KR101284300B1 - Partition type heating device urea water solution storage tank - Google Patents

Abstract

The present invention relates to a bulkhead heating device for a urea water storage tank, which minimizes noise generated when driving a vehicle in a state in which urea water in a solid state and urea water in a liquid state coexist, and according to a change in water level of the urea water. The power consumption can be changed.

Description

Bulkhead type heating device for urea water storage tank {PARTITION TYPE HEATING DEVICE UREA WATER SOLUTION STORAGE TANK}

The present invention relates to a partition wall heating device provided in a urea water tank, and more particularly, to minimize noise generated when driving a vehicle in a state in which urea water in a solid state and urea water in a liquid state coexist, The present invention relates to a partition type heating device for a urea water storage tank capable of varying power consumption according to a change in water level.

Generally, in order to purify the exhaust gas generated from a diesel engine, a urea water solution is injected into the exhaust gas through a nozzle, thereby using catalytic conversion to hydrolyze NOx contained in the exhaust gas by hydrolysis of urea water. Exhaust after-treatment systems are known which react with the resulting ammonia to purge while generating nitrogen and water.

This technique is basically based on a selective catalytic reduction process and urea solution is used instead of ammonia as a reducing agent for the catalytic conversion of nitric oxide.

In addition, as shown in FIG. 1, the urea water used for the exhaust gas treatment of the diesel engine is stored in the storage tank 10 and supplied to the nozzle side by the solution supply device for each use, and the stored urea water is minus 11 degrees. Since the freezing point temperature starts to freeze in the cold zone, when the outside temperature reaches below the freezing point temperature, the urea water, which is the liquid stored in the storage tank, freezes, making it difficult to supply the liquid to the nozzle using the liquid supply device. It was.

Accordingly, the storage tank 10 is disclosed in various forms of a urea water heating device for heating the frozen urea water when the power is applied to convert the frozen urea water into a liquid state.

However, when the urea water that is heated by the urea water heating device and starts to melt, the urea water in the solid state and the urea water in the liquid state dissolved by heat until the urea water is completely dissolved and converted into a liquid state Coexist in the storage tank.

In this case, there is a problem of generating noise as the urea water in the solid state of the urea water stored in the storage tank 10 hits the inner wall surface of the storage tank every time the vehicle speed changes due to driving and stopping of the vehicle.

In addition, the conventional urea water heater has a problem of increasing power consumption by unnecessary heating at low water level because it operates to maintain a constant heating temperature at all times without changing the heating efficiency according to the state of the urea water level stored in the tank.

The present invention is to solve the above problems, the object is to minimize the noise generated when driving the vehicle in the state where the urea water in the solid state and the urea in the liquid state coexist, and to change the water level of the urea water Accordingly, to provide a partition type heating device for a urea water storage tank that can vary the power consumption.

The present invention for achieving the above object, in the apparatus for heating to convert the urea water frozen in the interior of the urea water tank or to maintain the liquid state, so as to be spaced apart from the inner surface of the urea water storage tank At least one partition wall portion having an upper end fixed to the urea water storage tank and immersing a part of the body in the urea water; It provides a partition-type heating device for a urea water storage tank comprising a; heating unit which is electrically connected to an external power source to heat the urea water in contact with the partition wall portion provided in the partition wall portion.

Preferably, the partition wall portion is inserted through the fixing hole formed in the upper surface of the urea water storage tank and the partition body is spaced apart from the bottom surface or the inner surface of the urea water storage tank and the fixed hole, It includes a fixing jaw protruding to the upper end of the partition body to be locked.

More preferably, the partition body has a plurality of through holes formed through the outer surface.

More preferably, the partition body is made of a shock-absorbing partition member to reduce the generation of noise while absorbing the impact generated during the collision with the urea water in the solid state.

Preferably, the heating unit is a second heating wire that is individually connected to the plurality of connection heating wires extending from the plurality of first heating wires electrically connected to the polarity of any one of the positive electrode and the negative electrode of the power supply, the second heating wire electrically connected to the other polarity It includes.

More preferably. The plurality of connection heating wires are wired to have different heights so as to electrically connect between the first heating wire and the second heating wire according to the change in the water level of the urea water stored in the urea water storage tank.

More preferably, the plurality of connection lines are provided in a straight line or in a waveform or mountain form, which are repeated at regular pitch intervals between the first and second columns, which are wired perpendicular to the partition body.

