KR20190043439A - Urea solution filler neck device - Google Patents

Abstract

Disclosed is a urea solution filler neck device. The urea solution filler neck device according to an embodiment of the present invention comprises: a cover mounted on the floor of a vehicle body corresponding to a urea solution tank, at which a through-hole is formed; a filler neck body arranged at a lower portion of the cover, and mounted on the urea solution tank; an opening and closing cap mounted on an upper portion of the filler neck body from an upper portion of the through-hole, and selectively opening and closing the through-hole the filler neck body; and a seal member mounted on the filler neck body in a space formed in the cover and the filler neck body, and preventing a urea solution leaked from the urea solution tank from being introduced into the vehicle.

Description

Urea Solution Filler NECK DEVICE < RTI ID = 0.0 >

The present invention relates to a ellipsoidal pillar neck device, and more particularly, to a urea pillar neck device installed at the bottom of a vehicle body to inject urea water into an urea water tank.

Eco-friendly vehicles are being developed globally, and emission standards for automobiles are gradually increasing. In addition, car manufacturers are developing eco-friendly diesel vehicles due to carbon dioxide regulations.

At the core of emission standards for diesel vehicles are nitrogen oxides and particulate matter, among which LNT and UREA-SCR are attracting attention. In particular, UREA-SCR is useful for reducing NOx emissions from diesel engines in large vehicles.

UREA-SCR injects harmless elements (number of urea) into the exhaust system. When the injected urea water is converted into ammonia through pyrolysis, the converted ammonia reacts with nitrogen oxides to convert it into harmless components such as water and nitrogen. With a reduction system, a storage system is needed to store the number of elements separately.

This urea water storage system includes urea water tanks, pumps, inlets, piping, wiring, and various sensors.

However, in the conventional urea water storage system as described above, the injection port is usually provided beside the fuel filler port, and the filler neck connecting the urea water tank and the injection port provided at the lower portion of the vehicle body is unnecessarily long, The cost is increased.

In addition, when the urea-free urea water is spit back into the injection port due to the pressure of the urea water tank, there is also the disadvantage that the odor is introduced into the interior of the vehicle, causing an uncomfortable feeling to the passenger.

The matters described in the background section are intended to enhance the understanding of the background of the invention and may include matters not previously known to those skilled in the art.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide an air conditioner, which is mounted on a floor of a vehicle body so as to be directly connected to a urea water tank provided at a lower portion of the vehicle body, So as to prevent the inflow of water into the room.

To achieve these and other advantages and in accordance with the purpose of the present invention, as embodied and broadly described herein, there is provided a ellipsoidal pillar-neck device comprising: a cover mounted to a bottom of a vehicle body corresponding to a urea water tank, A filler neck body disposed at a lower portion of the cover, the filler neck body being mounted to the urea water tank; An opening / closing cap mounted on an upper portion of the pillar neck body at an upper portion of the through hole and selectively opening / closing the through hole and the pillar neck body; And a seal member mounted on the filler neck body in a space formed inside the cover and the filler neck body, the seal member preventing the urea water leaking from the urea water tank from flowing into the vehicle interior.

The cover includes a flange portion connected to the vehicle body; And a connection portion extending integrally downward from the lower surface of the flange portion and contacting the upper portion of the pillar neck body.

And the upper outer side surface of the seal member may be in contact with the inner upper portion of the connection portion.

Wherein the filler neck body comprises: a filler port in which the opening / closing cap is mounted on an upper portion and an injection hole is formed in a longitudinal direction at a center; A weld flange portion extending integrally outward in a circumferential direction from a lower end of the pillar port and having an outer circumferential surface welded to the urea water tank; A filler neck integrally extending downward from a lower surface of the welding flange so as to be positioned inside the urea water tank; A backflow preventing chamber formed between the welding flange portions at an upper portion of the filler neck to prevent back flow of urea water from the urea water tank at the time of injection of urea water; And a membrane provided between the welding flange portion and the backflow prevention chamber.

The upper surface of the welding flange portion may protrude upward in correspondence with the cover, and a support portion contacting the cover may be integrally formed.

A sealing member may be mounted on the upper end of the support to prevent leakage of urea water between the cover and the filler neck body.

The cross section of the sub-seal member may be formed in an inverted " U " shape.

