KR20230163084A - Filter for urea solution - Google Patents

Abstract

The present invention is a urea water filter (10) that is connected to the urea water storage tank (1) and the supply pipe (3) and is provided on the urea water supply line (2) to supply urea water to the vehicle to remove impurities contained in the urea water. ), an inlet 21 and an outlet 22 are formed on one side and the other side to which the supply pipe 3 of the urea water supply line 2 is connected, and the inside communicates with the inlet 21 and the outlet 22. A filter housing (20) in which a flow path (23) is formed; A cylindrical filter body (30) installed on the flow path (23) of the filter housing (20) and filtering out impurities contained in the urea water introduced through the inlet (21) of the filter housing (20); And an elastic rod 40 that is inserted into the cylindrical filter body 30 and has a hollow body 51, 61 formed therein. The elastic rod 40 has an elastic rod 40 on the surface of the elastic rod 40. It is a urea water filter characterized by the formation of a ceramic coating layer 70 with relatively high thermal conductivity.

Description

Filter for urea solution

The present invention relates to a urea water filter, and more specifically, in the process of supplying urea water stored inside a urea water storage tank to a car, impurities are more effectively removed to prevent clogging of the urea water injector nozzle and to increase volume when frozen. This relates to a urea water filter that improves the efficiency of the urea water supply line by preventing parts from being damaged due to overheating.

In general, 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, in order to remove pollutants such as nitrogen oxides contained in exhaust gas, internal combustion engines such as vehicles include exhaust gas after-treatment devices, and one method is a selective reduction system (Selective Catalyst). There is a reduction system (SCR system).

The selective reduction system functions to reduce nitrogen oxides in the exhaust gas to nitrogen and oxygen by spraying a reducing agent such as urea solution into the exhaust pipe. That is, in the selective reduction system, when a reducing agent is injected into the exhaust pipe, the reducing agent is converted into ammonia (NH3) by the heat of the exhaust gas, and nitrogen oxides are converted into nitrogen oxides through a catalytic reaction between nitrogen oxides and ammonia in the exhaust gas by this catalyst. Can be reduced to nitrogen gas (N2) and water (H2O).

However, urea water is highly likely to contain various impurities such as coal tar, triuret, phosphate, copper, zinc, iron, calcium, and clay during the purification process, so even if pure urea water is supplied, the injector that sprays urea water due to the impurities contained in it. There is a problem in which urea water cannot be supplied smoothly due to clogged nozzles. Additionally, if the nozzle is left clogged for a long period of time as described above, it may corrode, which increases maintenance and replacement costs for parts.

To solve this problem, a filter is installed in the urea water supply device to remove impurities contained in the urea water. However, there is a problem that when the urea remaining inside the filter freezes at a low temperature, the volume expands and the filter is damaged. Accordingly, the above problems still occur because the filter does not properly filter out impurities contained in urea water. In addition, as the number of elements freezes, parts other than the filter may be damaged, which further increases maintenance and replacement costs.

Korean Patent Publication No. 10-2299179

The present invention is intended to solve the problems described above, and the purpose of the present invention is to more effectively remove impurities in the process of supplying urea water stored inside the urea water storage tank to the automobile to prevent clogging of the urea water injector nozzle. This element not only increases vehicle efficiency and prevents filters and other parts from being damaged due to volume expansion when urea water freezes, but also effectively transfers heat to frozen urea water to more effectively solve problems caused by freezing urea water. It provides a number filter.

According to a feature of the present invention, an element is provided on the urea water supply line (2), which is connected to the urea water storage tank (1) and the supply pipe (3) to supply urea water to the vehicle, and removes impurities contained in the urea water. In the water filter 10, an inlet 21 and an outlet 22 to which the supply pipe 3 of the urea water supply line 2 is connected are formed on one side and the other side, and the inlet 21 and the outlet 22 are formed inside A filter housing (20) formed with a flow path (23) communicating with 22); A cylindrical filter body (30) installed on the flow path (23) of the filter housing (20) and filtering out impurities contained in the urea water introduced through the inlet (21) of the filter housing (20); And an elastic rod 40 that is inserted into the cylindrical filter body 30 and has a hollow body 51, 61 formed therein. The elastic rod 40 has an elastic rod 40 on the surface of the elastic rod 40. A urea water filter is provided, characterized in that a ceramic coating layer 70 having a relatively high thermal conductivity is formed.

