of introducing and storing the paint into a paint container having an inlet and an outlet connected to the cavity; A container moving step of moving the paint container to a work space where a painting work is performed using a transport moving device such as a vehicle, a lifting mechanism, or a forklift truck; The paint container is connected to the paint spray painting equipment provided separately, and the compressed air is introduced into the cavity inside the paint container, and the paint in the paint container is discharged to the paint spray painting equipment. A paint supply step to be performed; When the use of the paint stored in the paint container is completed in the paint supply step, the paint container is separated from the paint spraying equipment, and then the paint container is moved to a vehicle, a lifting device, a forklift, and the like. A paint refilling step of moving to a place where the paint is used and storing the paint in the paint container again.

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