KR20160021517A - Check valve for ureawater injection and ureawater supply apparatus having the same - Google Patents

Abstract

Disclosed are a check valve for injecting urea water and a urea water supply apparatus having the same. The check valve for injecting urea water comprises: a valve body having a flow passage formed on the inside thereof; and a valve membrane installed on one end of the valve body where an exit of the flow passage is formed and arranged in a direction blocking the exit of the flow passage, wherein a portion thereof is fixed on the one end of the valve body to open and close the exit of the flow passage according to a pressure of urea water. The valve membrane is made of an elastomer material to open by the pressure of the urea water passing through the flow passage if the urea water is injected, and return to an original position by an elastic restoring force if urea water injection is stopped. The urea water supply apparatus comprises: the check valve; a storage tank to store the urea water; an injector to spray the urea water supplied from the storage tank into an exhaust pipe; and a urea water supply pipe to inject the urea water into the storage tank. Accordingly, damage/deformation risks by frozen urea water or crystallization of the urea water are minimized, and a reverse flow phenomenon can be alleviated. Even when a portion of the urea water is solidified, an elastic restoring force can be used to easily open and close the flow passage without friction or restoring force degradation.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a check valve for injecting urea water and a urea water supply device including the check valve for injecting urea water,

The present invention relates to a check valve, and more particularly to a check valve for injecting urea water, which can be used in an urea-added selective catalytic reaction system, and a urea water supply device including the same.

Recently, as interest in the environment has increased and exhaust gas regulations have been tightened, various measures for reducing nitrogen oxide (NOx), a harmful substance emitted from diesel and gasoline vehicles, have been continuously studied.

Urea-Selective Catalytic Reduction (Urea-SCR) is one of the most effective ways to reduce nitrogen oxides.

In this system, an SCR reactor equipped with a catalyst is installed in the middle of the exhaust pipe, and an injector for spraying urea water into the exhaust pipe is installed at one side of the SCR reactor. The injector is connected to a tank that stores / supplies urea.

When the urea water is sprayed to the exhaust gas from the engine to the SCR reactor using the injector, the sprayed urea water particles are mixed with the exhaust gas to enter the SCR reactor and pass through the catalyst. During the passage through the catalyst, the ammonia hydrolyzed from the urea water reacts with the exhaust gas, and the nitrogen oxides in the exhaust gas are reduced to harmless nitrogen and water vapor and then released to the atmosphere. Through such a process, the nitrogen oxide component, which is a harmful substance, is purified harmlessly.

On the other hand, unlike gasoline or diesel, urea water is freezing or crystallizing near -11 ℃ (frozen point), so it is difficult to install a valve in urea water supply pipe. In winter, It may happen that it can not be supplied.

This makes it difficult to control the internal pressure of the tank for storing / supplying the urea water, and it can cause a lot of problems when the urea water is filled in the tank through the urea water supply pipe. Particularly, the number of urea in the tank tends to rise back to the injection port and cause a well back issue.

FIG. 1 is a view showing a configuration of a conventional check valve used to prevent such reverse flow phenomenon.

The check valve shown in FIG. 1 has a valve cover 10 to prevent reverse flow, and a spring 20 fixed to one side of the valve cover 10 is installed to open and close the valve cover 10. Normally, the housing of the spring portion 20 and the valve cover 10 are made of a plastic material.

Fig. 2 (a) shows a state in which the valve cover 10 is opened in the check valve of Fig. 1 and urea water is injected into the tank. Fig. 2 (b) The backflow of the exhaust gas is prevented.

In the case of a check valve having such a structure, there is a problem that it is difficult to use because of the high possibility of breakage or deformation due to the opening / closing operation due to the characteristic of the number of urea mentioned above.

For example, as the number of the elements remaining in the spring portion 20 and the valve lid 10 becomes solid due to freezing or crystallization, stress is concentrated and breakage or deformation easily occurs.

Further, when the number of elements remaining in the spring portion 20 is solidified, there is a problem that the restoring force may be lowered due to friction.