The present invention as described above has the following effects.

(1) The partition wall is provided in the inner space of the urea water tank in which urea water is stored, thereby dividing the inner space of the storage tank into at least two or more to limit the active area in which the urea water in the solid state moves inside the urea water storage tank. In addition, since the kinetic energy can be reduced, the quiet operation can be improved by reducing the noise generated when the urea water in the solid state hits the urea tank when the vehicle speed is increased or decreased.

(2) The first and second heating wires are connected to the bulkheads installed in the inner space of the urea water tank by connecting heating wires having different height differences, so that the urea water level changes according to the amount of urea water used. Since the power supply to the first and second heating wires and the connecting heating wire located above the urea water level can be stopped, the power consumption required to operate the heating part can be reduced, thereby reducing the overall power consumption and improving the energy efficiency. have.

1 is a schematic view showing a general urea water storage tank.
2 is an overall configuration diagram showing a partition type heating device for a urea water storage tank according to the present invention.
Figure 3 shows the operating state of the heating unit in the partition type heating device for the urea water storage tank according to the present invention, (a) is the operating state of the heating element in the low urea water, (b) is heating when the urea water is full Negative operation.

The objects, features and advantages of the present invention described above will become more apparent from the following detailed description. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The partition type heating device for urea water storage tank 100 according to an exemplary embodiment of the present invention converts the urea water filled into the urea water storage tank 10 into a liquid state as shown in FIG. 2. It includes a partition wall portion 110 and the heating portion 120 to heat the urea water to maintain a liquid state.

The partition 110 has an upper end fixed to the urea water storage tank 10 so that the lower end of the urea water storage tank 10 is spaced so that a part of the body is immersed in the urea water.

The partition 110 is inserted through the fixing hole 12 formed through the upper surface of the urea water storage tank 10 to be spaced apart from the bottom or inner surface of the urea water storage tank 10 at a predetermined distance. The partition body 112 is disposed, and a fixing jaw 114 protruding from the upper end of the partition body 112 to be locked to the fixing hole 12.

In addition, the partition body 112 has a plurality of through-holes 118 are formed through the outer surface of the body having a predetermined size so that the urea in the liquid state to pass freely, such a through-hole 118 is a heating portion It is preferable to penetrate so as not to overlap with.

Accordingly, the partition body 112 is provided in a substantially rectangular plate spaced apart from the bottom surface and the inner surface of the urea water storage tank 10 at a predetermined distance from the side and the bottom border through a passage formed therebetween. The urea in the liquid state can be freely moved, and the urea in the liquid state can be freely moved through the through hole 118.

In addition, the fixing jaw 114 is fixed to the upper end of the fixing hole 12 formed through the upper surface of the urea water storage tank by the partition body 112 when the urea water fluctuates due to the movement of the urea water storage tank. It is to maintain the vertical state of the stable.

In addition, the partition wall portion 110 is preferably made of a shock-absorbing partition wall member such as rubber or resin to reduce the generation of noise while absorbing the impact generated during the collision with the urea water in the solid state.

Accordingly, the partition wall portion may include an active area in which the urea water in the solid state generated before the urea water frozen in the urea water storage tank 10 is completely melted by the heating part 120 moves inside the urea water storage tank. 110, it is possible to reduce the kinetic energy by limiting the internal space of the urea water storage tank to at least two divided spaces.

At the same time, the noise caused by the collision of solid urea water when the vehicle speed is added or lowered is made of a shock-absorbing bulkhead material that can absorb the impact and minimize the occurrence of noise even when the solid urea water impinges on the partition wall part 110. It is possible to improve the quiet operation of the vehicle by reducing the occurrence.

The heating unit 120 converts the urea water in the solid state frozen in the internal space of the urea water storage tank 10 into a liquid state or the partition wall part (eg, to maintain the liquid state without freezing). The urea water in contact with the outer surface of the partition body 112 constituting the 110 is heated.

The heating unit 120 is electrically connected to an external power source and is illustrated and described as being capable of generating heat in an electric resistance method when power is applied, but the present invention is not limited thereto and may be variously changed.

The heating unit 120 is individually connected to a plurality of connection heating wires 124 extending from the plurality of first heating wires 122 electrically connected to the polarity of any one of the anode and the cathode of the power supply of the not shown, The second heating wire 126 is electrically connected to the remaining polarity.

