KR101459680B1 - An urea sender assembly - Google Patents

Abstract

The present invention relates to a urea sender assembly wherein a head body fitted into a urea solution tank of a diesel vehicle is provided, and the head body includes: a heating pipe to increase the temperature of a urea solution, a suction pipe to suck the urea solution to be supplied to a urea solution spray device, a return pipe to return the remaining urea solution after being supplied to the urea solution spray device to an urea solution tank, and a lead pipe to measure the level of urea solution by a float. The head body is formed therein with a plurality of vertically bored coupling holes into which upper portions of the lead pipe, a hot water inflow pipe and a hot water recovery pipe of the heating pipe, the suction pipe and the return pipe are fitted. Each coupling hole has a locking step protruding inward from an intermediate part of an inner circumferential surface thereof. A female screw part is formed on an upper portion of the inner circumferential surface of the coupling hole, such that a coupling socket is fitted into the female screw part through a screw coupling scheme. The lead pipe, the hot water inflow pipe and the hot water recovery pipe of the heating pipe, the suction pipe, and the return pipe are provided on the upper end portions thereof with the upper insertion parts to be fitted into through-holes of coupling sockets. Since a locking step protrudes outward from a lower outer circumferential surface of each upper insertion part, the bottom surface of the locking step is locked and supported to a locking end of the coupling hole. The top surface of the locking step makes contact with a lower protruding part of the coupling socket such that the locking step is supported, thereby preventing the locking step from deviating downward from the position thereof.

Description

An urea sender assembly < RTI ID = 0.0 >

The present invention relates to a urea sender assembly installed in a urea water tank of an exhaust system to which a selective catalytic reduction (SCR) is applied as a means for reducing exhaust gas in a diesel vehicle, and more particularly, A suction pipe for sucking the urea water and supplying the urea water to the urea water spraying device; and a suction pipe for supplying the remaining urea water to the urea water spraying device, And a lead pipe for measuring the temperature of the urea water while measuring the water level of the urea water by a float, wherein the head body includes a lead pipe and a heating pipe, The hot water inlet pipe and the hot water return pipe, and the upper portion of the suction pipe and the return pipe are fitted to each other, A plurality of fastening holes are formed in the intermediate portion of the inner circumferential surface, and an upper inner circumferential surface thereof is formed with a female screw portion in which a fastening socket is screwed into the fastening hole. The lead pipe and the hot water inlet pipe And the hot water return pipe, the suction pipe and the return pipe are formed with an upper insertion portion which is fitted into the through hole of each fastening socket at an upper end portion, and a hook protrusion is protruded outward from a lower outer peripheral surface of the upper insertion portion, And the lower surface of the lower surface of the fastening protrusion is supported on the lower surface of the fastening hole and the upper surface of the fastening protrusion is abutted against the lower protrusion of the fastening socket to prevent the downward protrusion.

In general, a conventional diesel engine uses harmful particulates such as carbon monoxide, hydrocarbons, and nitrogen oxides in exhaust gas in a large amount due to incomplete combustion of light oil used as fuel, and is discharged to the atmosphere. However, (NOx), which occupies most of the exhaust gas of a diesel engine, is used as a separate exhaust gas reduction device. [0004] In recent years, a diesel engine having significantly reduced carbon monoxide and hydrocarbon emissions due to incomplete combustion has been developed and used. by adapted to be discharged is treated reduced to nitrogen gas (N _2), thereby using a relatively selective high treatment efficiency of NOx ever denitration catalyst (SCR, selective catalytic reduction) compared to the exhaust system in a conventional diesel vehicle An exhaust gas reduction device has been researched and used.

The exhaust system of the diesel vehicle to which the selective NOx removal catalyst is applied generally includes an exhaust manifold in which a plurality of branch pipes connected to the engine are combined into one unit and a NOx removal catalyst (SCR) catalyst device for reducing nitrogen oxides to nitrogen gas (N ₂ ) by using vanadium or the like as a catalyst for the selective denitrification catalyst device, and an urea / And a muffler for reducing the noise and exhausting the exhaust gas to the outside of the vehicle, wherein the exhaust denitration catalyst and the selective denitration catalyst device And the urea water spraying device and the muffler are connected to each other by a connecting pipe or the like so that nitrogen oxides and noise in the exhaust gas from the engine are reduced And is discharged to the outside through the muffler.

