KR20160062419A - Liquid injection apparatus for spray direction change type hydrodynamic - Google Patents

Abstract

The present invention relates to a hydraulic liquid injection apparatus capable of changing an injection direction. The hydraulic liquid injection apparatus includes: a first cylinder unit (100) fixed to a body (50) so as to suck a liquid with which a liquid storage tank (10) is filled and discharge the same into an object to be injected; a second cylinder unit (200) sucking the liquid from the liquid storage tank (10) or discharging the liquid into the object to be injected; a motion inducement unit (300) allowing the second cylinder unit (200) to perform a discharge motion or a sucking motion on the contrary to the motion of the first cylinder unit (200); a regulator unit (400) allowing the liquids discharged from the first cylinder unit (100) and the second cylinder unit (200) to be uniformly injected into the object to be injected; and an injection direction control unit adjusting an injection direction of the liquids injected from the regulator unit (400).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hydraulic liquid ejecting apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hydraulic liquid injection device capable of changing the direction of injection, and more particularly, to a hydraulic liquid injection device capable of changing a direction of injection, .

Painting is performed by coating a surface of an object with a coating material to form a film. Painting is performed to prevent the object from fouling, corrosion and wear, increase durability, and make the surface of the object more beautiful by color or gloss effect .

Such coatings are also used for the purpose of electrical insulation, heat dissipation, sterilization, soundproofing, reflection of light, and for the purpose of rust prevention, corrosion prevention, and wetland prevention of material surfaces.

In this way, various methods can be used to carry out the painting. Among them, a hydraulic type sprayer using hydraulic pressure can be used.

Hydraulic sprayers are widely used for vessels requiring large-scale spraying force and large-scale painting work, and have a structure in which high pressure is sprayed through suction and pressurization of paint.

However, in the case of a hydraulic paint applicator, due to a clear distinction between suction and discharge in the operation of a hydraulic cylinder, the paint discharge pressure is not constant and pulsation due to pressure drop occurs, .

Further, the paint spraying apparatus for coating has to move the spraying apparatus itself to adjust the spraying direction, and it is difficult to perform the painting work depending on the position of the spraying object.

In addition, since the components of the hydraulic type sprayer are formed to be interlocked with each other, when the constant pressure is not maintained in the cylinder liner at the time of coating, the entire cylinder must be replaced due to frequent failure of the components.

In addition, when the pressure of the cylinder is not constant and the sprayer malfunctions, the efficiency of the operation due to the interruption of the work is remarkably lowered.

Patent Document Registration Patent No. 10-0916918

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above problems, and it is an object of the present invention to provide a hydraulic type liquid ejection apparatus capable of changing the injection direction according to the present invention in which a discharge pressure of liquid or paint is kept constant, Which is capable of changing the spraying direction so that the spraying direction can be changed.

The hydraulic liquid spray device capable of changing the spraying direction according to the present invention can easily change the spraying direction of the liquid or the paint to the spraying object and can spray the liquid or the paint material smoothly regardless of the position of the spraying object The present invention provides a hydraulic liquid ejection apparatus capable of changing the direction of injection.

The hydraulic liquid spray device capable of changing the spraying direction according to the present invention provides a hydraulic liquid spray device capable of changing the spray direction so as to prevent the peripheral parts from being damaged by maintaining a constant pressure in the cylinder in the hydraulic paint device There is a purpose.

An object of the present invention is to provide a hydraulic liquid spray device capable of changing the injection direction so that the failure of the hydraulic paint device can be minimized so that the painting operation can smoothly proceed.

The hydraulic liquid spray device capable of changing the spraying direction according to the present invention is connected to a liquid reservoir 10 in which liquid is stored and is fixed to the body 50 to suck the liquid filled in the liquid reservoir 10 and discharge it to the object to be sprayed (100); The first cylinder part 100 is fixed to the body 50 so that the first cylinder part 100 sucks the liquid from the liquid storage tank 10, A second cylinder part (200) for discharging the liquid to the object to be injected when the first cylinder part (100) sucks the liquid; The second cylinder part 200 is connected to the first cylinder part 100 and the second cylinder part 200 so that the second cylinder part 200 is connected to the first cylinder part 100 according to the suction or discharge operation of the first cylinder part 100. [ The operation guide 300 connected to the body 50 while being operated to discharge or suck in a state opposite to that of the operation unit 200; A regulator part 400 for controlling the pressure and the amount of the liquid discharged from the first cylinder part 100 and the second cylinder part 200 so that the liquid is uniformly injected to the object to be injected; And a spray direction controller 500 connected to the body 50 to adjust the injection direction of the liquid sprayed from the regulator unit 400 while allowing the body 50 to reciprocally rotate in both directions.