The heating unit 120 may be provided to be exposed to the outer surface of the body of the partition wall portion 120 made of an insulating material or may be embedded in the body, and the first and second heating wires 122 and 126 selectively connected to the anode and the cathode. Each end of the) is exposed to the outside through the fixing jaw (114).

In addition, the plurality of connection heating wires 124 have different heights so as to electrically connect the first heating wire 122 and the second heating wire 126 in accordance with the change in the water level of the urea stored in the urea water storage tank 10. It is wired to have.

The plurality of connection lines 124 are illustrated and described as being provided with a waveform that is repeated at regular pitch intervals between the first and second columns 122 and 126 that are vertically wired to the partition body 112, but is not limited thereto. It may be provided in a straight form or a mountain form repeated at regular pitch intervals.

Accordingly, as shown in FIG. 3A, when the usage amount of the urea water stored in the urea water storage tank 10 increases and becomes about 2/3 lower than the full water level, the urea is located below the corresponding water level height. The first heating wire 122 and the second heating wire 126 connected to one end of at least one connection heating wire 124 in contact with the number are electrically connected to each other to generate heat for each corresponding heating wire while the external power is supplied. It will provide heat to the water level.

In addition, as shown in Figure 3b, when the urea water replenishment is made into the urea water storage tank to reach the full water level, which is connected to one end of the plurality of connection heating wires 124 located below the corresponding high water level to contact the urea water The first heating wire 122 and the second heating wire 126 are electrically connected to each other to generate heat for every heating wire while supplying external power, thereby providing heat to the urea water.

In this case, the power supply is interrupted by the first and second heating wires and the connecting heating wires positioned above the corresponding water level, thereby reducing power consumption and thus reducing power consumption.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be apparent to those of ordinary skill in the art.

10-urea water storage tank 110-bulkhead
112-bulkhead body 114-fixed jaw
118-Through Hole 120-Heating Section
122-First heating wire 124-Connecting heating wire
126-Second heating wire

Claims (8)

delete An apparatus for heating a urea water frozen in the urea tank to a liquid state or to maintain a liquid state,
At least one partition wall part 110 having an upper end fixed to the urea water storage tank 10 so as to be spaced apart from an inner surface of the urea water storage tank 10 so that a part of the body is immersed in the urea water; And
A heating part (120) provided in the partition part (110) while being electrically connected to an external power source to heat the urea water in contact with the partition part (110);
The partition 110 is inserted through the fixing hole 12 formed through the upper surface of the urea water storage tank 10 to be spaced apart from the bottom or inner surface of the urea water storage tank 10 at a predetermined distance. A partition body 112 disposed; And
Partition wall type heating device for a urea water storage tank, characterized in that consisting of a fixing jaw 114 protruding to the upper end of the partition body 112 to be locked to the fixing hole (12). The method of claim 2, wherein the partition body 112 is provided with a plurality of through holes 118 formed through the outer surface
Bulkhead type heating device for urea water storage tank characterized in that. The method of claim 2, wherein the partition body 112 is a shock-absorbing partition member that can reduce the generation of noise while absorbing the impact generated during the collision with the urea water in the solid state.
Bulkhead type heating device for urea water storage tank characterized in that. The method of claim 4, wherein the partition body 112 is formed of rubber or resin
Bulkhead type heating device for urea water storage tank characterized in that. The method according to claim 2,
The heating unit 120 is individually connected to the plurality of connection heating wires 124 extending from the plurality of first heating wires 122 electrically connected to one of the positive and negative polarity of the power supply, and the other polarity and A partition type heating device for a urea water storage tank comprising a second heating wire (126) electrically connected. The method of claim 6, wherein the plurality of connection heating line 124 is
Wired to different heights so as to electrically connect between the first heating wire 122 and the second heating wire 126 according to the change in the water level of the urea water stored in the urea water storage tank 10.
Bulkhead type heating device for urea water storage tank characterized in that. The method of claim 5, wherein the plurality of connection heating wire 124 is
It is provided in the form of a waveform or a mountain, or is provided in a linear form that is repeated with a predetermined pitch interval between the first and second column wires 122 and 126 that are perpendicular to the partition body 112.
Bulkhead type heating device for urea water storage tank characterized in that.

Images