KR 10-1164422 B1, Notice: 2012. 07. 12, Name: Exhaust gas reduction device of diesel vehicle

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the problems of the conventional art as described above, and it is an object of the present invention to provide a check valve installed to prevent reverse flow when injecting urea water, Which can minimize the risk of breakage / deformation of the check valve caused by the check valve and the urea water supply device including the check valve.

Another object of the present invention is to provide a check valve and a urea water supply device including the check valve which are capable of appropriately injecting urea water while easily opening and closing the flow path without lowering the friction and restoring force even if the urea water is partially solidified using elastic restoring force .

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not to be construed as limiting the invention as defined by the appended art. It will be possible.

According to an aspect of the present invention, there is provided a check valve for injecting urea water, comprising: a valve body having a flow path formed therein; And a valve membrane disposed at one end of the valve body to be an outlet of the flow channel and disposed in a direction to block the outlet of the flow channel and partially fixed to one end of the valve body to open and close the outlet of the flow channel, . The valve membrane is formed of an elastomeric material, and when the urea water is injected, the valve membrane is opened from the inside to the outside of the valve body by the pressure of the urea water passing through the flow channel. When the injection of the urea water is interrupted, And closed.

In the check valve for injecting urea water according to the present invention, a part of the valve membrane may be supported by being inserted into one end of the valve body.

In the check valve for injecting urea water according to the present invention, a coupling groove is formed at one end of the valve body, and the valve membrane is disposed in a direction blocking the outlet of the flow passage, ; And a fastening member protruding from one side of the thin film member and fixed by being fitted in the fastening groove on the valve body.

In the check valve for injecting urea water according to the present invention, the fastening grooves include a first fastening groove and a second fastening groove which are arranged so as to be spaced apart in parallel on the same line, And a pair of first fastening members and second fastening members held in the grooves and the second fastening grooves, respectively.

A urea water supply apparatus according to the present invention comprises: a storage tank for storing urea water; An injector for injecting urea water supplied from the storage tank into an exhaust pipe; A urea water supply pipe for injecting and filling urea water into the storage tank; And a check valve installed at a front end of the urea water supply pipe to open and close an inlet channel into which urea water is injected. The check valve comprising: a valve body; And a valve membrane that is disposed in a direction to block the outlet of the flow channel and is partially fixed to one end of the valve body to open and close the outlet of the flow channel in accordance with the pressure of the urea water. When the urea water is injected, the valve membrane is opened by the pressure of the urea water passing through the flow channel and restored to the original position by the elastic restoring force when the injection of the urea water is stopped.

In the urea water supply apparatus according to the present invention, a part of the valve membrane may be supported by being inserted into one end of the valve body.

The check valve and the urea water supply device including the check valve of the present invention can improve the backflow phenomenon while minimizing the risk of breakage / deformation due to freezing or crystallization of the urea water.

Further, according to the check valve and the urea water supply device including the check valve of the present invention, the urea water can be appropriately injected while easily opening and closing the flow path without lowering the friction and restoring force even if the urea water is partially solidified by using the elastic restoring force.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a configuration of a check valve for injecting urea water according to the prior art; FIG.
Fig. 2 is a view illustrating the use state of the check valve shown in Fig. 1; Fig.
3 is a view showing a configuration of a check valve for injecting urea water according to an embodiment of the present invention;
4 is a reference diagram for explaining the valve membrane shown in Fig. 3;
5 is a view illustrating the use state of the check valve shown in Fig. 3;
FIG. 6 is a schematic view showing an exemplary installation state of the check valve shown in FIG. 3 and a configuration of a urea water supply apparatus including the same.

Hereinafter, a check valve for injecting urea water and a urea water supply device including the same according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

3 is a view showing a configuration of a check valve for injecting urea water according to an embodiment of the present invention. 4 is a reference view for explaining the valve membrane shown in Fig.

3, the check valve 100 for injecting urea water according to an embodiment of the present invention includes a valve body 110 having a flow path formed inside and a valve body 110 installed at one end of the valve body 110 And a valve membrane 120 which is opened or closed depending on whether or not the number of urea passes.

