KR19980060981U - Hot plate and heating coil fixing structure for smoke filter - Google Patents

Abstract

The present invention relates to a hot plate and heating coil fixing structure for a soot filtration device, the heating coil 20 and the heating coil which is connected to the connection terminal of the electrical ignition part is formed in the planar bent portion 21 is repeated repeatedly in an arc shape; The filter medium 2 is interposed between the hot plate 30 reflecting the radiant heat generated from the 20 and the electrical ignition unit housing 10 in which a through hole 11 is formed in the center so that the exhaust gas flows through the hot plate 30. In the soot filtering device connected to the can housing (1), a square groove (31) is formed at a predetermined interval on the outer circumference of the hot plate (30), and the electrical ignition housing (10) for accommodating the hot plate (30). The fixing piece 12 is formed at predetermined intervals in the inner circumference of the through hole 11, and a fixing groove 41 having a predetermined depth is formed at one side to be coupled to the fixing piece 12, and a heating coil at one side thereof. Thread formed with a semi-circular fitting groove 42 for fixing the bent portion 21 of the (20) It is configured to be installed as the support 40 of the body bar, while supporting the bent portion 21 of the heating coil 20 and at the same time the support 40 to prevent the left and right rotation of the hot plate 30, the electrical ignition unit By the fixed installation in the housing 10, it is possible to prevent the flow of the heating coil 20 and the deformation of the thermal stress due to the body vibration, and also to the one side of the hot plate 30 and the filter medium for the heating coil 20 Elimination by friction wear can improve the combustion efficiency of the exhaust gas and prevent the damage of parts.

Description

Hot plate and heating coil fixing structure for smoke filter

The present invention relates to a hot plate and heating coil fixing structure of a soot filtration device that captures soot of exhaust gas discharged from an engine of a diesel vehicle and periodically burns soot, and more specifically, improves the housing of an electric ignition part to exhaust the exhaust gas. It relates to a hot plate and heating coil fixing structure for a soot filtration device to fix the heating coil and the hot plate burning the gas to improve the stable combustion of the exhaust gas and the regeneration efficiency of the filter medium.

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 regenerates is interposed. A heating coil (c) for burning particulate matter of exhaust gas is disposed on the front surface of the filter medium (b), and a hot plate (d) reflecting radiant heat generated from the heating coil (c). ) And a connection terminal part (e) capable of connecting the heating coil (c) is provided, and is configured as an electrical ignition part housing (g) formed with a through hole (f) through which exhaust gas passes.

The shape of the heating coil (c) is bent so as to maximize the heat generation on the front surface of the hot plate (d) and the filter medium (b), each end is bent to a predetermined length and coupled to the connection terminal of the electrical ignition unit From the bent portion, the planar curved portion c1 is formed so as to be continuously repeated in an arc shape.

In the process configured to discharge the exhaust gas from the engine when the vehicle is configured as described above, the exhaust gas flows into the can housing 1 through the through hole f of the electrical ignition unit housing g, and the electrical ignition unit Heat is generated in the heating coil c connected to the connection terminal part e of the housing g to burn the exhaust gas. In connection with this, the hot plate (d) installed in contact with one side of the heating coil (c) reflects the radiant heat of heat generated from the heating coil (c) to filter particulate matter of the exhaust gas burned through the filter medium (b). Play it.

However, the heating coil (c) having the shape as described above is assembled in the form of being in contact with the front surface of the hot plate (d) and the filter medium (b), except for the connection terminal (e) of the electrical ignition housing (g), The heating coil c may be detached from the connecting terminal part e of the electrical ignition housing g, and the hot plate d is connected to the housing of the electrical ignition unit after detachment of the heater coil c. The left and right flow in (g) is deformed or displaced by the excessive heating stress (c) of the heating coil (c) due to excessive thermal stress during combustion of the friction between the filter material (b) and one side of the hot plate (d) There was a problem that the wear is advanced and ultimately the exhaust gas can not be stably combusted or filtered.

The present invention has been made to solve the above problems, by applying a support that can support the heating coil for burning the hot plate and the exhaust gas in the housing of the electrical ignition unit of the smoke filtration device stable combustion of exhaust gas The purpose is to improve the reaction and filtration regeneration efficiency.