The exhaust unit of the diesel vehicle to which the selective denitration catalyst is applied is provided with a urea water tank having a urea sensor assembly for supplying urea water to the urea water spraying apparatus, A suction pipe for sucking the urea water and supplying the urea water to the urea water spraying apparatus, and a supply unit for supplying the urea water spraying apparatus to the urea water spraying apparatus. A return pipe for returning the remaining number of elements to the urea water tank, a level sensor for measuring the water level of the urea water by a float, and a lead pipe having a temperature sensor for measuring the temperature of the urea water.

As a prior art related to the above-described Urea sensor assembly, Korean Registered Patent Application No. 10-1222656 discloses a Urea tank for post-treatment of diesel engine exhaust gas of the SCR type, , And the exposed surface is mounted on the inside of the urea water tank so that the upper end thereof is exposed to the outside of the urea water tank. The exposed surface includes a first heating pipe connecting pipe, a heating pipe second connecting pipe, a urea water suction pipe connecting pipe, A head having a substrate insertion port vertically penetrating therethrough; A hollow pipe having a lower end closed, the upper end of which is connected to the PCB substrate inlet; A hollow tube having a heating pipe whose one end is connected to the first connecting pipe of the heating pipe and whose other end is connected to the second connecting pipe of the heating pipe; A urea water suction pipe having an upper end connected to the urea water suction pipe connection port and a lower end opened; A tubular body having an upper end portion connected to the urea water return pipe connection port and having a lower end closed is extended toward the urea water suction pipe and a plurality of nozzle holes communicating with the inner flow path are formed on the outer circumferential surface of the tubular body, A urea water return pipe adapted to inject the number of urea into the interior of the tank; And a float mounted on an outer diameter of the lead pipe and sliding up and down in accordance with the amount of urea water in the urea water tank, wherein a sensor unit for a urea water tank having a freeze- .

However, in the prior art, the heating pipe first connection, the heating pipe second connection, the urea water suction pipe connection, the urea water return pipe connection, and the PCB board insertion hole, which are perforated in the head, The return pipe is connected to the bottom of the head by a simple fitting method, and a heating tube and a lead pipe are fixed to the lower surface of the head portion so that the heating tube and the lead pipe do not fall downward, while a separate tubular clamp is fastened to the lead pipe, However, since the lead pipe coupled with a simple fitting due to the vibration from the vehicle and the impact on the vehicle is loosened or released downward, the water is not kept watertight so that the urea water flows out to the upper and lower outer sides of the connecting parts through the connecting parts. And the overall assembling process is complicated. In particular, The wrapping process is difficult and the production efficiency is greatly deteriorated.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a head body, in which a plurality of fastening holes are vertically perforated in a body of a head, and a female thread is formed in an intermediate portion of an inner peripheral surface of each fastening hole, The hot water inlet pipe of the lead pipe and the hot water return pipe, the upper inlet portion formed at the upper end portion of the suction pipe and the return pipe are inserted into the through holes of the fastening sockets, The upper surface of the engaging jaw is brought into contact with the lower protruding portion of the fastening socket while the lower surface of the engaging jaw formed on the outer circumferential surface of the lower portion of the insertion portion is straddled and supported on the thread fastener of the fastening hole, And the upper portion of the head body is fixed to the upper surface of the fastening socket So that the connection pipe and the sensor unit can be easily connected to each other through the through hole of the fastening socket.

In order to achieve the above object, there is provided a diesel vehicle comprising a head body fitted to a urea water tank of a diesel vehicle, a head pipe body having a heating pipe for heating the urea water, a suction pipe for sucking the urea water, And a lead pipe for measuring the temperature of the urea water while measuring the water level of the urea water by means of a float, wherein the urea sender assembly comprises: The body of the head body is vertically perforated with a plurality of fastening holes through which the hot water inlet pipe of the lead pipe and the heating pipe, the hot water return pipe, the suction pipe and the upper portion of the return pipe are fitted, A female thread portion is formed on the upper inner circumferential surface and a fastening socket is screwed into the female thread portion. The hot water inlet pipe, the hot water return pipe, the suction pipe, and the return pipe of the lead pipe and the heating pipe are respectively formed with an upper insertion portion which is fitted into the through hole of each fastening socket at the upper end portion, The lower surface of the engaging jaw is hooked on the lower surface of the fastening hole and the upper surface of the engaging jaw is prevented from falling down while being abutted against the lower projecting portion of the fastening socket .