The first cylinder part 100 includes a first cylinder 112 having a first intake port 112 for sucking the liquid filled in the liquid reservoir 10 and a first discharge port 114 for discharging the sucked liquid, And a first rod 120 reciprocating from the inside to the outside of the first cylinder 110. The second cylinder 200 includes a first cylinder 110 and a second cylinder 120, A second suction port 212 for sucking the liquid filled in the liquid reservoir 10 when the first discharge port 114 is arranged to discharge the liquid and a second discharge port 214 for discharging the sucked liquid And a second rod 220 that reciprocates in and out of the second cylinder 210. The operation guide 300 includes the first rod 120 and the second rod 220, An alternating pressurizing belt 310 which is in close contact with the first rod 220 and the second rod 220 so as to alternately pressurize the first rod 120 and the second rod 220, As the tail stock 310 is reciprocated comprises an operation cylinder 330 is provided with the operating rod 320 is operated to alternately pressurizes the first rod 120 and second rod 220.

The alternating pressure pad 310 is disposed between the first cylinder part 100 and the second cylinder part 200 in the longitudinal direction of the first cylinder part 100 and the second cylinder part 200, A flow rod 312 extending through the body 50 and extending in the horizontal direction at the tip of the flow rod 312 and being disposed in close contact with the first rod 120, An upper pressurizing plate 314 for pressing the first rod 120 by the first rod 220 and a second rod 220 extending horizontally from the end of the flow rod 312 to be in close contact with the second rod 220, And a lower pressure plate 316 for pressing the second rod 220 by the operation of the second rod 220.

The upper and lower pressure plates 314 and 316 are formed in a rod shape and are formed in a plurality of directions in the direction of the arrows and the flow bars 312 are formed by the upper pressure plate 314 and the lower pressure plate 316, (50).

The first suction port 112 and the second suction port 212 are provided with a suction check function for blocking the discharge of the liquid sucked from the liquid storage tank 10 through the first suction port 112 and the second suction port 212, A valve 180 is provided in the first discharge port 114 and the second discharge port 214 to prevent the liquid discharged to the discharge object from flowing back into the first discharge port 114 and the second discharge port 214 The discharge check valve 190 is provided.

The regulator unit 400 includes a spray pipe 410 for collecting the liquid discharged from the first cylinder part 100 and the second cylinder part 200 into a single tube so as to be sprayed onto the object to be sprayed, A valve 420 connected to the injection pipe 410 to adjust the amount of the liquid discharged from the first cylinder part 100 and the second cylinder part 200; And a regulator 430 connected to the injection pipe 410 and controlling the pressure of the liquid discharged from the first cylinder part 100 and the second cylinder part 200 to be constant.

The regulator unit 400 includes an injection nozzle 440 connected to the injection pipe 410 to adjust the injection range so that liquid is dispersed or injected into the injection object.

The injection direction controller 500 includes a rotation shaft 510 connected to the body 50 to allow the body 50 to rotate in both directions and a power source connected to the rotation shaft 510 to supply power to the rotation shaft 510. [ And a control panel 530 connected to the rotation motor 520 and controlling the operation of the rotation motor 520. [

The regulator unit 400 further includes a corrugated tube 450 formed between the injection tube 410 and the injection nozzle 440 and capable of changing the direction of the injection nozzle 440 in the four directions.

The hydraulic liquid spraying apparatus according to the present invention is capable of changing the injection direction so that the paint sprayed from the spraying apparatus can be sprayed uniformly onto the object to be sprayed so that the technical effect of improving the quality of the product have.

The hydraulic liquid spray device capable of changing the spraying direction according to the present invention can easily change the spraying direction of the liquid or the paint to the spraying object and can spray the liquid or the paint material smoothly regardless of the position of the spraying object There is a technical effect that the coating efficiency can be improved.

The hydraulic liquid spraying apparatus according to the present invention is capable of reducing the maintenance cost by preventing the peripheral parts from being damaged due to the constant pressure of the cylinder in the hydraulic paint coating apparatus.

The hydraulic liquid spraying apparatus according to the present invention is capable of changing the injection direction so that the failure of the hydraulic paint spraying apparatus can be minimized so that the painting operation can smoothly proceed and the working efficiency can be improved.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a hydraulic liquid ejecting apparatus according to the present invention in which the ejecting direction can be changed.
Figure 2 is a view showing the separation according to Figure 1;
3A and 3B are views showing the use state of the hydraulic liquid spray device capable of changing the injection direction according to the present invention.
4 is a view showing another embodiment of a hydraulic liquid ejection apparatus capable of changing the ejecting direction according to the present invention.
5 is a view showing another embodiment of a hydraulic liquid ejection apparatus capable of changing the ejecting direction according to the present invention.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. It is also to be understood that the position or arrangement of the individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled, if properly explained. In the drawings, like reference numerals refer to the same or similar functions throughout the several views, and length and area, thickness, and the like may be exaggerated for convenience.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, so that those skilled in the art can easily carry out the present invention.

In the following detailed description, for example, it is assumed that a hydraulic liquid ejection apparatus capable of simultaneously performing suction and ejection in accordance with one-time reciprocating motion of a cylinder piston, in which the direction of injection can be changed (particularly, a first cylinder, The direction of the spraying direction adjusting section] can be applied equally to the same.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a hydraulic liquid ejecting apparatus according to the present invention in which the ejecting direction can be changed.