Wherein at least one discharge hole communicating with the urea water tank is formed at a circumferentially spaced position in the welding flange portion so as to discharge gas generated from urea water and urea water, At least one communication hole may be formed along the circumferential direction.

Wherein the discharge hole has a first discharge hole communicating with the backflow preventing chamber in proximity to the filler port; And a second discharge hole formed corresponding to the membrane at a position radially spaced from the filler port.

The communication holes may be spaced apart from each other at a predetermined interval along the periphery of the support portion.

The upper surface of the welding flange portion may integrally have support protrusions protruding upwardly between the first and second discharge holes.

The supporting protrusions may be formed in a triangular shape in cross section and may be formed along the circumferential direction about the pillar port.

When the opening and closing cap is attached to the pillar port, a pressing part may be formed on the lower part of the opening / closing cap to correspond to the supporting protrusion so as to bring the sealing member into close contact with the supporting protrusion.

The backflow preventing chamber may be formed in a conical shape whose diameter decreases from the upper portion to the lower portion.

At least one guide protrusion may be formed on the inner circumferential surface of the injection hole in the longitudinal direction.

The sealing member may be made of a rubber material such that the outer peripheral surface of the upper end portion is in contact with the inside of the cover and the inner peripheral surface of the lower end portion is in contact with the filler neck body.

As described above, according to the elliptical pillar neck device according to the embodiment of the present invention, since it is installed on the floor of the vehicle body so as to be directly connected to the elliptical water tank provided at the lower part of the vehicle body, maintenance can be improved, Simplification and production cost can be saved.

In addition, by removing the connecting pipe, urea water is directly introduced into the urea water tank, thereby shortening the replenishment time of the urea water, and when the urea water flows backward, it is drained to the outside of the vehicle body, thereby improving the cleanliness of the urea pillar neck device And can be maintained.

In addition, the odor generated from the urea water and urea water from the urea water tank can be prevented from flowing into the interior of the vehicle, thereby improving the comfort of the interior of the vehicle.

Further, a membrane may be provided inside to absorb the vibration of the vehicle body, thereby improving ride comfort.

1 is a partially cutaway perspective view of an ellipse pillar neck apparatus according to an embodiment of the present invention.
2 is a cross-sectional view of a ellipsoidal pillar neck apparatus according to an embodiment of the present invention.
3 is an enlarged view of a portion A in Fig.
FIGS. 4 and 5 are diagrams illustrating the state of use of the ellipse-pillar neck apparatus according to the embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory only and are not restrictive of the invention, It should be understood that various equivalents and modifications may be present.

In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

And throughout the specification, when an element is referred to as " comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

It should be noted that terms such as " ... unit ", " unit of means ", " part of item ", " absence of member ", and the like denote a unit of a comprehensive constitution having at least one function or operation it means.

2 is a cross-sectional view of an ellipse-pillar neck apparatus according to an embodiment of the present invention, and Fig. 3 is a cross-sectional view of a elliptic-pillar neck apparatus according to an embodiment of the present invention. Fig.

Referring to the drawings, a urea capillary apparatus 100 according to an embodiment of the present invention is mounted on the bottom of a vehicle body 10 to inject urea water into a urea water tank 20 formed at one side of a fuel tank, And connected to the urea water tank 20.

The elliptic filler neck device 100 includes a cover 110, a filler neck body 120, an opening and closing cap 140, and a seal member 150, as shown in Figs.

First, the cover 110 is selectively and removably mounted on the bottom of the vehicle body 10 in correspondence with the urea water tank 20. A through hole 112 is formed at the center of the cover 110.

Here, the cover 110 includes a flange portion 114 and a connection portion 116.

First, the flange portion 114 is connected to the vehicle body 10. The connection portion 116 integrally extends downward from the lower surface of the flange portion 114 and contacts the filler neck body 120.

The cover 110 configured as described above can be detachably mounted on the vehicle body 10. [ Accordingly, when the maintenance work of the urea water tank 20 or the pillow neck body 120 is required, the cover 110 can be easily detached from the vehicle body 10.

In this embodiment, the filler neck body 120 is disposed below the cover 110 and mounted on the urea water tank 20.