As described above, according to the present invention, a plurality of fastening holes are vertically perforated in the body of the head, the fastening holes are formed at the middle portion of the inner circumferential surface of each fastening hole and the female screw portion is formed at the upper inner circumferential surface, The hot water inlet pipe of the lead pipe and the heating pipe, the hot water return pipe, the suction pipe, and the upper end of the return pipe are fitted into the through holes of the respective fastening sockets, The lower surface of the engaging jaw is straddled on the hook member of the fastening hole and the upper surface portion of the engaging jaw is abutted against the lower projecting portion of the fastening socket so that the lead pipe and the head body are tightly coupled so as to be watertight, It is possible to maximize the production efficiency, and the upper outer side The upper part of the fastening socket is protruded so that various connecting pipes and sensor units can be easily connected to each other through the through holes of the fastening socket.

1 is a perspective view of a urea sender assembly according to the present invention;
FIG. 2 is a schematic exploded perspective view of the head part of the urea sender assembly according to the present invention,
3 is a schematic exploded perspective view showing a state in which a part of a head body is cut in a urea sender assembly according to the present invention.
FIG. 4 is a schematic view of a partially cut-away perspective view showing a state in which a lead pipe or the like is fitted into each fastening hole of the urea sender assembly according to the present invention.
Figure 5 is a schematic partial cutaway view of the urea sender assembly according to the present invention,
Figure 6 is a side schematic view of a urea sender assembly according to the present invention;
7 is a schematic cross-sectional view taken along line A-A '

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

As shown in FIGS. 1 to 7, the urea sender assembly 1 of the present invention includes a urea water tank of an exhaust system to which selective catalytic reduction (SCR) is applied as a means for reducing exhaust gas in various diesel vehicles (22) provided on the upper surface of the urea water tank (21) of the diesel vehicle, as means for heating and supplying the urea water, recovering the water of the urea water, A heating pipe 4 for warming the urea water to the lower part of the head body 2 and a urea water supply unit 4 for supplying the urea water to the urea water spraying unit A return pipe 8 for returning the remaining number of urea supplied to the urea water spraying device to the urea water tank 21; and a return pipe 8 for measuring the water level of the urea water by the float 30, The lead pipe (3), which measures the temperature, And is disposed inside the urea water tank 21 in a connected state.

As shown in FIGS. 1 to 7, the head body 2 has a circular plate shape made of a synthetic resin material having a predetermined thickness to be fitted into the sender mounting hole 22 of the urea water tank 21, And a plurality of fastening holes 9 in which the hot water inlet pipe 5 and the hot water return pipe 6 of the heating pipe 4 and the upper portions of the suction pipe 7 and the return pipe 8 are fitted together, The plurality of fastening holes 9 are formed in the middle of the inner circumferential surface of the inner circumferential surface of the heat pipe 10 so that the hot water inlet pipe 5 and the hot water return pipe 9 of the lead pipe 3, The lower surface of the engagement protrusion 18 protruding from the outer circumferential surface of the intake pipe 6 and the intake pipe 7 and the return pipe 8 is engaged with the upper surface of the engagement surface 10 in a state of being staggered, The hot water return pipe 5 and the hot water return pipe 6 of the heating pipe 4 and the suction pipe 7 and the return pipe 8 do not fall downward Is such that said coupled.