Figure 2 is a view showing the separation according to Figure 1;

1 and 2, the hydraulic liquid spraying apparatus according to the present invention, in which the injection direction can be changed, includes a first cylinder part 100 capable of sucking or discharging liquid, and a second cylinder part 100 corresponding to a direction opposite to the first cylinder part 100 An operation guide part 300 connected to the first and second cylinder parts 100 and 200 so as to perform the discharging operation and the suctioning operation alternately, A regulator unit 400 for regulating the injection direction of the liquid injected from the regulator unit 400 while allowing the body 50 to reciprocally rotate in both directions, ).

In the embodiment of the present invention, the liquid reservoir 10 is filled with a paint, and the first and second cylinder units 100 and 200 discharge the paint filled in the liquid reservoir 10, The object is to be painted.

Various liquids can be accommodated in the liquid reservoir 10 and the liquid in the liquid reservoir 10 is sucked by the operation of the first and second cylinder units 100 and 200, .

The first and second cylinder units 100 and 200 are fixedly disposed on the body 50 and the operation guide unit 300 is disposed partially through the body 50, The parts 100 and 200 operate so as to be capable of sucking or discharging the paint alternately.

That is, the first cylinder part 100 is fixed to the body 50 so as to be connected to the liquid reservoir 10 in which the liquid is stored, to draw in the paint filled in the liquid reservoir 10 and to discharge the paint to the object to be sprayed.

The first cylinder part 100 includes a first suction port 112 for sucking the paint filled in the liquid reservoir 10 and a first discharge port 114 for discharging the sucked paint. 1 cylinder 110 and a first rod 120 reciprocating in and out of the first cylinder 110. [

The first suction port 112 sucks the paint filled in the liquid reservoir 10 and can be introduced into the first cylinder 110.

The first discharge port 114 serves as a passage through which the paint introduced into the first cylinder 110 can be discharged to the regulator unit 400 by the pressure of the first rod 120 .

The second cylinder part 200 is disposed to correspond to the first cylinder part 100 in a direction opposite to the first cylinder part 100 and is fixed to the body 50 so that the first cylinder part 100 discharges the liquid The painting material is sucked from the storage tank 10 and the first cylinder part 100 plays a role of discharging the paint to the object to be sprayed when the painting material is sucked.

That is, the second cylinder part 200 is connected to the same liquid storage tank 10 connected to the first cylinder part 100, and when the paint is sucked in the first cylinder part 100, The liquid is discharged from the liquid reservoir 10 in the second cylinder part 200 through which the paint is discharged from the first cylinder part 100 to the regulator part 400.

The second cylinder part 200 may include a second cylinder part 200 for sucking the liquid filled in the liquid reservoir 10 so that the second cylinder part 200 sucks or discharges the paint of the liquid reservoir 10. [ A second cylinder 210 having a first inlet 212 and a second outlet 214 for discharging the sucked liquid and a second rod 220 reciprocating inside and outside the second cylinder 210, ).

The second suction port 212 sucks the paint filled in the liquid reservoir 10 to be introduced into the second cylinder 210.

The second discharge port 214 serves as a passage through which the paint introduced into the second cylinder 210 is discharged to the regulator unit 400 by the pressure of the second rod 120 .

The operation guiding part 300 is connected to the first cylinder part 100 and the second cylinder part 200 at the same time so that the second guiding part 300 can move in the second cylinder part 100, The second cylinder 200 is connected to the body 50 while being discharged or sucked in the opposite direction to the first cylinder 200.

The operation guide unit 300 may include an alternating pressurizing unit that is in close contact with the first rod 120 and the second rod 220 to press the first rod 120 and the second rod 220 alternately, (Not shown).

The operation inducing unit 300 is fixedly connected to the alternating pressure bar 310 to alternately pressurize the first rod 120 and the second rod 220 while the alternating pressure bar 310 reciprocates And an operation cylinder 320 having an operation rod 320 operated to be operated.

The alternating pressure pad 310 is in contact with the first rod 120 and the second rod 220 at the same time and reciprocates while interlocking with the reciprocating motion rod 320 in the actuating cylinder 330 So that the first rod 120 and the second rod 220 can reciprocate in the first cylinder 110 and the second cylinder 210.

When the first rod 120 and the second rod 220 reciprocate in the first cylinder 110 and the second cylinder 210, the first cylinder 110 and the second cylinder 210 are reciprocated The paint filled in the liquid reservoir 10 is sucked into the first cylinder 110 and the second cylinder 210 through the first suction port 112 and the second suction port 212 while alternating with the parallax .

The paint sucked into the first cylinder 110 and the second cylinder 210 is discharged to the first discharge port 114 by the reciprocating motion of the first rod 120 and the second rod 220, And the second discharge port 214 to the regulator unit 400.

The alternating pressure pad 310 is disposed between the first cylinder part 100 and the second cylinder part 200 in the longitudinal direction of the first cylinder part 100 and the second cylinder part 200, And a flow rod 312 disposed to pass through the body 50.

The alternating pressure pad 310 is formed to extend in the horizontal direction at the tip of the flow rod 312 and is disposed in close contact with the first rod 120, And an upper platen 314 that presses the rod 120.