The filler neck body 120 may include a filler port 122, a weld flange portion 124, a filler neck 131, a backflow prevention chamber 132, and a membrane 133.

First, the filler port 122 is mounted on the opening / closing cap 140, and an injection hole 121 is formed in a longitudinal direction at the center.

The filler port 122 is positioned at the upper portion of the filler neck body 120 corresponding to the through hole 112.

At least one guide protrusion 123 may be formed on the inner circumferential surface of the injection hole 121 in the longitudinal direction.

The guide protrusion 123 is in contact with the outer peripheral surface of the urea water replenishing gun 170 when the urea water replenishing gun 170 inserted into the injection hole 121 is inserted or removed, Can be stably guided.

In the present embodiment, the welding flange portion 124 integrally extends outward in the circumferential direction from the lower end of the filler port 121, and the outer peripheral surface thereof is welded to the urea water tank 20.

That is, the welding flange portion 124 may be integrally bent from the filler port 121 perpendicularly to the filler port 121.

A support portion 125 is integrally formed on the upper surface of the welding flange portion 124 so as to correspond to the connection portion 116 of the cover 110. The support part 125 may be in contact with the inner peripheral surface of the lower end of the connection part 116.

That is, when the cover 110 is mounted on the vehicle body 10, a lower end portion of the connection portion 116 is inserted into the support portion 125 to a certain extent.

At least one discharge hole communicating with the urea water tank 20 is formed at a circumferentially spaced position in the welding flange portion 1 so constructed to discharge gas generated from urea water and urea water.

The discharge hole includes a first discharge hole 126 that is in close proximity to the filler port 122 and communicates with the backflow prevention chamber 132 and a second discharge hole 126 that is located radially spaced from the filler port 122, And a second discharge hole 127 formed corresponding to the second discharge hole 127.

The first discharge hole 126 discharges urea water or urea water gas from the urea water tank 20 to the outside of the urea water tank 20. The second discharge hole 127 may discharge the urea water gas to the outside of the urea water tank 20.

In the present embodiment, at least one communication hole 128 may be formed in the supporting part 125 along the circumferential direction corresponding to the first and second discharge holes 126 and 127 so as to communicate with the outside have.

The communication holes 128 are spaced apart from each other at a predetermined interval along the circumference of the support portion 125. Accordingly, the urea water or urea water gas discharged from the first and second discharge holes 126 and 127 can be discharged to the outside of the filler neck body 120 through the communication hole 128.

That is, the communication hole 128 connects the urea water or urea water gas to the vehicle body (not shown) so that the urea water or urea water gas discharged from the first and second discharge holes 126, 10 to the outside.

The filler neck 131 integrally extends from the lower surface of the weld flange portion 124 so as to be positioned inside the urea water tank 20 in the lower direction.

The backflow preventing chamber 132 is formed between the welding flange portions 124 at the upper portion of the pillar neck 131 to prevent the urea water from flowing out of the urea water tank 20 when the urea water is injected.

The backflow preventing chamber 132 is formed in a conical shape whose diameter decreases from the upper portion to the lower portion. That is, the backflow prevention chamber 132 defines an expanded space between the filler port 122 and the filler neck 131. This space can prevent the backflowed urea water from being discharged to the filler port 122 when the urea water flows backward through the pillar neck 131 in the urea water tank 20.

The membrane 133 is provided in the space between the welding flange portion 124 and the backflow prevention chamber 132. Such a membrane 133 may be formed in a ring shape.

The membrane 133 configured as described above can prevent the vibration generated from the urea water tank 20 from being transmitted to the vehicle body 10 during traveling.

In this embodiment, the opening / closing cap 140 is mounted on the filler port 122 of the filler neck body 120 at the upper portion of the through hole 112. The opening and closing cap 140 can selectively open and close the through hole 112 and the injection hole 121 of the filler port 122.

That is, when the urea water is injected into the urea water tank 20, the opening / closing cap 140 is detached from the filler port 122, and the injection hole 121 is opened together with the through hole 112 do.

The seal member 150 is mounted on the filler port 122 in a space formed between the connection portion 116 and the filler port 122. The seal member 150 can prevent the urea water leaking from the urea water tank 20 from flowing into the interior of the vehicle.