The head body 2 is provided with a female thread 11 on an upper inner circumferential surface of a portion where the thread 10 is formed in each of the fastening holes 9 so that the female thread 11 is fastened to the fastening socket 12 3 and 7, a male screw portion 13 is formed on a lower outer circumferential surface of the fastening socket 12 so that the female screw portion 11 of the fastening hole 9 The male thread portion 13 of the fastening socket 12 is screwed into the fastening socket 12 so that the upper portion of the fastening socket 12 is protruded to the outside of the upper portion of the head body 2. Inside each fastening socket 12, The through holes 14 are perforated in the vertical direction so that the lead pipes 3 provided to the respective fastening holes 9 and the hot water inlet pipe 5 and the hot water return pipe 6 of the heating pipe 4 and the suction pipe 7 and the upper insertion portion 17 of the return pipe 8 are inserted into the lower portion of the lower portion of the through hole 14 of the fastening socket 12, The number of warm water or urea supplied to the inside of the pipe 7 or the like is prevented from leaking to the outside of the head body 2 through the engagement portion between the fastening socket 12 and the fastening hole 9, Each of the fastening sockets 12 protruded outside the upper portion of the secondary body 2 is connected to the hot water inlet pipe 5 and the hot water return pipe 6 of the lead pipe 3 and the heating pipe 4 and the suction pipe 7 (Not shown) and the sensor unit 32 are easily connected to each other through the through holes 14 of the fastening sockets 12 along the return pipe 8 and the return pipe 8.

Each of the fastening sockets 12 is integrally formed with a downward protruding portion 15 vertically downwardly below the male screw portion 13 and a lead pipe 3 and a heating portion The upper surfaces of the hot water inflow pipe 5 and the hot water return pipe 6 of the pipe 4 and the engagement protrusions 18 protruding from the upper peripheral surfaces of the suction pipe 7 and the return pipe 8 are abutted and supported The lower protruding portion 15 of each fastening socket 12 is tapered so that the lower surface of the lower protruding portion 15 of the fastening socket 12 is tilted inwardly upward so that the hot water inlet pipe 5 and the hot water return pipe 6 of the lead pipe 3, The upper surface of the engagement pipe 18 of the suction pipe 7 and the return pipe 8 is closely contacted with the lower surface of the tapered lower protrusion 15 of the fastening socket 12 to be watertight, The number of elements and the like are prevented from flowing out to the outside.

1, 4, 5 and 7, the fastening sockets 12 are fastened to the head body 2 in a state where the gasket 16 is fitted to the upper peripheral surface of the male screw portion 13, So as to prevent the water or the urea water from leaking from the inside of the fastening holes 9 to the outside of the upper part of the head body 2. [

The hot water inlet pipe 5 and hot water return pipe 6 of the lead pipe 3 and the heating pipe 4 and the suction pipe 7 and the return pipe 8 are connected to the respective fastening sockets 12 The upper insertion portion 17 is formed integrally with the upper insertion portion 17 so as to be fitted into the through hole 14 of the upper insertion portion 17. The lower insertion portion 17 is formed with a locking protrusion 18 protruding outwardly The lower surface of the jaw 18 is supported on the hanging end 10 of the fastening hole 9 and the upper surface of the fastening protrusion 18 is abutted against the lower projecting portion 15 of the fastening socket 12, The hot water inlet pipe 5 and the hot water return pipe 6 of the lead pipe 3 and the heating pipe 4 and the suction pipe 7 and the return pipe 8 are formed with hooking jaws 18 The sealing rings 19a and 19b are fitted into the upper and lower outer circumferential surfaces of the portion so as to be engaged with the lower surface of the engagement protrusion 18 A sealing ring 19a (19b) made of a synthetic resin or a synthetic rubber material is provided between the threaded portion 10 of the threaded portion 9 and between the upper surface portion of the stopping jaw 18 and the lower end of the downwardly projecting portion 15 of the fastening socket 12, So that the urea water of the urea water tank 21 is prevented from flowing inward or the water heated by the heating pipe 4 is prevented from flowing out to the outside.

On the other hand, the catching jaw 18 is connected to the outer peripheral surface of the upper portion of the lead pipe 3, the hot water inlet pipe 5, the hot water return pipe 6, the suction pipe 7 and the return pipe 8 of the heating pipe 4 The upper and lower outer edge portions are rounded so that the upper and lower ends of the lead pipe 3 and the hot water inlet pipe 5 of the heating pipe 4 and the hot water return pipe 6), the suction pipe 7 and the return pipe 8 are passed through the respective fastening holes 9 from the lower portion to the upper portion of the upper portion of the return pipe 8 through a common expansion-molding device or a press molding device (not shown) The lower portion of the upper insertion portion 17 is enlarged to integrally protrude the engaging protrusion 18.

