KR19980060982U - Hot plate and insulation protection structure for smoke filter - Google Patents

Abstract

The present invention relates to a hot plate and a heat insulating material protection structure for a soot filtration device, it is wrapped around the outer shaft of the hot plate 3 installed inside the electrical ignition housing (2) to prevent heat loss of the heating coil (6) and impact In the heat insulating material 4 of the soot filtration device to be relaxed, a circular contact portion 5-1 is formed to contact the outer periphery of the hot plate 3, and one end of the contact portion 5-1 is a heat insulating material 4. A bent portion 5-2 having a predetermined width is formed to be in contact with one end of the c), and a part of the contact portion 5-1 is installed by a protective ring 5 having an opening portion 5-3 having a predetermined interval. The bar is wrapped in a circular protective ring 5 having a predetermined thickness on the outer circumference of the hot plate 3, and the insulating surface 4 is wrapped on the outer surface of the protective ring 5 to be interposed in the electrical ignition housing 2. By doing so, stable combustion and filtration regeneration of exhaust gas can be prevented to prevent air pollution due to excessive emission of smoke. All.

Description

Hot plate and insulation protection structure for smoke filter

The present invention collects the fumes of exhaust gas discharged from the engine of a diesel vehicle and insulates the fumes periodically, and reflects the radiant heat of the heating coil that burns the exhaust gas, and is installed on the outer circumference of the hot plate to increase the combustion efficiency. The present invention relates to a hot plate and a heat insulating material protection structure for a soot filtration device, which protects from exhaust gas to prevent damage to the heat insulating material and the hot plate.

In general, the development of technology to purify particulate matter from diesel engines when the concentration exceeds the environmental standard is strongly required. As a technique for removing particulate matter, it is necessary to improve the design of the engine itself. It is mainly classified into combustion material suppression, improvement of combustion efficiency using additives, and post-treatment of particulate matter. The improvement of the engine itself or the use of additives has a fundamental limitation in suppressing the generation of soot, and the situation of removing by post-treatment is being sought because of causing secondary pollution of the atmosphere.

In the post-treatment method of the particulate matter, the filter medium accumulates the particulate matter contained in the exhaust gas, and burns it to periodically regenerate the filter medium. Since the standard value of the back pressure increases and the fuel is consumed excessively, it is necessary to apply the auxiliary heat in addition to the self-heat of the exhaust gas of the engine to burn the collected soot. The exhaust gas was forcibly burned to remove particulate matter from the exhaust gas.

In the related art, as shown in FIG. 1, an exploded perspective view of an internal component of a can housing connected to an manifold of an engine is illustrated. Looking at the structure, exhaust gas is filtered in a cylindrical can housing a. A filter medium (b) that accumulates and reproduces is interposed, and a heating coil (c) for burning particulate matter of exhaust gas is disposed on the front surface of the filter medium (b), a hot plate (d) reflecting radiant heat generated by the heating coil, Electric ignition with a heat insulating member (e) wrapped around the outer circumference of the heating plate (d) to prevent heat loss of the heating coil (c) and connecting the heating coil (c) with a heat insulating material (e) for connecting the heating coil (c). It is provided and comprised by the sub housing g.

The insulating material (e) is preferably used as an interlan mat of 3M (3M) of 4.5mm thickness in the form of a mat.

The installation of the heat insulating material (e) is interposed between the hot plate (d) inside the can housing (a), and cut and wound the heat insulating material (e) having a predetermined width by the outer circumference of the hot plate (d) and then intervening at the same time. Fix the hot plate (d) with fixing parts.

Then, one side of the heating plate (c) is installed in contact with one surface of the heating coil (c), and the other side of the heating coil (c) in contact with the front surface of the filter medium, and then the can housing (a) is electric Match with the ignition part housing (g) and fix it by welding to complete the assembly.

