KR102299179B1 - Filter structure for urea pump - Google Patents

Abstract

The present invention relates to a filter structure for a urea water pump that can prevent gas filling in the upper part of a filter structure for a urea water pump installed inside a conventional urea water tank, and can uniformly filter urea water, In the filter structure for a urea water pump installed in the urea water pump and installed inside the urea water tank, a lower structure in which a fluid outlet is formed in a plate shape, a tubular shape with upper and lower sides open, is formed on the upper side of the lower structure It is formed to cover the upper portion of the side filter and the side filter to filter the urea water flowing into the interior, characterized in that it comprises an upper structure formed to allow the inflow and discharge of the fluid.

Description

Filter structure for urea pump

The present invention relates to a filter structure for a urea water pump, and more particularly, to prevent gas filling in the upper part of a filter structure for a urea water pump installed inside a conventional urea water tank, and to uniformly filter urea water. It relates to a filter structure for a urea water pump that can.

Exhaust gases emitted from internal combustion engines such as vehicles contain pollutants such as nitrogen oxides (Nox). Recently, as interest in the environment has increased, an internal combustion engine such as a vehicle for removing pollutants such as nitrogen oxide contained in exhaust gas includes an exhaust gas after-treatment device. system, SCR system).

The selective reduction system reduces nitrogen loss oxides contained in the exhaust gas to nitrogen and oxygen by injecting a reducing agent such as urea water into the exhaust gas into the exhaust pipe.

1 shows a schematic diagram of a selective reduction system, the selective reduction system is installed inside the urea water tank 1 and the urea water tank 1 for accommodating the urea water 2, as shown in FIG. It may include a filter structure (3) for a pump for discharging the urea water (2) to the lower side.

In the filter structure for the pump 3, a pump capable of discharging the urea water is installed therein, and a filter for filtering foreign substances contained in the urea water flowing into the structure is installed on the side of the filter structure 3 for the pump. . Unlike the filter on the side, the upper surface of the filter structure for the pump 3 is generally formed of a synthetic resin material that cannot be discharged and has a certain degree of rigidity. There is a problem in that air may remain in the upper portion of the filter structure 3 when initially filling the urea water 2 in the urea water tank 1 .

In addition, there is a problem in that the filter formed around the side of the filter structure for the pump cannot evenly filter foreign substances contained in the urea water.

As a prior art related to a conventional filter structure for a pump, there is Japanese Patent Application Laid-Open No. 2016-180361 ("Urea water supply apparatus and urea water supply method of a urea SCR system," published on October 13, 2016).

Japanese Patent Application Laid-Open No. 2016-180361 ("Urea water supply apparatus and urea water supply method of urea SCR system," published on October 13, 2016)

The present invention has been devised to solve the above problems, and an object of the filter structure for a urea water pump according to the present invention is a gas such as air in the upper part of the filter structure for a pump when filling the urea water tank with urea water. It is possible to prevent the filling, and to provide a filter structure for a urea water pump that can more evenly filter foreign substances contained in the urea water.

In the filter structure for a urea water pump according to the present invention for solving the above problems, a urea water pump is installed therein, and the filter structure for a urea water pump is installed inside a urea water tank, the fluid outlet in a plate shape A lower structure in which is formed, a tubular shape with upper and lower sides open, a side filter that is formed on the upper side of the lower structure to filter the urea water flowing into the side filter, and a side filter that covers the upper part of the side filter, and the inflow of fluid and an upper structure formed to enable discharge.

In addition, the upper structure is characterized in that it includes a frame formed of a material having a rigidity of a certain degree or more, and an upper filter formed to block the space between the frames, and formed of a material capable of introducing and discharging fluid.

In addition, the side filter is characterized in that the size of the pores increases from the inside to the outside.

In addition, the side filter is characterized in that the pore size is 1 to 100 microns.

In addition, the lower structure, the side filter, and the upper structure are characterized in that they are coupled to each other by one method selected from among ultrasonic bonding, injection molding, high-frequency welding, thermal welding, and near-infrared welding.

