KR102265626B1 - Sand spray test apparatus - Google Patents

Abstract

The present invention relates to a sand spray testing apparatus. The sand spray testing apparatus according to an embodiment of the present invention comprises: a body having a test space inside; a nozzle positioned in the test space; and a stirring tank located on an upper portion of the body, connected to the nozzle by a test fluid supply pipe, and supplying a test fluid in a mixed state of water and sand to the nozzle.

Description

Sand spray test apparatus

The present invention relates to a sand spray test apparatus, and more particularly, to a sand spray test apparatus capable of performing the test by effectively mixing sand and water and then spraying the test.

In the case of automobiles, countless parts are combined to produce. In particular, for exterior parts of automobiles, waterproof performance, degree of wear against friction, and paint state are important characteristics. Therefore, in the case of such an automobile part, the above characteristics must satisfy the required performance, and a test is required to confirm it.

In order to check whether the required performance is satisfied, a test fluid mixed with water and sand is sprayed onto automobile parts to perform a test. At this time, for an effective test, it is required that sand and water are mixed in the desired ratio and effectively, and when the amount of sand is large or small, or when the ratio of sand and water changes with a large deviation over time No effective testing is performed.

An object of the present invention is to provide a sand spray test apparatus capable of performing a test by effectively mixing sand and water and then spraying it.

In addition, the present invention is to provide a sand spray test apparatus that agitates sand and water through a gas.

According to an aspect of the present invention, a body having a test space on the inside; a nozzle positioned in the test space; and a stirred tank located above the body, connected to the nozzle by a test fluid supply pipe, and supplying a test fluid in a mixed state of water and sand to the nozzle. have.

In addition, the agitation tank may have a gas supply hole for supplying a gas to a space for mixing water and sand.

In addition, the gas supply hole may include a bottom gas supply hole formed in a bottom surface of the stirred tank; And it may include a side gas supply hole formed on the side of the lower end of the stirring tank.

In addition, the bottom gas supply hole may include a first bottom gas supply hole, a second bottom gas supply hole, a third bottom gas supply hole, and a fourth bottom gas supply hole, which are sequentially positioned along the circumferential direction with respect to the center of the bottom surface of the stirred tank. It may include a supply hole.

In addition, the side gas supply hole may be provided to inject gas in a direction crossing the radial direction with respect to the center on the horizontal plane of the stirred tank.

According to an embodiment of the present invention, a sand spray test apparatus capable of performing a test by effectively mixing sand and water and then spraying may be provided.

In addition, according to an embodiment of the present invention, a sand spray test apparatus for stirring sand and water through a gas may be provided.

1 is a view showing a sand spray test apparatus according to an embodiment of the present invention.
2 is a view showing a nozzle positioned in a test space of the body.
3 is a longitudinal sectional view of the stirred tank.
4 is a cross-sectional view of the lower part of the stirred tank;
5 is a view showing the connection relationship of the stirred tank.

Hereinafter, an embodiment of the present invention will be described in more detail with reference to the accompanying drawings. Embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the following embodiments. This embodiment is provided to more completely explain the present invention to those of ordinary skill in the art. Accordingly, the shapes of elements in the drawings are exaggerated to emphasize a clearer description.

1 is a view showing a sand spray testing apparatus according to an embodiment of the present invention, and FIG. 2 is a view showing a nozzle positioned in a test space of a body.

Referring to FIG. 1 , the sand spray testing apparatus 1 includes a body 10 , a stirred tank 20 and a gas supply source 30 .

The sand spray test apparatus 1 performs a test by spraying a test fluid in a state in which water and sand are agitated to an object. As an example, the object is provided as a part of a vehicle, and the sand spray test apparatus 1 sprays a test fluid on the object to test the waterproof state between one surface and the other surface of the object, the paint state of the outer surface of the object, strength, etc. have.

The body 10 has a set volume and is provided with a test space 11 therein. A door 100 may be provided on one side of the body 10 to open and close the test space 11 . A nozzle 110 is provided in the upper portion of the test space 11 to spray the test fluid. A rail 115 is provided in the test space 11 , and the nozzle 110 is positioned on the rail 115 , so that the nozzle 110 is moved on the rail 115 , or the rail 115 and the rail 115 are connected to each other. It is relatively moved so that the position of the nozzle 110 on the horizontal plane is variable.