The head body 2 is integrally formed with a lower insertion portion 20 having a short cylindrical shape and inserted into the lower portion through the sender attachment hole 22 of the urea water tank 21, A plurality of coupling grooves 23 are formed on the outer circumferential surface of the lower insertion portion 20 at a predetermined interval and an engagement groove 24 is formed at the upper outer circumferential surface of the lower insertion portion 20 to be connected to the coupling groove 23, The engaging protrusions 25 protruding from the inner circumferential surface of the sender fitting opening 22 of the urethane receptacle 21 at regular intervals are inserted into the engaging grooves 24 through the engaging recesses 23 of the lower inserting portion 20, So that the head body 2 is stably fitted into the urea water tank 21.

The lower insertion portion 20 is integrally formed with an inner reinforcing member 26 made of a metal material. The inner reinforcing member 26 is provided with a ring-shaped reinforcing ring 27, The reinforcing ring 27 is formed so as to surround the inner periphery of the inserting portion 20 to improve the overall strength and durability of the head body 2. The reinforcing ring 27 has a plurality of A plurality of reinforcing pieces 28 are vertically upwardly protruded and one end of each of the reinforcing pieces 28 is protruded upwardly and a plurality of reinforcing pieces 28 are inserted into the lower insertion portion 20 The stopper protrusions 29 are positioned at one end of the engagement groove 24 of the lower insertion portion 20 so that the head body 2 is inserted into the sender attachment hole 22 The catching projection 25 of the sender mounting hole 22 is fastened to the catching groove 24 and is caught by the catching protrusion 29 The head body 2 is prevented from being rotated any more.

A lead pipe 3 is fitted in the lower portion of the fastening hole 9 formed in the center portion of the head body 2 and fitted to the outer circumferential surface of the float 30 floating on the urea water surface, The pipe 3 is provided at its lower portion with a sensor support 31 for absorbing vibrations and shocks generated during the operation of the vehicle, The sensor unit 32 is installed inside the lead pipe 3 to measure the water level and the temperature of the urea water stored in the urea water tank 21 through the sensor unit 32, A plurality of reed switches 34 are installed on the printed circuit board 33 at predetermined intervals so as to be sensed by magnets disposed in the float 30 at predetermined intervals, A temperature sensing sensor (not shown) is installed at the lower portion of the housing 33 And an electrical connector 35 is connected to an upper portion of the printed circuit board 33 so that the printed circuit board 33 is inserted into the lead pipe 3 and the electrical connector 35 is mounted outside the upper portion of the fastening socket 12. [ So that the water level and the temperature of the urea water are measured.

The hot water inflow pipe 5 of the heating pipe 4 is connected to the lower portion of the fastening hole 9 formed in the left and right sides of the fastening hole 9 in which the lead pipe 3 is installed in the head body 2, The hot water return pipe 6 is fitted into the hot water inlet pipe 5 through the connection pipe (not shown) and heated by the engine to the hot water inlet pipe 5 and passes through the coiled heating pipe 4 And the hot water that has passed through the heating pipe 4 is recovered through the hot water recovery pipe 6 and is recovered to the engine side through a separate connection pipe (not shown) .

A suction pipe 7 is fitted to a lower portion of a fastening hole 9 formed at a rear side of a fastening hole 9 in which the lead pipe 3 is installed in the head body 2, (Not shown) through the urea water supply pipe, and a return pipe 8 is inserted into a lower portion of the fastening hole 9 punched at the other side of the urea water supply pipe So that the remaining number of elements can be recovered through the urea water recovery pipe and flow into the urea water tank 21 through the return pipe 8. [

Meanwhile, the head body 2 is provided with an air vent 36 so as to protrude outward from the upper part, so that the gas inside the urea water tank 21 is discharged to the outside.

Hereinafter, the operation of the present invention will be described.