According to the filter structure for the urea water pump according to the present invention as described above, since the inflow and discharge of fluid into the upper structure of the filter structure is possible, when filling the urea water tank with urea water, a gas such as air inside the filter structure There is no effect left.

In addition, according to the present invention, the size of the pores of the side filter increases from the inside to the outside, there is an effect that can uniformly filter the foreign substances contained in the urea water.

1 is a schematic view of a urea water tank.
2 is a perspective view of a first embodiment of the present invention;
Fig. 3 is a schematic diagram for explaining the operation of the first embodiment of the present invention;
Figure 4 is a schematic cross-sectional view of the side filter of the first embodiment of the present invention.
5 is a perspective view of a second embodiment of the present invention;

Hereinafter, a filter structure for a urea water pump according to the present invention will be described in detail with reference to the accompanying drawings.

[First embodiment]

Figure 2 schematically shows a first embodiment of the filter structure for a urea water pump according to the present invention. The filter structure for the urea water pump according to the present invention has a urea water pump installed therein, and is installed inside the urea water tank. It may include a filter 200 and an upper structure 300 .

The lower structure 100 has a plate shape, and a fluid outlet 110 is formed therein. The fluid outlet 110 is connected to a pump (not shown) installed in the interior of the first embodiment of the present invention, and the fluid discharged from the pump, that is, urea water is discharged.

The lower structure 100 may be formed of a material having a certain degree of rigidity, and may be mainly injected using a synthetic resin in consideration of economy and ease of manufacture.

Although not shown in FIG. 2 , a coupling structure for coupling with the urea water tank may be additionally formed on the lower side of the lower structure 100 .

The side filter 200 is formed in the upper side of the lower structure 100 in the shape of a tubular opening at the upper and lower sides. The urea water in the urea water tank is introduced from the outside of the side filter 200 to the inside due to the pump accommodated therein, and in this process, the side filter 200 removes foreign substances contained in the flowing urea water. For this purpose, a commonly used filter may be used as the side filter 200 .

The upper structure 300 is formed to cover the upper part of the side filter 200, and fluid can be introduced and discharged. For this purpose, the upper structure 300 includes a frame 310 and an upper filter 320. It may be formed including

The frame 310 is formed to maintain the shape of the upper structure 300 , and may be formed of a material having a rigidity of a certain degree or more, and may generally be manufactured by injecting a synthetic resin. As shown in FIG. 2 , the frame 310 is formed of an outer frame having the same shape as the cross section of the side filter 200 and a plurality of straight frames formed to connect the inside of the outer frame. The frame 310 is not manufactured to be completely blocked, but a separate space is formed to allow the fluid to flow in, and the upper filter 320 is attached to block the space between the frames 310 .

In FIG. 2 , the upper filter 320 is located on the lower surface of the frame 310 , that is, inside the side filter 200 , but the present invention is not limited thereto. It can be attached to the upper surface.

The upper filter 320 may be formed of a porous direct current, such as a non-woven fabric, to allow inflow and discharge of fluid. The reason that the upper filter 320 enables the inflow and discharge of fluid is to allow the gas inside the filter structure to be discharged upward through the upper filter 320 when the urea water tank is filled with urea water.

Figure 3 schematically shows the process of filling the urea water 20 in the urea water tank (10). 3, the water level A outside the filter structure is higher than the water level B inside the filter structure, because it takes a certain time for the urea water 20 to be filtered by the side filter 200 and move into the filter structure. That is, since there is a difference between the water levels A and B, there was a problem that a gas such as air remains inside the filter structure when filling the urea water tank in which the conventional filter structure is installed, but the first embodiment of the present invention is shown in FIG. As shown in (b), the air in the filter structure is discharged through the upper filter 320, so that even if the urea water is filled in the urea water tank, it is possible to prevent gas from remaining inside the filter structure.

