KR200487742Y1 - Urea solution charging apparatus - Google Patents

Abstract

The present invention relates to a urea water injector for supplying urea water as a catalyst for reducing nitrogen oxides (NOx) which is a pollutant of exhaust gas of a diesel engine. The urea water injector includes a urea water tank unit 100, a urea water injection unit 200, A number control unit 300 and a number of urea housing 400.
The number of urea water is frozen when the outdoor outside air temperature in winter is below the urea freezing point temperature according to the material property. In order to prevent or freeze the ice, the tank heating coil 420, the injection heating coil 240, the heating barrier rib 120, (Not shown). Also, the freezing element water filter (130) is provided to prevent the freezing element number from mixing with the defrosted element number.

Description

[0001] Urea solution charging apparatus [0002]

The present invention relates to a urea water injector for supplying urea water as a catalyst for reducing nitrogen oxide (NOx) which is an exhaust gas pollutant of a diesel engine, and more particularly, to a urea water injector for supplying urea water, The present invention relates to a urea water injector for preventing ice from being frozen below a temperature and for preventing the frozen urea water from mixing with the defrosted urea water.

The number of urea is a chemical substance made by mixing element and ultrapure water of high purity. When urea concentration is 32.5%, the freezing point of urea water is lowest at -11 ℃. When the urea number is frozen, a volume increase of 3 to 4% occurs. However, after defrosting the frozen urea water, there is no problem in using it to reduce diesel exhaust gas pollutants.

However, if the outside temperature falls below the urea freezing point and the urea water is frozen, urea water injector can not inject urea water into the vehicle. This phenomenon appears only in the coldest part of the winter season. Moreover, even in this cold weather, it is not necessary to use energy to defrost the urea water, such as at night when urea water injection is not carried out.

Patent Document 0001) Korean Patent No. 1015601280000 (Registered on October 10, 2015) Title: Urea water injector

The object of the present invention is to solve the above-mentioned problems. The object of the present invention is to provide a method and apparatus for preventing freezing of urea water by a heating diaphragm 120, an injection heating coil 240, a tank heating coil 420 and a nozzle vibration element Or to defrost the number of urea.

According to an aspect of the present invention,

The urea water tank portion 100 having the underwater pump 110 and the underwater pump 110 of the urea water tank portion 100 for storing the number of urea and supplying urea water to the injection object such as a diesel vehicle, And a urea water injection nozzle 200 having a urea water injection nozzle 220 at the end of the urea water hose 210 in the direction of injection target. The urea water injection nozzle 220 has a urea water injection nozzle 220, An operation mode selection button 310 for selecting and inputting a stepwise operation mode and a set temperature input button 310 for inputting a set upper limit temperature 501 and a lower set temperature 502, And an ellipticity temperature sensor 410 which surrounds the ellipticity water tank unit 100, the urea water injection unit 200 and the urea water control unit 300, And includes a number of element housing (400).

Here, the urea water tank unit 100 includes a plurality of heating barrier ribs 120 to be thawed when urea water is frozen, and a plurality of ice-cooled urea water filters 130 are provided to filter iced urea water.

The urea water hose 210 for injecting the urea water of the urea water tank unit 100 into a supply target such as a diesel vehicle has a hose shell and an urea water hole 230. The hose shell and the urea water hole 230 are provided with an injection heating coil 240 between them.

The urea water injection nozzle 220 at the end of the urea water hose 210 is formed in such a manner that the urea water hole 230 is formed in the element water hole 230 of the urea hose 210, And the injection heating coil 240 is also extended from the injection heating coil 240 of the urea water hose 210 and is provided with a nozzle vibration element .

Meanwhile, the elliptical number housing 400 is provided to receive the elliptic water tank unit 100, the urea water injection unit 200, and the urea water control unit 300 to block the outside air temperature. The housing opening / closing door 430 is provided in the urea water housing 400 so that the urea water hose 210 of the urea water injecting unit 200 and the urea water injecting nozzle 220 can be brought into contact with the object to be injected .