In this state, the exhaust gas is discharged from the engine during operation of the vehicle and passes through the exhaust gas discharge pipe (not shown), and the exhaust gas is heated on the side of the electric ignition housing (g) installed at one side of the can housing (a). In this case, electricity is generated in the heating coil (c) connected from the connection terminal (f) of the electrical ignition housing (g) to burn the particulate matter contained in the exhaust gas.

On the other hand, the hot plate (d) in contact with the heating coil (c) in the above state reflects the radiant heat when the heat of the heating coil (c) to improve the combustion performance, the heat insulating material wrapped around the outer periphery of the hot plate (d) (e) prevents heat loss of the hot plate (d) and the heating coil (c), and serves to mitigate the impact on the body vibration.

However, the heat insulating material (e) which serves as described above is insulated (e) due to excessive heat generation in the process of burning a plurality of exhaust gases flowing through the hot plate (d) installed on the through side of the electrical ignition housing (g). Is deformed so that exhaust gas flows into the inner diameter of the electrical ignition housing (g) and the gap between the heat insulating material (e) to accumulate unburned particulate matter, thereby damaging the heat insulating material (e) and causing unstable combustion. Thereby, there is a problem of polluting the atmospheric environment by releasing excessive soot that the filtration and regeneration effect of the exhaust gas is sharply lowered.

The present invention is devised to solve the above problems, by applying a protection ring to protect the heat insulating material wrapped around the hot plate in the can housing to control the exhaust gas during the combustion process, accumulation of exhaust gas The purpose is to improve the combustion and filtration regeneration efficiency by preventing damage to the insulation and hot plate.

According to the present invention for achieving the above object, in the heat insulating material of the soot filtration device that is wrapped around the outer axis of the hot plate installed inside the electrical ignition unit housing to prevent heat loss of the heating coil and to mitigate the impact, the outer side of the hot plate A circular contact portion is formed to be in contact with the circumference, and one end of the contact portion is formed with a bent portion having a predetermined width to contact one end of the heat insulating material, and a portion of the contact portion is a hot plate for a soot filtration device provided with a protective ring having an opening of a predetermined interval. And by providing insulation protection.

1 is an exploded perspective view showing a can housing configuration of a conventional soot filtration device.

2 is a partial longitudinal cross-sectional view of a can housing showing a state in which a heat insulating material is mounted on a hot plate of a conventional particulate filter.

Figure 3 is a perspective view showing a protection ring of the present invention.

Figure 4 is a partial longitudinal cross-sectional view of the can housing showing a state in which the protection ring according to the present invention mounted on the hot plate of the soot filtration device.

* Explanation of symbols on the main parts of the drawings *

2: electric ignition housing 3: heat plate

4: heat insulating material 5: protection ring

5-1: Contact portion 5-2: Bending portion

5-3: Opening section 6: Heating coil

Hereinafter, with reference to the accompanying Figures 3 and 4 showing an embodiment of the present invention in more detail as follows.

3 is a perspective view showing the protection ring of the present invention, Figure 4 is a partial longitudinal cross-sectional view of the can housing showing a state in which the protection ring according to the present invention mounted on the hot plate of the soot filtration device.

Insulation material (4) wrapped around the outer shaft of the hot plate (3) installed inside the electrical ignition housing (2) connected to the can housing (1) of the soot filtration device to prevent heat loss of the heating coil (6) and to mitigate impact. ), An arc-shaped contact portion 5-1 is formed to contact the outer circumferential surface of the hot plate 3, and one end of the contact portion 5-1 is in contact with one end of the heat insulating material 4 to exhaust. A bent portion 5-2 having a predetermined width capable of controlling gas is formed, and the contact portion 5-1 and a portion of the bent portion 5-2 have a predetermined tension in the inner diameter of the electrical ignition portion housing 1. It is installed with a protective ring (5) formed with openings (5-3) of a predetermined interval to be guided through.

The thickness of the protective ring 5 is preferably formed about 0.8 ~ 1mm so as to be airtight with respect to the exhaust gas that can be introduced from the outer periphery of the heat insulating material (4) and the hot plate (3).