The side filter 200 may be a kind of wound filter wound in a spiral. The wound filter means a filter wound in a spiral, and in the first embodiment of the present invention, the side filter 200 may have different pore sizes from the inside to the outside.

4 is a view showing that the side filter 200 is cut in a plane perpendicular to the height direction in order to schematically explain that the size of the pores of the side filter 200 changes, and as shown in FIG. The filter 200 may be divided into a first region 210 , a second region 220 , and a third region 230 formed from the inside to the outside. The size of the pores may increase from the first region 210 to the third region 230. At this time, the size of the pores gradually increases from 1 micron at the innermost side to the outside, so that the size of the pores at the outermost side is 100 microns. this can be

The side filter 200 has the effect that the size of these pores gradually increases from the inside to the outside, and sequentially filters the foreign substances contained in the number of urea flowing from the outside to the inside to more uniformly filter the foreign substances. .

The lower structure 100 , the side filter 200 , and the upper structure 300 may be coupled to each other by one method selected from among ultrasonic bonding, injection molding, high-frequency welding, thermal welding, and near-infrared welding.

[Second embodiment]

Hereinafter, a second embodiment of a filter structure for a urea water pump according to the present invention will be described in detail with reference to the accompanying drawings.

Figure 5 shows a second embodiment of the filter structure for a urea water pump according to the present invention. As shown in FIG. 5 , since the second embodiment of the present invention has a different superstructure 300 from the first embodiment, the superstructure 300 will be described in detail below, and other configurations not described. The first embodiment and the second embodiment are considered to have the same configuration.

5 , the upper structure 300 includes a frame 310 , an upper filter 320 , a flow pipe 330 , and an upper plate 340 .

The upper plate 340 is plate-shaped, and is coupled to the upper portion of the side filter 200 . An upper protrusion 341 having upper and lower surfaces opened is formed on a portion of the upper plate 340 , and the frame 310 and the upper filter 320 are formed on the upper protrusion 341 as in the first embodiment. can be

The upper plate 340 may be formed of a material having a rigidity of a certain degree or more, and may generally be made of synthetic resin. However, fluid can be introduced and discharged through the upper protrusion 341 protruding upward. That is, it is possible to induce the gas inside the filter structure to flow out to a specific part through the upper plate 340 and the upper lead-out part 341 .

This embodiment is presented only as an example, and does not limit the scope of the present invention. The present invention has a wide range of applications, and various modifications are possible without departing from the gist of the present invention as claimed in the claims.

1, 10: urea water tank
2, 20: number of elements
3: Filter structure for pump
100: substructure
110: fluid outlet
200: side filter
210: first area
220: second area
230: third area
300: superstructure
310: frame
320: upper filter
330: Euro tube
A: Water level outside the filter structure
B: water level inside the filter structure

Claims (5)

In the filter structure for the urea water pump installed therein, the urea water pump is installed inside the urea water tank,
a lower structure in which a fluid outlet is formed in a plate shape;
a side filter having a cylindrical shape with an open upper and lower sides, formed on the upper side of the lower structure to filter the number of urea introduced into the lower structure; and
an upper structure formed to cover the upper part of the side filter, the upper structure being formed to allow inflow and discharge of fluid;
A filter structure for a urea water pump comprising a.
According to claim 1, wherein the superstructure is
A frame made of a material having a certain degree of rigidity and
The upper filter is formed to block the space between the frames, and is formed of a material capable of introducing and discharging fluid.
A filter structure for a urea water pump comprising a.
According to claim 1, wherein the side filter is
A filter structure for a urea water pump, characterized in that the size of the pores increases from the inside to the outside.
The method of claim 3, wherein the side filter is
A filter structure for a urea water pump, characterized in that the pores have a size of 1 to 100 microns.
According to claim 1, wherein the lower structure, the side filter and the upper structure
A filter structure for a urea water pump, characterized in that it is coupled to each other by one method selected from ultrasonic bonding, injection molding, high-frequency welding, thermal welding, and near-infrared welding.

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