The valve membrane 120 is disposed at one end of the valve body 110 in which the outlet of the flow path for supplying the urea water is formed and is disposed in a direction blocking the outlet of the flow path. A portion of the valve membrane 120 is fixed to one end of the valve body 110 to open and close the outlet of the flow passage according to the pressure of the urea water.

The valve membrane 120 is formed in the form of a thin film of an elastomer material.

When the portion of the valve membrane 120 that opens and closes the outlet of the flow passage is moved in accordance with the passage of the urea water through the check valve 100 in the form of a thin film of an elastomeric material and one side thereof is fixed, The opening and closing operation of the check valve 100 can be realized by using the elastic restoring force of the valve membrane 120 itself.

That is, when the urea water is injected, the valve membrane 120 can be easily bent outwardly of the check valve 100 by the pressure due to the number of urea to open the flow channel, It can be restored directly to the original position and shut off the flow path.

Therefore, even if the number of elements is frozen or crystallized, the restoring force can be maintained and the risk of breakage or deformation of the check valve 100 can be minimized.

4 illustrates a configuration in which the shape of the valve membrane 120 and the structure in which the valve membrane 120 is fitted and fixed in the coupling grooves 111 and 112 of the valve body 110 for the sake of understanding.

In one embodiment of FIG. 3, a portion of the valve membrane 120 is held in place on one end of the valve body 110 to secure one side of the valve membrane 120.

For this purpose, one end of the valve body 110 has coupling grooves 111 and 112 formed therein.

The valve membrane 120 fitted and fixed to the coupling grooves 111 and 112 of the valve body 110 may include the membrane member 121 and the coupling members 122 and 123 as shown in FIG.

The thin film member 121 is a portion that is disposed in a direction blocking the outlet of the flow path and is opened or closed depending on the presence or absence of pressure of the element water passing through the flow path. The fastening members 122 and 123 are portions protruding from one side of the thin film member 121 and fixed to the fastening grooves 111 and 112 on the valve body 110.

Referring to FIG. 4, in one embodiment, the coupling grooves 111 and 112 on the valve body 110 are arranged in parallel and spaced apart from each other to form a pair of a first coupling groove 111 and a second coupling groove (112). Correspondingly, the valve membrane 120 is provided with a pair of first fastening members 122 and a second fastening member 123, which are respectively fitted and held in the first fastening groove 111 and the second fastening groove 112 do.

According to such a structure, the valve membrane 120 composed of a thin film of an elastomer material is inserted into the valve body 110, and the valve membrane 120 is flocked by the presence or absence of pressure by the urea water while stably holding / Can be easily opened and closed to minimize friction.

At the outer ends of the first fastening member 122 and the second fastening member 123, the engaging protrusions 124 and 125 are formed. When the fastening members 122 and 123 of the valve membrane 120 are inserted into the fastening grooves 111 and 112, the fastening members 124 and 125 on the outer sides of the fastening members 122 and 123 are fastened to the fastening grooves 111 and 112, The valve body 110 and the valve body 120 can be tightened together by being hooked on the upper surface of the valve body 110 surrounding the valve body 110 and the valve body 110. [

FIG. 5 is a view illustrating the use state of the check valve shown in FIG. 3;

The valve membrane 120 of the above-described check valve 100 is pressed by the number of urea passing through the flow path and naturally flows outwardly from the inner original position of the valve body 110, as shown in Fig. 5 (a) Direction D1. The check valve 100 is opened naturally by the force of the number of elements moving toward the forward direction D1 of the flow path when the urea water is injected, thereby opening the outlet of the flow path.

When the injection of the urea water is stopped, the valve membrane 120 of the check valve 100 is restored to its original position as shown in FIG. 5 (b) and closed by itself to block the outlet of the flow passage, ). At this time, in order to stably designate the restoration position of the valve membrane 120, a step may be formed on the inner surface of the valve body 110 where both sides of the valve membrane 120 are contacted.

FIG. 6 is a schematic view showing an exemplary installation state of the check valve shown in FIG. 3 and a configuration of a urea water supply apparatus including the check valve.