The urea sender assembly 1 according to the present invention is installed in the urea water tank 21 of the exhaust system to which a selective catalytic reduction (SCR) is applied as a means for reducing exhaust gas in various diesel vehicles, 2 and 3, when a plurality of fastening holes 9 are drilled in the head body 2, a lead pipe (not shown) is drilled in the head body 2, The hot water inlet pipe 5 and the hot water return pipe 6 of the heating pipe 3 and the upper portion of the return pipe 8 are fitted to each other, The hot water return pipe 5 and the hot water return pipe 6 of the heating pipe 4 and the suction pipe 7 and the return pipe 8 on the outer peripheral surface of the return pipe 8, So that the lower surface of the locking protrusion 18 protruding from the upper surface of the fastening hole 9 is staggered, The male thread 13 formed on the lower outer circumferential surface of the fastening socket 12 is screwed into the female thread 11 and the lead pipe 3 is inserted into the through hole 14 of each fastening socket 12, The hot water inlet pipe 5 and the hot water return pipe 6 of the heating pipe 4 and the upper insertion portion 17 formed at the upper end portions of the suction pipe 7 and the return pipe 8 are fitted The lower surface of the downward projecting portion 15 formed at the lower portion of the male screw portion 13 of each fastening socket 12 is abutted against the upper surface portion of the engaging step 18 so as to be held in tight contact with the lead pipe 3, The hot water return pipe 5 and the hot water return pipe 6 and the suction pipe 7 and the return pipe 8 are coupled to the head body 2 in a watertight manner while being vibrated or shocked Do not fall downward.

The portion of the lead pipe 3 and the heating pipe 4 where the catching jaws 18 are formed in the hot water inlet pipe 5 and the hot water return pipe 6 and the suction pipe 7 and the return pipe 8 As shown in Figs. 2, 4 and 7, while the sealing rings 19a and 19b are fitted on the upper and the lower portions of the fastening hole 9 and between the lower surface of the fastening protrusion 18 and the fastening hole 10 of the fastening hole 9, Sealing rings 19a and 19b are interposed between the upper surface of the stopping jaw 18 and the lower end of the lower protruding portion 15 of the fastening socket 12 so that the urea water of the urea water tank 21 flows inward The head pipe 2 is provided with a lead pipe 3 and a lead pipe 3 so as to be watertight so that the heating water of the heating pipe 4 does not flow out to the outside. Through the through holes 14 of the fastening sockets 12 along the hot water inlet pipe 5 and the hot water return pipe 6 of the heating pipe 4 and the suction pipe 7 and the return pipe 8, (City ha The installation connections, such as the N) and the sensor unit (32).

The lead pipe 3 and the hot water inlet pipe 5 and the hot water return pipe 6 of the heating pipe 4 and the suction pipe 7 are returned to the head body 2 together with the fastening socket 12, The pipe 8 is installed so that the lead pipe 3 or the like is positioned inside the urea water tank 21 through the sender installation port 22 of the urea water tank 21 as shown in Figs. And the lower insertion portion 20 integrally formed at the lower portion of the head body 2 is inserted into the sender mounting hole 22 and a plurality of fastening portions A plurality of locking protrusions 25 protruding from the inner circumferential surface of the sender mounting hole 22 of the urea water tank 21 at regular intervals are inserted through the groove 23 in a coincident manner, The head body 2 is stably fixed to the urea water tank 21 by engaging the engaging projection 25 with the engaging groove 24 formed to be connected to the urea water tank 21, .

The reinforcing ring 27 of the inner reinforcing member 26 is integrally formed with the inner reinforcing member 26 made of a metal material in the lower insertion portion 20 of the head body 2, 2 to 5, the reinforcing ring 27 is formed with a plurality of reinforcement pieces 27 at regular intervals, as shown in FIGS. 2 to 5, on the outer circumferential surface of the reinforcing ring 27, A locking protrusion 29 protrudes upward at one end of each reinforcing piece 28 and each reinforcing piece 28 is inserted into the locking groove 23 in the lower insertion portion 20, When the head body 2 is inserted into the sender mounting hole 22 and the hooking groove 24 of the lower insertion portion 20 is positioned at one end of the lower insertion portion 20, The catching projection 25 of the sender mounting hole 22 is engaged with the catching groove 24 and is blocked by the blocking protrusion 29 so that the head body 2 is no longer rotated .