According to another feature of the present invention, the elastic rod 40 includes an external elastic rod 50 on which the ceramic coating layer 70 is formed on the outer surface and one end is closed, and an interior of the external elastic rod 50. It is mounted and consists of an internal elastic rod 60 made of a material with relatively low elasticity compared to the external elastic rod 50, and the inner wall of the external elastic rod 50 is a seating groove in which the internal elastic rod 60 is mounted ( 52) An element number filter is provided, which is characterized in that it is formed.

According to another feature of the present invention, the ceramic coating layer 70 of the elastic rod 40 is made of a coating composition containing 50 to 90 parts by weight of aluminum oxide, 2.5 to 10 parts by weight of magnesium oxide, and 0.3 to 1 part by weight of boric acid. A feature number filter is provided.

As described above, according to the present invention, impurities contained in urea water are filtered out using the cylindrical filter body 30, thereby supplying high-quality urea water to the vehicle to increase the efficiency of the vehicle and the cylindrical filter body 30. A ceramic coating layer 70 having a relatively high thermal conductivity compared to the elastic rod 40 is formed on the surface of the elastic rod 40 disposed inside the cylindrical filter body 30 even if the number of elements introduced into the interior is frozen. Because it can be thawed quickly, damage to the filter body 30 or other parts due to freezing of urea water is prevented. Accordingly, the maintenance and replacement cycle of parts is extended and costs are reduced. At this time, the elastic rod 40 itself is elastically deformed as the urea water expands and contracts, so damage to the filter body 30 is more effectively prevented.

In addition, the elastic rod 40 is equipped with an inner elastic rod 60 made of a material with relatively low elasticity inside the outer elastic rod 50, causing rapid volume expansion and contraction due to freezing and thawing of urea water. The elastic rod 50 is prevented from being damaged by rapid elastic deformation. Accordingly, the maintenance and replacement cycle of the elastic rod 40 is extended, thereby further reducing costs.

1 is a diagram showing an example of an element number filter according to the present invention.
Figure 2 is an exploded perspective view of the above embodiment.
Figure 3 is a side cross-sectional view of the above embodiment.

The purpose, features and advantages of the present invention described above will become clearer through the following detailed description. Hereinafter, a preferred embodiment of the present invention will be described based on the attached drawings.

1 to 3 are diagrams showing an element number filter according to an embodiment of the present invention. As shown, the urea water filter 10 according to an embodiment of the present invention is connected to the urea water storage tank 1 and the supply pipe 3 on the urea water supply line 2 that supplies urea water to the vehicle. A filter housing (20) provided with an inlet (21) and an outlet (22) for removing impurities contained in urea water, and a cylindrical filter body (30) mounted inside the filter housing (20), It includes an elastic rod (40) mounted inside the cylindrical filter body (30). At this time, as is well known, the control unit 4 controls the supply amount of urea water supplied to the vehicle through the urea water supply line 2.

The filter housing 20 is formed with an inlet 21 and an outlet 22 through which urea water flows in and out on one side and the other, respectively, and has a flow path 23 inside the filter housing 20 that communicates with the inlet 21 and the outlet 22. is formed 2 and 3, the filter housing 20 has an opening 24 at one end that is opened and closed by the housing cover 25, an inlet 21 is formed on the side, and an outlet 22 is formed at the other end. do. Meanwhile, an air discharge hole 26 may be formed in the housing stopper 25 as the ceramic elastic sleeve 40 expands and contracts.

The cylindrical filter body 30 is mounted on the flow path 23 of the filter housing 20 to filter out impurities contained in urea water. The cylindrical filter body 30 is preferably made of nanofibers so as to effectively filter out impurities such as minute-sized contaminants.

The elastic rod 40 is inserted into the cylindrical filter body 30, and hollows 51 and 61 are formed therein. Such an elastic rod 40 is made of an elastic material such as rubber, EPDM, HNBR, etc. to prevent damage due to the volume expansion when the urea water introduced into the filter body 30 is frozen at a low temperature. It consists of

The urea water filter 10 according to an embodiment of the present invention uses heat from the heater to thaw frozen urea water by a heater (not shown) mounted inside the urea water storage tank 1 when the engine of the vehicle is started. It is designed to be easily conveyed to the public. That is, a ceramic coating layer 70 having relatively higher thermal conductivity than that of the elastic rod 40 is formed on the surface of the elastic rod 40.