A tank heating coil 420 is provided inside the urea water housing 400 which supports a lower portion of the urea water tank unit 100 so that the lower surface of the urea water tank unit 100 can be heated.

At this time, the tank heating coil 420 is provided to be positioned in an area set to heat the lower periphery of the underwater pump 110 of the urea water tank unit 100.

The element number control unit 300 controls the operation of each of the tank heating coils 420 and the heat generating barrier ribs 420 in accordance with the temperature measured by the outdoor temperature sensor 410, the set upper and lower limit temperatures 501 and 502, And an input panel for setting the ON / OFF heating coil 120, the injection heating coil 240, and the nozzle oscillation element (not shown) to ON or OFF.

According to the urea water injector according to the present invention,

First, the urea water injector can be used without freezing the urea water even in the cold weather.

Second, the energy efficiency is enhanced by selecting the element number to keep or freeze the elliptical state in the state where the number of elements is in the freezing state and in the non-operating state.

Third, the operation status can be set in various stages or types, so that selection is possible in consideration of energy efficiency and thawing speed.

Fourth, the freezing temperature of the urea water is set to the upper limit and the lower limit to freely select the freezing temperature according to the element content.

Fifth, in the process of defrosting the number of freezing elements, the number of defrosted elements is mixed with the defrosted water using the freezing element water filter to prevent the urea water from being supplied.

Sixth, during the defrosting of the number of freezing elements, the nozzle element is used to vibrate the injection nozzle to remove the frozen element.

Seventh, the thawing speed can be adjusted by separately providing the heating barriers and the tank heating coils for thawing the urea water tanks.

1 is a perspective view showing an example of a urea water injector structure according to the present invention,
2 is a perspective view showing an example of the lower portion of the urea water tank portion according to the present invention,
3 is a perspective view showing an example of the urethane hose according to the present invention,
Fig. 4 is a diagram showing an example of the configuration of elliptical water defrosting according to the present invention. Fig.

It is to be understood that the specific structural or functional description of embodiments in accordance with the concepts of the present inventions disclosed herein is illustrative only for the purpose of describing embodiments in accordance with the concepts of the present invention, But may be embodied in many different forms and is not limited to the embodiments set forth herein.

The embodiments according to the concept of the present invention are capable of various changes and may have various forms, so that the embodiments are illustrated in the drawings and described in detail herein. It should be understood, however, that it is not intended to limit the embodiments according to the concepts of this invention to the particular forms disclosed, but includes all changes, equivalents, or alternatives falling within the spirit and scope of the invention.

FIG. 1 is a perspective view showing an example of the urea water injector structure according to the present invention, FIG. 2 is a perspective view showing an example of a lower portion of the urea water tank portion according to the present invention, and FIG. 3 is a cross- FIG. 4 is a diagram showing an example of the configuration of elliptical defrosting according to the present invention. FIG.

Hereinafter, a preferred embodiment of the urea water injector according to the present invention will be described with reference to the accompanying drawings.

The urea water injector of the present invention includes a urea water tank portion 100 having an underwater pump 110 for storing urea water and supplying urea water to an injection object such as a diesel vehicle, A urea water injection unit 200 having an urea water hose 210 communicating from the underwater pump 110 in the injection target direction and a urea water injection nozzle 220 at the end of the urea water hose 210 in the injection direction, An operation mode selection button 310 for selecting and inputting a stepwise operation mode and a set temperature input button 320 for inputting a set upper limit temperature 501 and a lower set temperature 502, And a urea water housing 400 surrounding the urea water tank unit 100, the urea water injection unit 200 and the urea water control unit 300 and having an outside temperature sensor 410 therein.