1. Urea Sender Assembly 2. Head Body
3. Lead pipe 4. Heating pipe
5. Hot water inlet pipe 6. Hot water return pipe
7. Suction pipe 8. Return pipe
9. Tightening ball 10. Girth group
11. Female thread 12. Fastening socket
13. Male thread part 14. Through hole
15. Downward protrusion 16. Gasket
17. Upper insert 18,
19a, 19b. Sealing ring 20. Lower insert
21. Urea water tank 22. Sender installation hole
23. Fastening groove 24. Fastening groove
25. Locking mechanism 26. Internal reinforcement
27. Reinforcement ring 28. Reinforcement piece
29. Blocking protrusion 30. Float
31. Sensor zone 32. Sensor unit
33. Printed circuit board 34. Reed switch
35. Electrical Connector 36. Air Vents

Claims (5)

A head body (2) to be fitted into an urea water tank (21) of a diesel vehicle is provided. A head pipe body (2) is provided with a heating pipe (4) for heating urea water, A return pipe 8 for returning the remaining urea water supplied to the urea water spraying device to the urea water tank 21 and a float 30 for measuring the water level of the urea water A headrest body (2) comprising a lead pipe (3), a hot water inlet pipe (5) of a heating pipe (4), and a hot water return pipe A plurality of fastening holes 9 through which the upper end of the intake pipe 6 and the upper end of the intake pipe 7 and the return pipe 8 are fitted are vertically perforated, And a fastening socket 12 is screwed into the upper inner circumferential surface of the arm 10, And the hot water inlet pipe 5 and the hot water return pipe 6 and the suction pipe 7 and the return pipe 8 of the lead pipe 3 and the heating pipe 4 are connected to each other at an upper end An upper insertion portion 17 is formed in the upper insertion portion 17 so as to be fitted into the through hole 14 of the fastening socket 12 and a fastening protrusion 18 is protruded outward on the lower outer periphery of the upper insertion portion 17 The lower surface of the latching jaw 18 is supported on the threaded end 10 of the fastening hole 9 and the upper surface of the latching jaw 18 is held in contact with the lower projecting portion 15 of the fastening socket 12, And is prevented from coming off.
The fastening socket according to claim 1, wherein the fastening socket (12) has a male screw portion (13) formed on a lower outer circumferential surface thereof so that the male screw portion (13) of the fastening socket (12) The upper portion of the fastening socket 12 is provided so as to protrude to the outside of the upper portion of the head body 2 and a through hole 14 is formed in the inside of each fastening socket 12 in the vertical direction, (12) has a downward protrusion (15) integrally protruded vertically downward from a lower portion of the male screw portion (13), and a downward protrusion (15) is tapered so that a lower surface thereof is inclined upward inward.
The hot water inlet pipe (5), the hot water return pipe (6), the suction pipe (7) and the return pipe (8) of the lead pipe (3) and the heating pipe (4) The sealing rings 19a and 19b are fitted into the upper and lower outer circumferential surfaces of the formed portion so as to be fitted between the lower surface of the engaging protrusion 18 and the engaging end 10 of the engaging hole 9, And sealing rings (19a) and (19b) are interposed between the upper surface of the fastening socket (18) and the lower end of the lower protrusion (15) of the fastening socket (12).
3. The head unit according to claim 1 or 2, wherein the head body (2) is integrally formed with a lower insertion portion (20) inserted into the lower portion through a sender installation hole (22) of the urea water tank (21) A plurality of coupling grooves 23 are formed on the outer circumferential surface of the lower insertion portion 20 at regular intervals and a locking groove 24 connected to the coupling groove 23 is formed on the outer circumferential surface of the lower insertion portion 20 And the engaging projection 25 protruding from the inner circumferential surface of the sender mounting opening 22 of the urea water tank 21 at regular intervals is caught in the engaging groove 24 through the engaging groove 23 of the lower inserting portion 20 And an inner reinforcing member (26) made of a metal material is integrally provided to reinforce the head body (2) on the inner periphery of the lower insertion portion (20).
The internal reinforcing member (26) according to claim 4, wherein the inner reinforcing member (26) is provided with a ring-shaped reinforcing ring (27) so as to surround the inner periphery of the lower insertion portion (20) A plurality of reinforcing pieces 28 are vertically upwardly protruded at regular intervals. A blocking protrusion 29 protrudes upward from one end of each reinforcing piece 28, And the stopper protrusions 29 are positioned at one end of the latching groove 24 of the lower insertion portion 20 so that the head body 2 can be inserted into the center The engagement projection 25 of the sender attachment hole 22 is engaged with the engagement groove 24 and is blocked by the stopper projection 29 so that the head body 2 is no longer rotated Wherein the Urethane sender assembly comprises:

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