A drain pipe 120 may be connected to a lower portion of the test space 11 . The drain pipe 120 may be opened and closed by a drain valve.

3 is a longitudinal cross-sectional view of the stirred tank, FIG. 4 is a cross-sectional view of the lower portion of the stirred tank, and FIG. 5 is a view showing the connection relationship of the stirred tank.

3 to 5, the stirred tank 20 is provided to have a space of a set volume inside.

The stirred tank 20 is located on the upper portion of the body 10 , is connected to the nozzle 110 by a test fluid supply pipe 400 , and supplies the test fluid to the nozzle 110 . At the center of the bottom surface of the stirred tank 20 , the test fluid is discharged, and the outlet 205 connected to the nozzle 110 by the test fluid supply pipe 400 is located. A process valve 401 for opening and closing is positioned in the test fluid supply pipe 400 .

A water level check unit 201 is provided on the side of the stirred tank 20 . The water level check unit 201 may be provided such that it branches and protrudes from the side of the stirred tank 20, and the end thereof is blocked with a transparent or translucent material. Accordingly, it may be checked whether the water level check unit 201 is filled with water. The water level check unit 201 includes an upper water level check unit 201a and a lower water level check unit 201b. The upper part confirmation part is located above the center of the height direction of the stirring tank 20 . The lower water level check unit 201b is located below the height direction center of the stirred tank 20 .

Gas supply holes 210a, 201b, 210c, 210d, 220a, 220b, 220c, and 220d are formed in the stirred tank 20 . The gas supply holes 210a, 201b, 210c, 210d, 220a, 220b, 220c, and 220d are connected to the gas supply 30 . The gas supply 30 may be provided to be fixed to one side of the body 10 . For example, the gas supply 30 may be fixed to the upper surface of the body 10 .

The gas supply holes 210a, 201b, 210c, 210d, 220a, 220b, 220c, and 220d supply high-pressure gas to agitate the water and sand in the stirring tank 20 . The gas supply holes 210a, 201b, 210c, 210d, 220a, 220b, 220c, and 220d include bottom gas supply holes 210a, 201b, 210c, and 210d and side gas supply holes 220a, 220b, 220c, and 220d. do.

The bottom gas supply holes 210a , 201b , 210c , and 210d are formed in the bottom surface of the stirred tank 20 . A plurality of bottom gas supply holes 210a, 201b, 210c, and 210d are formed along the circumferential direction with respect to the center of the bottom of the stirred tank 20 . The bottom gas supply holes 210a, 201b, 210c, and 210d include a first bottom gas supply hole 210a, a second bottom gas supply hole 201b, a third bottom gas supply hole 210c, and a fourth bottom gas supply hole. (210d). The first bottom gas supply hole 210a , the second bottom gas supply hole 201b , the third bottom gas supply hole 210c , and the fourth bottom gas supply hole 210d are circumferential with respect to the center of the stirred tank 20 . They are positioned sequentially along the direction. The first bottom gas supply hole 210a, the second bottom gas supply hole 201b, the third bottom gas supply hole 210c, and the fourth bottom gas supply hole 210d are located in regions having a central angle of 90 or less, respectively. do.

The side gas supply holes 220a , 220b , 220c , 220d are formed in the lower end side of the stirred tank 20 . A plurality of side gas supply holes 220a, 220b, 220c, and 220d are formed along the circumferential direction of the stirred tank 20 . The side gas supply holes 220a , 220b , 220c , and 220d are provided to inject gas in a direction crossing the radial direction with respect to the center on the horizontal plane of the stirred tank 20 . For example, the side gas supply holes 220a , 220b , 220c , and 220d are provided to inject gas in a direction crossing 90 with respect to a radial direction. The side gas supply holes 220a, 220b, 220c, and 220d include a first side gas supply hole 220a, a second side gas supply hole 220b, a third side gas supply hole 220c, and a fourth side gas supply hole. (220d). The first side gas supply hole 220a , the second side gas supply hole 220b , the third side gas supply hole 220c , and the fourth side gas supply hole 220d are formed at 90 angles along the gas injection direction. separated by the central angle. As an example, in FIG. 2 , when viewed from the top to the bottom, gas is injected clockwise from the side gas supply holes 220a, 220b, 220c, and 220d, and the first side gas supply hole 220a, the second side The gas supply hole 220b, the third side gas supply hole 220c, and the fourth side gas supply hole 220d are sequentially arranged in a clockwise direction.