And the ceramic coating layer 70 may be coated by aerosol deposition coating technology. As is known, aerosol deposition is a coating technology that sprays fine powders with a diameter of less than a few micrometers, and the fine powders include aluminum oxide, magnesium oxide, and boric acid. It consists of

Preferably, the ceramic coating layer 70 is made of a coating composition containing 50 to 90 parts by weight of aluminum oxide, 2.5 to 10 parts by weight of magnesium oxide, and 0.3 to 1 part by weight of boric acid, and has a thermal conductivity relatively lower than that of the elastic rod 40 itself. It has excellent thermal conductivity. Due to this ceramic coating layer 70, the heat of the heater inside the urea water storage tank 1 is easily transferred to the urea water flowing in between the filter body 30 and the elastic rod 40, and the frozen urea water is thawed. do. The durability of the elastic rod 40 is improved due to the ceramic coating layer 70.

In the urea water filter according to an embodiment of the present invention, the elastic rod 40 may be composed of an external elastic rod 50 and an internal elastic rod 60 mounted inside the external elastic rod 50. Both the external and internal elastic rods 50 and 60 are hollow (51 and 61) and are made of elastic materials such as rubber, EPDM, and HNBR. As shown in Figure 3, one end of the outer elastic rod 50 may be closed, and both ends of the inner elastic rod 60 may be open. At this time, a seating groove 52 in which the internal elastic rod 60 is seated is formed on the inner wall of the external elastic rod 50.

In addition, the internal elastic rod 60 is made of a material with relatively lower elasticity than the external elastic rod 50, preventing the external elastic rod 50 from being rapidly deformed as the urea water expands and contracts due to freezing and thawing. Therefore, damage due to rapid deformation of the external elastic rod 50 is prevented. Accordingly, the maintenance and replacement cycle of parts is extended, which has the advantage of reducing costs.

Meanwhile, the other end of the external elastic rod 50 is provided with a flange 53 that is hooked to the end of the filter body 30. And the flange 53 of the external elastic rod 50 is located in the opening 24 of the filter housing 20 and is fixed by the housing cover 25, so it is a separate part for installation of the external elastic rod 50. This is not required.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible without departing from the technical spirit of the present invention as is known in the technical field to which the present invention pertains. It will be clear to those who have the knowledge of.

10: element number filter 20: filter housing
21: Inlet 22: Outlet
30: filter body 40: elastic rod
50: External elastic rod 60: Internal elastic rod
70: Ceramic coating layer

Claims (3)

In the urea water filter (10), which is connected to the urea water storage tank (1) and the supply pipe (3) and is provided on the urea water supply line (2) that supplies urea water to the vehicle to remove impurities contained in the urea water. ,
On one side and the other side, an inlet 21 and an outlet 22 are formed to which the supply pipe 3 of the urea water supply line 2 is connected, and a flow path 23 is formed inside the inlet 21 and the outlet 22 and communicates with the inlet 21 and the outlet 22. ) Filter housing (20) formed;
A cylindrical filter body (30) installed on the flow path (23) of the filter housing (20) and filtering out impurities contained in the urea water introduced through the inlet (21) of the filter housing (20); and
It includes an elastic rod (40) formed with a hollow space (51, 61) therein and inserted into the cylindrical filter body (30),
A urea solution filter, characterized in that a ceramic coating layer 70 having a relatively high thermal conductivity compared to the elastic rod 40 is formed on the surface of the elastic rod 40. The method of claim 1, wherein the elastic rod (40) includes an external elastic rod (50) on which the ceramic coating layer (70) is formed on the outer surface and one end of which is closed, and is mounted inside the external elastic rod (50) and externally. It is made of an internal elastic rod 60 made of a material with relatively low elasticity compared to the elastic rod 50, and the inner wall of the external elastic rod 50 has a seating groove 52 on which the internal elastic rod 60 is mounted. An element number filter characterized by being formed. According to claim 1 or 2, the ceramic coating layer 70 of the elastic rod 40 is a coating composition containing 50 to 90 parts by weight of aluminum oxide, 2.5 to 10 parts by weight of magnesium oxide, and 0.3 to 1 part by weight of boric acid. An element count filter characterized by being made.

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