The outer circumferential surface of the upper end of the seal member 150 is in contact with the inner surface of the upper portion of the connection portion 116. The inner circumferential surface of the lower end of the seal member 150 may contact the lower outer surface of the filler port 122. The seal member 150 may be a rubber material.

In this embodiment, the upper surface of the welding flange portion 124 may integrally have support protrusions 129 projecting upwardly between the first and second discharge holes 126, 127.

The support protrusions 129 are formed in a triangular shape in cross section and are formed along the circumferential direction about the filler port 122.

When the opening and closing cap 140 is attached to the filler port 122, the lower portion of the seal member 150 is closely contacted with the support protrusion 129, The pushing portion 142 may be formed corresponding to the support protrusion 124.

The pushing portion 142 urges the sealing member 150 into close contact with the support protrusions 129 so that urea water or urea water gas is supplied to the outside of the urea water tank 20 through the first discharge hole 126. [ Can be prevented.

In this embodiment, a sub-seal member 160 may be mounted on the upper end of the support portion 125 to prevent leakage of urea water between the connection portion 116 and the filler neck body 120.

The cross section of the sub-seal member 160 is formed in an inverted "U" shape. The sub seal member 160 may be a rubber material.

The connection between the connection part 116 and the support part 125 is sealed by the sub seal member 150 so that the number of the component parts between the filler neck body 120 connected to the cover 110 It can be prevented in advance.

Hereinafter, the operation and operation of the ellipse pillar neck apparatus 100 according to the embodiment of the present invention will be described in detail.

FIGS. 4 and 5 are diagrams illustrating the state of use of the ellipse-pillar neck apparatus according to the embodiment of the present invention.

4, when the urea water is not injected into the urea water tank 20, the opening / closing cap 140 is inserted into the filler port 122 at the upper portion of the through hole 112 Lt; / RTI >

Accordingly, the through hole 112 and the injection hole 121 are closed. At the same time, the pressing portion 142 of the opening / closing cap 140 closely contacts the supporting protrusion 129 so that the first discharge hole 126 is closed.

The urea water gas generated in the urea water tank 20 is discharged through the second discharge hole 127 and discharged smoothly to the outside through the communication hole 128 without flowing into the vehicle interior .

Here, when the urea water tank 20 vibrates due to vibrations generated during traveling of the vehicle, the membrane 133 flows into the urea water tank 20 through the second discharge hole 127). In addition, the membrane 133 absorbs vibration of the urea water tank 20 to prevent vibration from being transmitted to the vehicle body 10.

On the other hand, when urea water is injected into the urea water tank 20, the operator removes the opening / closing cap 140 from the filler port 122 as shown in FIG.

Then, the through hole 112 and the injection hole 121 are opened. At the same time, the first discharge hole 126 is opened together with the second discharge hole 127.

In this state, the urea water replenishing gun 170 is inserted into the injection hole 121 of the filler port 122, and is inserted into the urea water tank 20 at an upper portion spaced from the filler neck 131 .

At this time, when urea water flows back in the urea water tank 20, it is possible to prevent the urea water flowing backward through the extended space formed by the backflow preventing chamber 132 from being discharged to the filler port 122 .

On the other hand, when the urea water is injected, the urea water or urea water generated in the urea water tank 20 is discharged through the first and second discharge holes 126 and 127, And is smoothly discharged to the outside through the communication hole (128) without influx.

Therefore, when the ellipsoidal pillar neck device 100 according to the embodiment of the present invention as described above is applied, the elliptical water tank 20 is directly connected to the urea water tank 20 provided below the vehicle body 10, By providing this structure on the floor of the vehicle body 10, it is possible to improve the maintenance property and to reduce the layout and production cost by removing the connection pipe.

Further, by allowing the urea water to flow directly into the urea water tank 20 by removing the connection pipe, the replenishment time of the urea water is shortened, and when the urea water flows backward, it is drained to the outside of the vehicle body 10, The cleanliness of the water pillar neck device 100 can be improved and maintained.

In addition, the odor generated from the urea water and the urea water from the urea water tank 20 can be prevented from flowing into the interior of the vehicle, thereby improving the comfort of the interior of the vehicle.

Further, the membrane 133 may be provided inside to absorb the vibration of the vehicle body, thereby improving ride comfort.

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. It will be understood that various modifications and changes may be made without departing from the scope of the appended claims.