The first side gas supply hole 220a is located outside the second bottom gas supply hole 201b. The second side gas supply hole 220b is located outside the third bottom gas supply hole 210c. The third side gas supply hole 220c is positioned outside the fourth bottom gas supply hole 210d. The fourth side gas supply hole 220d is located outside the first bottom gas supply hole 210a.

The first side gas supply hole 220a and the first bottom gas supply hole 210a are connected to the gas supply 30 through the first gas supply pipe 410a. A first gas valve 415a is positioned in the first gas supply pipe 410a.

The second side gas supply hole 220b and the second bottom gas supply hole 201b are connected to the gas supply 30 through the second gas supply pipe 410b. A second gas valve 415b is positioned in the second gas supply pipe 410b.

The third side gas supply hole 220c and the third bottom gas supply hole 210c are connected to the gas supply 30 through the third gas supply pipe 410c. A third gas valve 415c is positioned in the third gas supply pipe 410c.

The fourth side gas supply hole 220d and the fourth bottom gas supply hole 210d are connected to the gas supply 30 through the fourth gas supply pipe 410d. A fourth gas valve 415d is positioned in the fourth gas supply pipe 410d.

The top of the stirred tank 20 is shielded by a cover 25 .

The upper end of the stirring tank 20 is connected to the sand input module 50 . For example, the sand input module 50 may be connected to the cover 25 . The sand input module 50 may be provided in a piping structure to be connected to a sand input hole (not shown) formed in the cover 25 . The upper end of the sand input module 50 may be provided in a funnel structure. The sand input module 50 is provided with a sand input valve for opening and closing the sand supply path.

A pressure hole (not shown) may be formed in the cover 25 to be connected to the gas supply source 30 through the pressure pipe 420 . A pressure control valve 425 may be provided in the pressure pipe 420 .

A water supply hole (not shown) is formed in the cover 25 , and may be connected to the water supply source 60 through a water supply pipe (not shown). A water supply valve (not shown) may be positioned in the water supply pipe to be opened and closed. The water source 60 may be provided on one side of the body 10 so that the amount of water to be input into the stirred tank 20 can be metered. For example, the water source 60 may be provided in a container structure capable of accommodating a set amount of water, and may be provided on the upper surface of the body 10 .

Hereinafter, a process in which the sand spray test apparatus 1 is controlled and operated by a controller (not shown) will be described. First, the water supply valve and the sand input valve are opened, and sand and water are introduced into the stirring tank 20 . Thereafter, gas is supplied to the gas supply holes 210a, 201b, 210c, 210d, 220a, 220b, 220c, and 220d by the gas supply 30 by the controller, and a rapid flow of water and sand is generated by the gas. Water and sand are mixed. For example, the controller alternately opens one of the first gas valve 415a , the second gas valve 415b , the third gas valve 415c , and the fourth gas valve 415d while the others are closed. gas supply can be achieved. Accordingly, by the gas supplied from one of the side gas supply holes 220a , 220b , 220c , and 220d (eg, the first side gas supply hole 220a ), gas is supplied to the inside of the stirred tank 20 . A flow that rotates in the direction occurs. At this time, one of the side gas supply holes (220a, 220b, 220c, 220d) and one of the bottom gas supply holes (210a, 201b, 210c, 210d) to which the gas is supplied is a rotating flow inside the stirred tank (20) At the rear end of the , gas is supplied to the bottom surface of the stirred tank 20 in an upward direction to generate a flow in the vertical direction. That is, the first bottom gas supply hole 210a to which gas is supplied together with the first side gas supply hole 220a is connected to the first side gas supply hole 220a and the first side gas supply hole 220a in the opposite direction to the rotating flow in the stirred tank 20 . Located adjacent to each other, the gas supplied by the first bottom gas supply hole 210a forms a vertical flow at the rear end of the rotating flow by the gas supplied by the first side gas supply hole 220a. Accordingly, the gas supplied from the first side gas supply hole 220a and the first bottom gas supply hole 210a generates a rotating flow while vibrating in the vertical direction inside the stirred tank 20 . Then, the valves opened among the first gas valves 415a to 415d are changed so that the region to which the gas is supplied moves along the flow direction in the stirred tank 20 . That is, the valves opened in the order of the first gas valve 415a , the second gas valve 415b , the third gas valve 415c , and the fourth gas valve 415d are changed. Accordingly, a flow that is rotated while vibrating in the vertical direction is generated more effectively, so that the sand is uniformly mixed with water without being biased in a specific area.