In addition, the material of the protective ring 5 is preferably made of stainless steel with durability so as to prevent wear due to the accumulation of exhaust gas.

Reference numeral 7 denotes a filter material, and 8 denotes a first insulating material wrapped around the outer periphery of the filter material.

Referring to the action on the hot plate and heat insulating material protection structure for the soot filtration device of the present invention configured as described above are as follows.

First, in order to install the heat insulator 4, the inner circumferential contact portion 5-1 of the protection ring 5 is brought into contact with the outer circumference of the hot plate 3 installed inside the electric ignition housing 2. Here, the bent portion 5-2 formed to be connected to the contact portion 5-1 of the protective ring 5 is wrapped in a form protruding outward with respect to the contact portion 5-1.

On the other hand, the opening portion 5-3 is formed on one side of the protective ring 5, and the bending portion 5-2 has a predetermined thickness in a wrapped form, rather than being inserted and fixed to the diameter of the hot plate 3. After wrapping the insulating material (4) having it is interposed in the electrical ignition housing (2), the hot plate 3 is fixed to a separate component not shown.

Then, one side of the heating coil 6 is installed in contact with one side of the heating plate 3 in the same manner as in the prior art, and the other side of the heating coil 6 is installed in contact with the front surface of the filter medium 7. The can housing 1 is fixed to the electrical ignition housing 2 and fixedly installed by welding to complete the assembly.

When the assembly is completed as described above, in the combustion of the exhaust gas discharged from the engine according to the driving of the vehicle, the exhaust gas is a hot plate 3 installed on the side of the electrical ignition unit housing 2 installed on one side of the can housing 1. After passing through, the connection terminal of the electrical ignition housing 1 generates electricity in the heating coil 6 to burn particulate matter contained in the exhaust gas.

On the other hand, the hot plate 3 in contact with the heating coil 6 in the above state reflects the radiant heat when the heat of the heating coil 6 to improve the combustion performance, the protection wrapped around the outer periphery of the hot plate (3) The ring 5 prevents heat loss of the heating coil 6 in a non-contact state between the heat insulating material 4 and the hot plate 3, and serves to alleviate the impact on the vehicle body vibration.

In addition, the protective ring 5 has a bent portion 5-2 formed at one side of the contact portion 5-1 to flow through the hot plate 3 from the through hole 2a of the electrical ignition portion housing 2. When the exhaust gas is prevented from passing to the outside of the heat insulating material 4, the outer peripheral surfaces of the heat insulating material 4 and the hot plate 3 can be prevented from accumulating particulate matter from the wet exhaust gas, and the outer circumference of the filter material 7 It is possible to protect the first heat insulating material (8) surrounding the from the exhaust gas.

As described above, the present invention wraps and protects the circular protective ring 5 having a predetermined thickness on the inner surface of the heat insulating material 4 installed on the outer circumference of the hot plate 3, that is, the outer circumference of the hot plate 3. The outer surface of the ring 5 is enclosed in the insulating material 4 and interposed in the electrical ignition housing 2 so that stable combustion and filtration regeneration of the exhaust gas can be prevented to prevent air pollution due to excessive emission of smoke. There is a useful effect.

Claims (2)

In the heat insulating material (4) of the soot filtration device that is wrapped around the outer shaft of the hot plate (3) installed inside the electrical ignition housing (2) to prevent heat loss of the heating coil (6) and to mitigate the impact, the hot plate ( A circular contact portion 5-1 is formed to contact the outer periphery of 3), and one end of the contact portion 5-1 is bent portion 5-2 having a predetermined width so as to contact one end of the heat insulating material 4. Is formed, a portion of the contact portion (5-1) is a hot plate and heat insulating material protection structure for a soot filtration device, characterized in that configured to be installed as a protective ring (5) having an opening (5-3) of a predetermined interval. The hot plate and insulation protection structure for a soot filtration device according to claim 1, wherein the protective ring (5) is made of stainless steel.