In addition, the alternating pressure pad 310 is formed to extend horizontally at the distal end of the flow rod 312 and is disposed in close contact with the second rod 220. By the operation of the operation rod 320, And a lower pressure plate 316 that presses the rod 220.

That is, the upper pressure plate 314 is fixedly connected to the first rod 120 to press the first rod 120 when the operation rod 320 is exposed in the operation cylinder 330, So that the first cylinder 120 enters the first cylinder 110.

At this time, the lower pressure plate 316 is fixedly connected to the second rod 220 so that the second rod 220 is exposed to the outside of the second cylinder 210.

The lower pressure plate 316 is fixedly connected to the second rod 220 so that when the operation rod 320 enters the inside of the operation cylinder 330, So that the rod 220 enters the interior of the second cylinder 210.

At this time, the upper pressure plate 314 exposes the first rod 120 to the outside of the first cylinder 110.

As a result, the alternating pressure pad 310 is interlocked and moved by the reciprocating motion of the operating rod 320 of the operating cylinder 330.

The first rod 120 and the second rod 220 are coupled to the alternating pressurizing belt 310 to rotate the first cylinder 110 and the second cylinder 220 210).

In addition, when the first rod 120 and the second rod 220 reciprocate on the first cylinder 110 and the second cylinder 210, the first and second cylinders 110 and 110 are separated from the liquid reservoir 10, 210, and then the coating material is alternately supplied to the regulator unit 400. In this case,

Particularly, the first cylinder part 100, the second cylinder part 200 disposed in a direction opposite to the first cylinder part 100, and the second cylinder part 200 corresponding to the first cylinder part 100, The operation guide unit 300 may be vertically or horizontally arranged to allow the discharging operation and the suction operation to be alternately performed.

In addition, the operation inducing unit 300 is disposed between the first and second cylinder units 100 and 200 so that the first and second cylinder units 100 and 200 are operated by a single operation of the operation inducing unit 300, The arrangement of the first and second cylinder parts 100 and 200 and the operation inducing part 300 may be variously formed according to the needs of the user if the first and second cylinder parts 100 and 200 can sequentially suck or discharge the paint have.

The regulator unit 400 controls the pressure and the amount of the paint discharged from the first cylinder unit 100 and the second cylinder unit 200 to uniformly spray the paint onto the object to be sprayed. .

To this end, the regulator unit 400 includes a spray tube 410 for collecting the paint discharged from the first cylinder part 100 and the second cylinder part 200 into a single tube so as to be sprayed onto the object to be sprayed, . ≪ / RTI >

The regulator unit 400 includes a valve 420 connected to the injection pipe 410 and controlling the amount of paint discharged from the first cylinder unit 100 and the second cylinder unit 200 .

The regulator unit 400 is connected to the injection pipe 410 at a position adjacent to the valve 420 to regulate the pressure of the paint discharged from the first cylinder unit 100 and the second cylinder unit 200 And a regulator 430 for controlling the constant current to be maintained constant.

Here, the spray pipe 410 plays a role of allowing the paint sequentially alternately discharged from the first cylinder part 100 and the second cylinder part 200 to flow through one pipe .

The valve 420 is connected to the injection pipe 410 and controls the amount of the paint when the paint supplied to the injection pipe 410 is injected into the injection target.

In addition, the regulator 430 is connected to the spraying pipe 410 so that the paint supplied from the first cylinder part 100 and the second cylinder part 200 can be sprayed onto the spraying target with a constant pressure, To control the pressure of the fluid.

As a result, when suction and discharge are performed by one cylinder, the quantity and pressure to be discharged during the suction time can be changed. The first cylinder part 100 and the second cylinder part 200 are connected to the operation inducing part 300, the suction and discharge can be maintained constantly, and even more uniform amount and pressure can be maintained through the regulator part 400, so that the paint can be evenly sprayed onto the object to be sprayed do.

Meanwhile, the injection direction controller 500 is connected to the body 50 so that the body 50 can be reciprocally rotated in both directions, and the injection direction of the liquid sprayed from the regulator unit 400 can be adjusted .

The first and second cylinder units 100 and 200 are fixedly disposed on the body 50 and the operation guide unit 300 is partially disposed through the body 50, The two cylinder portions 100 and 200 operate to suck or discharge the paint alternately.

Since the regulator unit 400 is connected to the first and second cylinder units 100 and 200 when the body 50 is rotated through the injection direction controller 500, The two cylinders 100 and 200, the operation inducing unit 300, and the regulator unit 400 are also interlocked.

As the injection direction controller 500 is rotated, the injection direction of the liquid sprayed from the regulator part 400 can be variously changed according to the shape and position of the injection object.

The injection direction controller 500 includes a rotation shaft 510 connected to the body 50 to allow the body 50 to rotate in both directions and a rotation shaft 510 connected to the rotation shaft 510, (Not shown).

In addition, the injection direction controller 500 may include an operation plate 530 connected to the rotation motor 520 to control the operation of the rotation motor 520.