When the supply of gas is started and a preset time elapses, the controller opens the process valve 401 so that the test fluid is supplied to the nozzle 110 to be sprayed. Also, the controller may adjust the position of the nozzle 110 on the rail 115 .

In addition, while the test fluid is supplied to the nozzle 110 , gas is supplied through the pressure hole so that the internal pressure of the stirred tank 20 is maintained within a set range, so that the test fluid is supplied to the nozzle 110 . to control

The above detailed description is illustrative of the present invention. In addition, the above description shows and describes preferred embodiments of the present invention, and the present invention can be used in various other combinations, modifications, and environments. That is, changes or modifications are possible within the scope of the concept of the invention disclosed herein, the scope equivalent to the written disclosure, and/or within the scope of skill or knowledge in the art. The written embodiment describes the best state for implementing the technical idea of the present invention, and various changes required in the specific application field and use of the present invention are possible. Accordingly, the detailed description of the present invention is not intended to limit the present invention to the disclosed embodiments. Also, the appended claims should be construed as including other embodiments.

10: body 11: test space
20: stirred tank 30: gas source
50: sand input module 60: water supply
100: door 120: drain pipe
205: outlet

Claims (5)

a body having a test space inside;
a nozzle positioned in the test space; and
a stirred tank located on the upper part of the body and connected to the nozzle by a test fluid supply pipe to supply a test fluid in a state in which water and sand are mixed to the nozzle,
A gas supply hole is formed in the stirring tank to supply a high-pressure gas for stirring water and sand
The gas supply hole,
a bottom gas supply hole formed in the bottom surface of the stirring tank; and
and a side gas supply hole formed on the side of the lower end of the stirred tank,
The bottom gas supply hole may include a first bottom gas supply hole, a second bottom gas supply hole, a third bottom gas supply hole, and a fourth bottom gas supply hole, which are sequentially positioned along a circumferential direction with respect to the center of the bottom surface of the stirred tank. including,
The side gas supply holes are provided to inject gas in a direction crossing the radial direction with respect to the center on the horizontal plane of the stirred tank, respectively, a first side gas supply hole, a second side gas supply hole, and a third side gas supply hole It includes a hole and a fourth side gas supply hole,
The first side gas supply hole is located in an outer region of the second bottom gas supply hole, the second side gas supply hole is located in an outer region of the third bottom gas supply hole, and the third side gas supply hole includes: It is located in an outer region of the fourth bottom gas supply hole, and the fourth side gas supply hole is located in an outer region of the first bottom gas supply hole,
The first side gas supply hole and the first bottom gas supply hole are connected to a gas supply source through a first gas supply pipe, and the second side gas supply hole and the second bottom surface gas supply hole are connected through a second gas supply pipe. connected to the gas supply, the third side gas supply hole and the third bottom gas supply hole are connected to the gas supply through a third gas supply pipe, and the fourth side gas supply hole and the fourth bottom gas supply hole The hole is connected to a gas supply source through a fourth gas supply pipe,
A first gas valve positioned in the first gas supply pipe, a second gas valve positioned in the second gas supply pipe, a third gas valve positioned in the third gas supply pipe, and a fourth gas positioned in the fourth gas supply pipe A sand spray test device in which valves are opened alternately while the rest are closed.
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