Here, the urea water tank unit 100 includes a plurality of heat-generating partition walls 120 to heat and defrost the urea water when the urea water is frozen, and has a plurality of ice-cooled urea water filters 130 to filter iced urea water. As shown in FIG. 1, the heat generating barrier rib 120 is provided inside the urea water tank 100 in a direction parallel to the paper surface. The heating barrier rib 120 is formed of a resin material that surrounds a heating coil (not shown) and a heating coil (not shown) serving as a heating wire. A plurality of heating barrier ribs 120 are provided to turn on or off the heating of the heating barrier ribs 120 under the control of the urea water control unit 300.

As shown in FIG. 3, the urea water hose 210 for injecting the urea water of the urea water tank unit 100 into the supply object is formed with a hose shell and urea water through holes 230, And an injection heating coil 240 is provided between the through holes 230. The urea water injection nozzle 220 at the end of the urea water hose 210 is formed in such a manner that the urea water hole 230 is formed in the element water hole 230 of the urea hose 210, And the injection heating coil 240 is also extended from the injection heating coil 240 of the urea water hose 210 and is provided with a nozzle vibration element . The nozzle vibrating element (not shown) turns on the power according to the control of the ellipsometric controller 300 to blow off the frozen urea water so that urea water can be smoothly injected simultaneously with defrosting.

Meanwhile, the elliptical number housing 400 is provided to house the elliptical water tank unit 100, the elliptic water injection unit 200, and the elliptic water control unit 300, .

The housing opening / closing door 430 is provided in the urea water housing 400 so that the urea water hose 210 of the urea water injecting unit 200 and the urea water injecting nozzle 220 can be brought into contact with the object to be injected, .

A tank heating coil 420 is provided inside the urea water housing 400 that supports the lower portion of the urea water tank unit 100 so that the lower surface of the urea water tank unit 100 can be heated.

At this time, the tank heating coil 420 is located in an area set to heat the lower periphery of the submerged pump 110 of the urea water tank unit 100. The submerged pump 110 The position of the tank heating coil 420 is set so that the tank heating coil 420 is defrosted from the lower periphery of the tank heating coil 420.

The element number control unit 300 controls the operation of each of the tank heating coils 420 and the heat generating barrier ribs 420 in accordance with the temperature measured by the outdoor temperature sensor 410, the set upper and lower limit temperatures 501 and 502, (Not shown) and the injection heating coil 120 and the nozzle heating element (not shown).

An embodiment of the present invention constructed as described above is as follows.

First, the operation mode is inputted by using the operation mode selection button 310 of the element count control unit 300. In this embodiment, three operation modes are set as the first, second and third operation modes.

Next, the set upper limit temperature 501 and the lower set temperature 502, at which the number of ellipses is frozen, are input to the set temperature input button 320 of the ellipsis control unit 300. The ideal upper limit temperature (501) is preferably higher than minus 11 degrees, and the set lower limit temperature (502) is preferably lower than minus 11 degrees because the ideal urea content having an urea content of 32.5% is minus 11 degrees urea freezing point temperature . In the present embodiment, the set upper limit temperature 501 is set to minus 7 degrees and the set lower limit temperature 502 is set to minus 15 degrees. When a set upper limit temperature 501 or a lower set lower limit temperature 502 is input, As shown in FIG.

Next, as shown in FIG. 4, according to the motion mode using the input panel of the ellipsis control unit 300, a heating barriers 120 for defrosting the number of frozen elements, an injection heating coil 240, And the tank heating coil 420 are turned on or off.

Finally, if you select the mode to operate the current urea injector, the urea injector is ready for operation.

In this state, the ellipsometer controller 300 compares the outside air temperature measured by the outside air temperature sensor 410 attached to the ellipse housing 400 with the set upper limit temperature 501 and the lower set temperature 502, The ON / OFF control of the partition wall 120, the injection heating coil 240, the nozzle vibration element (not shown) and the tank heating coil 420 is controlled, and the urea water injector is operated.