Here, the rotation shaft 510 serves to rotate the body 50 in an interlocked manner through the power provided from the rotation motor 520.

The rotation motor 520 serves to provide power to the rotation shaft 510 so that the rotation shaft 510 can be rotated in both directions.

The operation plate 530 includes a plurality of switches (not shown) capable of operating the power source so that the rotation motor 520 can generate power and setting the rotation direction so that the rotation axis 510 can be rotated in one direction or in the opposite direction 532).

The operation plate 530 may include a display window 534 indicating the injection amount of the liquid or paint sprayed onto the object to be sprayed by the regulator unit 400 and the spraying direction.

With this configuration, the quality of the painting operation can be improved and the working efficiency can be improved.

3A and 3B are views showing the use state of the hydraulic liquid spray device capable of changing the injection direction according to the present invention.

Referring to FIGS. 1 and 2, in FIGS. 3A and 3B, the first cylinder part 100 and the second cylinder part 200 are repeatedly sucked and discharged through the operation inducing part 300 And an operating state in which the amount and pressure of the paint can be maintained constant through the regulator unit 400. [

The hydraulic liquid spraying apparatus according to the present invention includes a first cylinder part 100 capable of sucking or discharging a liquid and a second cylinder part 100 disposed opposite to the first cylinder part 100 200, 200, 200, 200, 200, 200, 200, 200, 200, 200, and 200, respectively, for performing a discharge operation and a suction operation alternately, And a regulator unit (400).

The first cylinder part 100 includes a first suction port 112 for sucking the liquid filled in the liquid reservoir 10 and a first discharge port 114 for discharging the sucked liquid, And a first rod 120 reciprocating in and out of the first cylinder 110. The first cylinder 110 may include a first rod 110,

The second cylinder part 200 is arranged to be opposed to the first cylinder part 110 so that the first discharge port 114 discharges the liquid filled in the liquid reservoir 10 A second cylinder 210 having a second suction port 212 for suction and a second discharge port 214 for discharging sucked liquid and a second cylinder 210 having a second discharge port 214 for reciprocating the inside and the outside of the second cylinder 210, And may include a load 220.

The operation inducing unit 300 is connected to the first cylinder unit 100 and the second cylinder unit 200 at the same time and is connected to the second cylinder unit 100 according to the suction or discharge operation of the liquid in the first cylinder unit 100. [ 200 are connected to the body 50 while being operated to be discharged or suctioned opposite to the operation of the first cylinder 200.

The operation guide unit 300 may include an alternating pressurizing unit that is in close contact with the first rod 120 and the second rod 220 to press the first rod 120 and the second rod 220 alternately, (Not shown).

The operation inducing unit 300 is fixedly connected to the alternating pressure bar 310 to alternately pressurize the first rod 120 and the second rod 220 while the alternating pressure bar 310 reciprocates And an operation cylinder 320 having an operation rod 320 operated to be operated.

The alternating pressure pad 310 is in contact with the first rod 120 and the second rod 220 at the same time and reciprocates while interlocking with the reciprocating motion rod 320 in the actuating cylinder 330 So that the first rod 120 and the second rod 220 can reciprocate in the first cylinder 110 and the second cylinder 210.

The alternating pressure pad 310 is disposed between the first cylinder part 100 and the second cylinder part 200 in the longitudinal direction of the first cylinder part 100 and the second cylinder part 200, And a flow rod 312 disposed through the body 50.

The alternating pressure pad 310 is formed to extend in the horizontal direction at the tip of the flow rod 312 and is disposed in close contact with the first rod 120, And an upper platen 314 that presses the rod 120.

In addition, the alternating pressure pad 310 is formed to extend horizontally at the distal end of the flow rod 312 and is disposed in close contact with the second rod 220. By the operation of the operation rod 320, And a lower pressure plate 316 that presses the rod 220.

Here, the operation of the first cylinder part 100, the second cylinder part 200, and the regulator part 400 according to the operation of the operation inducing part 300 will be described.

First, the operation rod 320 of the operation guide unit 300 reciprocates in the operation cylinder 330 while the liquid reservoir 10 is filled with paint.

The operation cylinder 330 of the operation induction unit 300 can be fixed by the body 50 and the operation rod 320 reciprocates from the inside to the outside of the operation cylinder 330 in this state.

As the operating rod 320 reciprocates in the up-and-down direction in the operation cylinder 330, the first cylinder part 100 and the second cylinder part 200 alternate between the suction and the discharge, And the paint is supplied to the regulator unit 400 at a predetermined amount and pressure, so that the paint can be sprayed onto the object to be sprayed.

The regulator unit 400 includes a spray tube 410 that collects the paint discharged from the first cylinder part 100 and the second cylinder part 200 into a single tube so as to be sprayed onto the object to be sprayed .

The regulator unit 400 includes a valve 420 connected to the injection pipe 410 and controlling the amount of paint discharged from the first cylinder unit 100 and the second cylinder unit 200 .

The regulator unit 400 is connected to the injection pipe 410 at a position adjacent to the valve 420 to regulate the pressure of the paint discharged from the first cylinder unit 100 and the second cylinder unit 200 And a regulator 430 for controlling the constant current to be maintained constant.