100: Number of elements Pillow neck device
110: cover
112: Through hole
114: flange portion
116:
120: Filler neck body
121: injection hole
122: filler port
123: Guide protrusion
124: welding flange
125: Support
126: first discharge hole
127: second discharge hole
128: communication hole
129: support projection
131: Filler Neck
132: Backflow prevention chamber
133: Membrane
140: opening / closing cap
142:
150: Seal member
160: Subseal member
170: Element number supplementary gun

Claims (16)

A cover mounted to the bottom of the vehicle body in correspondence with the urea water tank and having a through hole;
A filler neck body disposed at a lower portion of the cover, the filler neck body being mounted to the urea water tank;
An opening / closing cap mounted on an upper portion of the pillar neck body at an upper portion of the through hole and selectively opening / closing the through hole and the pillar neck body; And
A seal member mounted on the filler neck body in a space formed in the cover and the filler neck body to prevent the urea water leaking from the urea water tank from flowing into a vehicle interior;
Wherein the pillar-neck pillar-neck device comprises: The method according to claim 1,
The cover
A flange portion connected to the vehicle body; And
A connecting portion extending integrally from the lower surface of the flange portion toward the lower portion and contacting the upper portion of the pillar neck body;
Wherein the pillar-neck pillar-neck device comprises: 3. The method of claim 2,
The upper outer surface of the seal member
And the upper portion contacts the inner upper portion of the connection portion. The method according to claim 1,
The filler neck body
A filler port in which the opening / closing cap is mounted on an upper portion and an injection hole is formed in a longitudinal direction at a center;
A weld flange portion extending integrally outward in a circumferential direction from a lower end of the pillar port and having an outer circumferential surface welded to the urea water tank;
A filler neck integrally extending downward from a lower surface of the welding flange so as to be positioned inside the urea water tank;
A backflow preventing chamber formed between the welding flange portions at an upper portion of the filler neck to prevent back flow of urea water from the urea water tank at the time of injection of urea water; And
A membrane disposed between the welding flange portion and the backflow preventing chamber;
And a plurality of elliptic-shaped pillar-neck portions. 5. The method of claim 4,
On the upper surface of the welding flange portion
And a support portion projecting upwardly corresponding to the cover and being in contact with the cover is integrally formed. 6. The method of claim 5,
At the upper end of the support portion
And a subseal member is mounted to prevent leakage of the number of elements between the cover and the pillar neck body. The method according to claim 6,
The cross section of the sub-
U-shaped ".< / RTI > 6. The method of claim 5,
Wherein at least one discharge hole communicating with the urea water tank is formed in a circumferentially spaced apart position in the welding flange portion so as to discharge gas generated from urea water and urea water,
Wherein the supporting portion is formed with at least one communication hole along the circumferential direction corresponding to the discharge hole so as to communicate with the outside. 9. The method of claim 8,
The discharge hole
A first discharge hole communicating with the backflow preventing chamber in proximity to the filler port;
A second discharge hole formed corresponding to the membrane at a position radially distant from the filler port;
And a plurality of elliptic-shaped pillar-neck portions. 9. The method of claim 8,
The communication hole
And a plurality of spacers are formed at predetermined intervals along the periphery of the support portion. 9. The method of claim 8,
On the upper surface of the welding flange portion
And a support projection projecting upwardly between the first and second discharge holes are integrally formed. 12. The method of claim 11,
The support protrusions
Wherein the shape of the cross section is formed in a triangular shape and is formed along the circumferential direction about the filler port. 12. The method of claim 11,
At the bottom of the opening / closing cap
Wherein when the opening / closing cap is mounted on the pillar port, a pressing portion is formed corresponding to the supporting protrusion so as to bring the sealing member into close contact with the supporting protrusion. 5. The method of claim 4,
The backflow prevention chamber
And is formed in a conical shape whose diameter decreases from the upper portion to the lower portion. 5. The method of claim 4,
On the inner peripheral surface of the injection hole
And at least one guide protrusion is formed in the longitudinal direction. The method according to claim 1,
The seal member
Wherein the outer peripheral surface of the upper end portion is in contact with the inside of the cover and the inner peripheral surface of the lower end portion is in contact with the filler neck body.

Images