The urea water supply apparatus according to an embodiment of the present invention may include the check valve 100 described above, the storage tank 210, the injector 220, the urea water supply pipe 230, and the like.

In this configuration, the tip of the urea water supply pipe 230 is inserted into the injection port of the storage tank 210, and urea water is injected into the storage tank 210 through the urea water supply pipe 230 to be filled therein. In the storage tank 210, the number of elements supplied from the urea water supply pipe 230 is stored. The bottom of the storage tank 210 may be provided with a pump 211 for pumping the stored urea water to the injector 220.

The injector 220 injects the urea water pumped / supplied from the storage tank 210 into the exhaust pipe 240.

The check valve 100 is provided at the tip of the urea water supply pipe 230 to open and close an inlet flow passage for injecting urea water into the storage tank 210 and prevent back flow of urea water in the storage tank 210.

The check valve 100 may include a valve body 110 installed at the outlet of the flow path and a valve membrane 120 fixed at one side to the valve body 110 as described above.

In this configuration, the valve membrane 120 is disposed in a direction to block the outlet of the inlet channel, and a part of the valve membrane 120 is fixed to one end of the valve body 110 to open and close the outlet of the inlet channel according to the pressure of the urea water . When the urea water is injected, the valve membrane 120 is opened by the pressure of the urea water passing through the flow channel, and when the injection of the urea water is stopped, the valve membrane 120 is restored to its original position and closed.

The valve membrane 120 is preferably formed as a thin film of an elastomeric material as described above.

If a portion of the valve membrane 120 thus formed is fitted and fixed to one end of the valve body 110, the valve membrane 120 can easily and naturally open and close according to the presence or absence of injection of urea water, have.

The configuration of the urea water injection check valve and the urea water supply device according to the present invention is not limited to the above-described embodiments, and various modifications may be made within the scope of the technical idea of the present invention.

100: check valve, 110: valve body,
111, 112: fastening groove, 120: valve membrane,
121: thin film member, 122, 123: fastening member,
124, 125: latching jaw, 210: storage tank,
220: injector, 230: urea water supply pipe,
240: Exhaust pipe

Claims (6)

A valve body having a passage formed therein; And
And a valve membrane disposed at one end of the valve body to be an outlet of the flow channel and disposed in a direction blocking the outlet of the flow channel and partially fixed to one end of the valve body to open and close the outlet of the flow channel in accordance with the pressure of the urea water However,
The valve membrane is formed of an elastomeric material, and when the urea water is injected, the valve membrane is opened from the inside to the outside of the valve body by the pressure of the urea water passing through the flow channel. When the injection of the urea water is stopped, Check valve for injection of closed urea. The method according to claim 1,
And a portion of the valve membrane is supported by one end of the valve body. 3. The method of claim 2,
The valve body is formed with a coupling groove at one end thereof,
Wherein the valve membrane is disposed in a direction blocking the outlet of the flow passage and opened or closed according to the presence or absence of pressure of the element water passing through the flow passage; And a fastening member protruded from one side of the thin film member and fixed by being fitted in the fastening groove on the valve body. The method of claim 3,
Wherein the fastening grooves include first fastening grooves and second fastening grooves arranged in a line on the same line,
Wherein the fastening member includes a pair of first fastening members and second fastening members which are respectively inserted and held in the first fastening groove and the second fastening groove. A storage tank for storing the number of elements;
An injector for injecting urea water supplied from the storage tank into an exhaust pipe;
A urea water supply pipe for injecting and filling urea water into the storage tank; And
And a check valve installed at a front end of the urea water supply pipe to open and close an inlet channel into which urea water is injected,
The check valve comprising: a valve body; And a valve membrane disposed in a direction blocking the outlet of the flow channel and partially fixed to one end of the valve body to open and close the outlet of the flow channel in accordance with the pressure of the urea water,
Wherein the valve membrane is formed of an elastomeric material and is opened by the pressure of the urea water passing through the flow channel when the urea water is injected and restored to the original position by the elastic restoring force when the injection of the urea water is stopped. 6. The method of claim 5,
Wherein a portion of the valve membrane is supported by being inserted into one end of the valve body.

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