The regulator unit 400 may include an injection nozzle 440 connected to the injection pipe 410 to adjust the injection range so that liquid is dispersed or injected into the injection object.

3A, when the operation rod 320 is moved up and down while entering the operation cylinder 330, the alternating pressure pad 310 interlocked with the operation rod 320 is lifted and lowered on the body 50, The upper pressure plate 314 is lifted and lowered while the upper pressure plate 314 is lifted and lowered so that the first rod 120 is lifted from the first cylinder 110 and exposed to the outside.

When the first rod 120 is exposed to the outside of the first cylinder 110, the first rod 120 is connected to the liquid reservoir 10 through the first inlet 112 of the first cylinder 110, The coating material of the first cylinder 110 flows into the inside of the first cylinder 110.

At the same time, the lower pressure plate 316 is also moved up and down together with the flow rod 112, so that the second rod 220 enters the second cylinder 210.

When the second rod 220 enters the second cylinder 210, the paint which has flowed into the second cylinder 210 from the liquid reservoir 10 flows into the second cylinder 210, 2 through the discharge port 214.

The paint discharged through the second discharge port 214 flows into the spray pipe 410 of the regulator unit 400 and is sprayed onto the spray target under the control of the valve 420 and the regulator 430. Then, And sprayed through the injection nozzle 440 while controlling the amount and pressure of the paint.

In contrast, when the operation rod 320 is lowered while being exposed to the outside from the inside of the operation cylinder 330 as in 3B, the alternate pressure pad 310 interlocked with the operation rod 320 is pressed against the body 50 The first plunger 314 is lowered while the upper plunger 314 is lowered so that the first rod 120 is lowered from the first cylinder 110 so that the first rod 120 is moved downward, And enters the inside of the housing 110.

When the first rod 120 enters the first cylinder 110, the paint supplied from the liquid reservoir 10 and flowing into the first cylinder 110 flows through the first discharge port 114 The amount and the pressure of the paint sprayed on the object to be sprayed are controlled by the control of the valve 420 and the regulator 430 after being discharged to the outside of the first cylinder 110 and flowing to the spray pipe 410.

At the same time, the lower pressure plate 316 is also lowered together with the flow rod 112, so that the second rod 220 is exposed to the outside from the inside of the second cylinder 210.

When the second rod 220 is exposed to the outside from the inside of the second cylinder 210, the second cylinder 210 passes the paint filled in the liquid reservoir 10 through the second inlet 212 So that it can be introduced into the second cylinder 210.

As a result, as the operating rod 320 reciprocates in the operating cylinder 330, the alternating pressure pad 310 interlocks and reciprocates vertically, and the first and second cylinder portions 100, So that the paint can be sprayed to the object to be sprayed through the spray nozzle 440 of the regulator part 400 while being interlocked with the spray nozzle 200 (also the alternating pressurizing belt 310).

That is, when the first rod 120 ascends and descends from the first cylinder 110, the first cylinder part 100 sucks the paint filled in the liquid storage part 10 through the first suction port 112, Thereby allowing the drawn paint to flow into the first cylinder 110.

At the same time, the second cylinder 200 discharges the paint that has flowed into the second cylinder 210 through the second discharge port 214.

In other words, when the first cylinder part 100 sucks the paint of the liquid reservoir 10, the second cylinder part 200 discharges the paint, and when the first cylinder part 100 discharges the paint , The second cylinder part 200 sucks the paint of the liquid reservoir 10 so that the suction operation and the discharge operation are alternately performed in the first cylinder part 100 and the second cylinder part 200, The discharge is continuously maintained.

Lastly, the first suction port 112 and the second suction port 212 are configured such that the liquid sucked from the liquid storage tank 10 is prevented from being discharged through the first suction port 112 and the second suction port 212 A suction check valve 180 may be provided.

The first discharge port 114 and the second discharge port 214 are provided with a discharge check valve 190 for blocking the liquid discharged to the discharge object from flowing into the first discharge port 114 and the second discharge port 214 May be provided.

Here, the suction check valve 180 may be configured such that the paint flowing into the first cylinder 110 and the second cylinder 210 from the liquid reservoir 10 passes through the first suction port 112 and the second suction port 212 To prevent backflow from being discharged.

In addition, the discharge check valve 190 may be disposed between the first discharge port 114 and the second discharge port (not shown) so that the paint inside the first cylinder 110 and the second cylinder 210 may be moved to the regulator part 400. [ 214 of the first cylinder 110 and the second cylinder 210 to prevent the paint discharged from the discharge to the first cylinder 110 and the second cylinder 210 again.

4 is a view showing another embodiment of a hydraulic liquid ejection apparatus capable of changing the ejecting direction according to the present invention.

4, the hydraulic liquid spraying apparatus according to the present invention includes a first cylinder part 100 capable of sucking or discharging a liquid, a second cylinder part 100 A second cylinder part 200 disposed opposite to the first cylinder part 100 in a reverse direction to the first and second cylinder parts 100 and 200 and the operation guide part 300 connected to the first and second cylinder parts 100 and 200 to perform a discharging operation and a suction operation alternately, .