The reason why all of the heat generating partitions 120 and the injection heating coil 240 and the nozzle vibrating element 250 and the tank heating coil 420 are not turned on is that the ambient temperature of the urea water injector And that it should not be operated at night even in extreme temperatures of minus 11 degrees Celsius, which is part of the winter cold weather. That is, in one embodiment, in the first operation mode in which the urea water is injected, if the temperature is lower than the set upper limit temperature 501, the heat generating partition wall 120, the injection heating coil 240, (Not shown) when the outside air temperature is equal to or lower than the set lower limit temperature 502 by heating the nozzle unit 420 to freeze the urea water, Shake the number of urea. When the outside air temperature measured by the outside air temperature sensor 410 is equal to or higher than the set upper limit temperature 501, the power of the heat generating partition wall 120, the injecting heating coil 240, the nozzle oscillating element (not shown), and the tank heating coil 420 All are turned off to reduce the waste of the power supply.

In the nighttime when the urea water injection is not performed, as shown in FIG. 4, the second operation mode is set, and only the tank heating coil 420 is heated with a minimum power source to prevent freezing of the submersible pump 110 And to reduce the time and power required for thawing when thawing. As shown in FIG. 4, the third operation mode is set by the timer just before the injection of ellipsis, and a power source is added to the second operation mode to prepare for injection of urea water.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by one of ordinary skill in the art. Accordingly, the present invention should be construed as being covered by the scope of the claims, rather than the specific embodiments, and all technical ideas falling within the scope of the claims are also included in the scope of the present invention.

100 ... urea water tank part
110 ... underwater pump
120 ... heat barrier
130 ... Freezing element water filter
200 占 퐉 element number injection part
210 ... Number of component hose
220 ... urea water injection nozzle
230 ... element number through hole
240 ... Injection heating coil
300 ... element number control section
310 ,,, Operation mode selection button
320 ... Set temperature input button
400 ... Number of elements housings
410 ... Outside temperature sensor
420 ... tank heating coil
430 ... housing opening door
501 ... setting upper limit temperature
502 ... Set lower limit temperature

Claims (7)

A urea water injector for supplying urea water to an injection object so as to reduce diesel engine exhaust gas pollutants,
A urea water tank part (100) having an underwater pump (110) for storing the number of urea water and supplying it to the object to be injected;
A urea water hose 210 communicating from the submerged pump 110 of the urea water tank unit 100 in the injection target direction and a urea water injection nozzle 220 at the end of the urea water hose 210, A urea water injecting part 200 having an inlet and an outlet;
An element number control unit 300 having an operation mode selection button 310 for selecting and inputting a stepwise operation mode and a set temperature input button 320 for inputting a set upper limit temperature 501 and a lower set temperature 502;
And a urea water housing (400) surrounding the urea water tank part (100), the urea water injection part (200) and the urea water control part (300)
The urea water tank unit (100)
A plurality of heating barrier ribs 120 are provided horizontally to the ground so as to be thawed when the urea water is frozen and horizontally disposed below the urea water tank unit 100 to filter iced element water, 130,
A tank heating coil 420 is provided at a bottom surface of the urea water tank unit 100 to heat the lower surface of the urea water tank unit 100,
The tank heating coil 420,
(110) of the urea water tank unit (100) so as to be heated,
The urea water injection nozzle (220)
And a nozzle vibration element is provided at an end of the nozzle body in the direction of supplying urea water,
The element count control unit 300,
The heating operation of the tank heating coil 420, the heating barriers 120, the injection heating (heating), and the heating operation are performed according to the first, second, and third three operation modes, the temperature measured by the outside air temperature sensor 410, And an input panel for setting the coil (240) or the nozzle vibration element to ON or OFF.
delete The method according to claim 1,
The urea water hose (210)
And an injection heating coil (240) is provided between the hose shell and the urea water through hole (230).
delete The method according to claim 1,
The element number housing (400)
The urea water tank unit 100, the urea water injection unit 200, and the urea water control unit 300,
A housing opening and closing door 430 is further provided in the urea water housing 400 so that the urea water hose 210 of the urea water injecting unit 200 and the urea water injecting nozzle 220 can be brought into contact with the object to be injected. And the number of the urea water injectors.
delete delete

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