The alternating pressure pad 310 of the operation guiding part 300 is disposed between the first cylinder part 100 and the second cylinder part 200 in the longitudinal direction of the first cylinder part 100 and the second cylinder part 200, And a flow rod 312 disposed to pass through the body 50,

The alternating pressure pad 310 is formed to extend in the horizontal direction at the tip of the flow rod 312 and is disposed in close contact with the first rod 120, And an upper platen 314 that presses the rod 120.

In addition, the alternating pressure pad 310 is formed to extend horizontally at the distal end of the flow rod 312 and is disposed in close contact with the second rod 220. By the operation of the operation rod 320, And a lower pressure plate 316 that presses the rod 220.

The upper and lower pressure plates 314 and 316 are formed in a rod shape and are formed in a plurality of directions in the direction of the arrows and the flow bars 312 are formed by the upper pressure plate 314 and the lower pressure plate 316, (50).

That is, when a plurality of the upper and lower pressure plates 314 and 316 are formed, the first cylinder part 100 and the second cylinder part 200 are connected to the upper and lower pressure plates 314 and 316 So that the amount by which the paint in the liquid storage part 10 is sucked and discharged can be adjusted according to the user's need.

In addition, since a large amount of paint can be sucked and discharged through a plurality of the first cylinder part 100 and the second cylinder part 200 at one time, it can be used smoothly for large-scale coating work, So that the paint can be sprayed onto the object to be sprayed while maintaining a constant amount.

5 is a view showing another embodiment of a hydraulic liquid ejection apparatus capable of changing the ejecting direction according to the present invention.

Referring to FIGS. 1 and 2, as described above, the regulator part 400 includes a first cylinder part 100 and a second cylinder part 200, And a jetting tube 410 that collects the jetted object into a single tube so as to be jetted onto the jetted object.

The regulator unit 400 includes a valve 420 connected to the injection pipe 410 and controlling the amount of liquid discharged from the first cylinder part 100 and the second cylinder part 200, A regulator which is connected to the injection pipe 410 at a position adjacent to the valve 420 and controls the pressure of the liquid discharged from the first cylinder part 100 and the second cylinder part 200 to be constant, 430).

The regulator unit 400 may include an injection nozzle 440 connected to the injection pipe 410 to adjust the injection range so that liquid is dispersed or injected into the injection object.

The regulator unit 400 further includes a corrugated pipe 450 formed between the injection pipe 410 and the injection nozzle 440 and capable of changing the direction of the injection nozzle 440 in the four directions can do.

The bellows pipe 450 is made of a metal or a solid synthetic resin, and is compressed and expanded. The bellows pipe 450 has a straight tube shape or a curved tube shape. The bellows tube 450 has a shape of a straight line or a curved line. It will play a role of transformation.

That is, when the position of the object to be sprayed is higher than the position of the spray nozzle 440, a curved surface is formed upward in the sprinkle tube 450, and the position of the spray object is located at a position lower than the position of the spray nozzle 440 The corrugated tube 450 may be formed with a curved surface in a downward direction so that the liquid or paint can be smoothly injected to the object to be injected.

The liquid or paint supplied to the injection tube 410 by the operation of the first cylinder part 100 and the second cylinder part 200 passes through the inside of the bellows pipe 450 and flows into the injection nozzle 440 To be sprayed onto the object to be sprayed.

At this time, since the bellows pipe 450 can form a curved surface in various directions through compression and expansion, the direction in which the injection nozzle 440 injects the liquid or the paint can be easily changed.

The corrugated tube 450 is expanded or contracted by the pressure of the user to form a curved surface and the arrangement direction of the corrugated tube 450 is changed by the pressure of the liquid or paint flowing in the discharge tube 410 It is preferable to be made of a solid metal or a synthetic resin.

Through such a configuration, the hydraulic liquid spray device capable of changing the spraying direction according to the present invention can be sprayed uniformly on the object to be sprayed by the coating device, It is possible to obtain a technical effect that makes it possible.

In addition, it is possible to easily change the injection direction of the liquid or the paint on the object to be sprayed and to inject the liquid or the paint smoothly regardless of the position of the object to be sprayed, .

Further, it is possible to obtain an economical effect of reducing the maintenance cost by preventing the peripheral parts from being damaged by maintaining the constant pressure of the cylinder in the hydraulic painting apparatus.

In addition, the failure of the hydraulic paint system can be minimized, so that the coating operation can be smoothly performed, and a technical effect for improving the work efficiency can be obtained.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is to be understood that the invention may be embodied in many other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

10: liquid reservoir 50: body
100: first cylinder part 110: first cylinder
112: first suction port 114: first discharge port
120: first rod 180: suction check valve
190: Discharge check valve
200: second cylinder part 210: second cylinder
212: second suction port 214: second discharge port
220: second load
300: operation inducing unit 310: alternating pressurizing unit
312: flow rod 314: upper platen
316: Lower pressure plate
320: operating rod 330: working cylinder
400: regulator part 410:
420: valve 430: regulator
440: injection nozzle 450: corrugated tube
500: injection direction control unit 510:
520: rotation motor 530: operation plate
532: Switch 534: Display window

Claims (9)

A first cylinder part 100 connected to the liquid reservoir 10 for storing liquid and fixed to the body 50 to suck the liquid filled in the liquid reservoir 10 and discharge the liquid to the object to be injected;
The first cylinder part 100 is fixed to the body 50 so that the first cylinder part 100 sucks the liquid from the liquid storage tank 10, A second cylinder part (200) for discharging the liquid to the object to be injected when the first cylinder part (100) sucks the liquid;
The second cylinder part 200 is connected to the first cylinder part 100 and the second cylinder part 200 so that the second cylinder part 200 is connected to the first cylinder part 100 according to the suction or discharge operation of the first cylinder part 100. [ The operation guide 300 connected to the body 50 while being operated to discharge or suction the body 200 in opposition to the operation of the body 200;
A regulator part 400 for controlling the pressure and the amount of the liquid discharged from the first cylinder part 100 and the second cylinder part 200 so that the liquid is uniformly injected to the object to be injected; And
And a spray direction controller (500) connected to the body (50) and capable of reciprocatingly rotating the body (50) in both directions while controlling the spray direction of the liquid sprayed from the regulator part (400) This changeable hydraulic liquid injection device.
The method according to claim 1,
The first cylinder part (100)
A first cylinder 110 having a first suction port 112 for sucking the liquid filled in the liquid reservoir 10 and a first discharge port 114 for discharging sucked liquid; And a first rod (120) reciprocating inside and outside,
The second cylinder part 200 includes:
A second suction port 212 for sucking the liquid filled in the liquid reservoir 10 when the first discharge port 114 is arranged to be opposed to the first cylinder 110, A second cylinder 210 having a second discharge port 214 for discharging liquid and a second rod 220 reciprocating inside and outside the second cylinder 210,
The operation inducing unit (300)
An alternating pressure pad 310 which is simultaneously in contact with the first rod 120 and the second rod 220 to alternately pressurize the first rod 120 and the second rod 220,
An operation rod 320 fixed to the alternating pressure bar 310 and operated to alternately pressurize the first rod 120 and the second rod 220 while the alternating pressure bar 310 reciprocates And the injection direction including the operation cylinder (330) is changeable.
3. The method of claim 2,
The alternating pressure pad (310)
The first cylinder part 100 and the second cylinder part 200 are disposed in the longitudinal direction of the first cylinder part 100 and the second cylinder part 200 while passing through the body 50 between the first cylinder part 100 and the second cylinder part 200 A flow rod 312,
An upper pressure plate 314 which is horizontally extended at the tip of the flow rod 312 and is disposed in close contact with the first rod 120 to press the first rod 120 by the operation of the operation rod 320, )and,
A lower pressing plate 316 which extends horizontally at the distal end of the flow rod 312 and is disposed in close contact with the second rod 220 to press the second rod 220 by the operation of the operating rod 320, Wherein the injecting direction is changeable.
The method of claim 3,
The upper pressure plate 314 and the lower pressure plate 316,
A plurality of bars are formed in the direction of the bars,
The flow rod (312)
And is separated from the body (50) by the upper pressure plate (314) and the lower pressure plate (316).
3. The method of claim 2,
In the first suction port 112 and the second suction port 212,
A suction check valve 180 is provided to block the liquid sucked from the liquid storage tank 10 from being discharged through the first suction port 112 and the second suction port 212,
In the first discharge port (114) and the second discharge port (214)
And a discharge check valve (190) for blocking the liquid discharged to the discharge target from flowing into the first discharge port (114) and the second discharge port (214).
The method according to claim 1,
The regulator unit 400 includes:
A spray tube 410 for collecting the liquid discharged from the first cylinder part 100 and the second cylinder part 200 into a single tube so as to be sprayed onto the object to be sprayed,
A valve 420 connected to the injection pipe 410 to adjust the amount of liquid discharged from the first cylinder part 100 and the second cylinder part 200,
A regulator 430 connected to the injection pipe 410 at a position adjacent to the valve 420 to control the pressure of the liquid discharged from the first cylinder 100 and the second cylinder 200 to be constant, Wherein the injection direction is changeable.
The method according to claim 6,
The regulator unit 400 includes:
And an injection nozzle (440) connected to the injection pipe (410) and adapted to adjust the injection range so that liquid is diffused or shrink-jetted to the object to be injected.
The method according to claim 1,
The injection direction control unit (500)
A rotating shaft 510 connected to the body 50 to rotate the body 50 in both directions,
A rotary motor 520 connected to the rotary shaft 510 to provide power to the rotary shaft 510,
And an operation plate (530) connected to the rotation motor (520) and controlling the operation of the rotation motor (520).
8. The method of claim 7,
The regulator unit 400 includes:
And a bellows pipe (450) formed between the injection pipe (410) and the injection nozzle (440) and capable of changing the direction of the injection nozzle (440) in four directions. The hydraulic liquid injection device .

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