According to the present invention for achieving the above object, a heating coil connected to the connection terminal of the electrical ignition unit is formed in a planar curved portion to be repeated repeatedly in an arc shape, a hot plate for reflecting the radiant heat generated from the heating coil, and a hot plate A soot filtration device installed in a can housing including a filter medium in an electrical ignition housing having a through hole formed at a center thereof so that exhaust gas flows through the filter, wherein a square groove is formed at predetermined intervals on an outer circumference of the hot plate to accommodate the hot plate. The fixing piece is formed at predetermined intervals in the inner circumference of the through hole of the electrical ignition unit housing, and a fixing groove having a predetermined depth is formed on one side to be coupled to the fixing piece, and has a semicircular shape for fixing the bent portion of the heating coil. It provides a heating plate and heating coil fixing structure for the soot filtration device installed with the support of the rectangular body formed with the fitting groove. Writing is achieved.

1 is an exploded perspective view showing the configuration of a can housing of a conventional particulate filter.

Figure 2 is a front view showing a state in which the conventional heating coil is installed.

Figure 3 is an exploded perspective view showing the configuration of the soot filtration device applied to the present invention.

4 is a perspective view showing a supporter of the present invention.

5 is a front view showing a state in which the support according to the present invention is mounted on the housing of the electrical ignition unit of the particulate filter.

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

10: electrical ignition housing 11: through hole

12: fixed piece 20: heating coil

21: bend portion 30: hot plate

31: square groove 40: support

41: fixing groove 42: fitting groove

Hereinafter, with reference to the accompanying Figures 3 to 5 showing an embodiment of the present invention in more detail as follows.

Attached Figure 3 is an exploded perspective view showing the configuration of the soot filtration device is applied to the present inventors, Figure 4 is a perspective view showing the support of the present invention, Figure 5 is a soot filter apparatus according to the present invention It is a front view which shows the state attached to the electrical ignition housing of this.

The heating coil 20 is installed in the electrical ignition unit of the soot filtration unit and has a heating coil 20 having a flat curved portion 21 in a circular arc shape so as to continuously burn the exhaust gas uniformly, and is disposed in the housing of the electrical ignition unit. The filter medium 2 is interposed between the hot plate 30 reflecting the radiant heat generated from the 20 and the electrical ignition unit housing 10 in which a through hole 11 is formed in the center so that the exhaust gas flows through the hot plate 30. In the smoke filtering device installed in the can housing (1), a rectangular groove 31 is formed at a predetermined interval on the outer circumference of the hot plate 30, the electrical ignition housing 10 for receiving the hot plate 30 The fixing piece 12 is formed at predetermined intervals in the inner circumference of the through hole 11, and a fixing groove 41 having a predetermined depth is formed at one side to be coupled to the fixing piece 12, and a heating coil at one side thereof. Semi-circular fitting groove 42 for fixing the bent portion 21 of the 20 is formed It is comprised by the support 40 of a rectangular body, and is comprised.

The bent portion 21 fitted into the fitting groove 42 of the support 40 of the bent portion of the heating coil 20 is an inclined portion having a predetermined angle so that one side of the heating coil 20 can contact the filter medium ( To form L).

And, one side of the body of the support 40 is formed to be curved to match the inner circumference of the electrical ignition housing (10).

In addition, the support 40 is preferably formed of a ceramic material that can have durability against the thermal stress of the heating coil 20 during combustion of the exhaust gas.

Referring to the action on the hot plate and heating coil flow prevention structure for the soot filtration device of the present invention configured as described above are as follows.

First, the exhaust gas discharged through the manifold connected from the engine according to the driving state of the vehicle passes the predetermined amount of exhaust gas into the can housing 1 by opening and closing the valve in the exhaust pipe connected to the manifold. In the normal operation of filtering and regenerating the particulate matter through the filter medium (2), in order to install the heating coil 20 on the electrical ignition housing 10 side in the can housing (1), the electrical ignition housing ( 10 to the fixing piece 12 formed in the through-hole 11 of the present invention to match the support 40 and the fixing groove 41 formed in the support 40, and then fixed using a long fly tongs The piece 12 is bent into the fixing groove 41 to fix the support 40.

In the same manner as above, another support 40 is fixed to the support piece 40 corresponding to the position of the fixing piece 12, and then a portion of the square groove 31 formed in the hot plate 30 to the support 40. In accordance with this, it is interposed in the electric ignition housing 10.

In such a state, the hot plate 30 is located at the rear of the through hole 11 of the electrical ignition unit 10, and the support 40 is formed to protrude a predetermined height from one side of the hot plate 30, ie, The fitting groove 42 formed in the earth 40 is protruded.

On the other hand, one side of the body of the support 40 is curved in an arc shape having the same diameter as the inner diameter of the electrical ignition housing 10, the hot plate 30 is left and right in the state in which the support 40 is interposed. In the state that can not be rotated, the fixing of the heating coil 20 is part of the bent portion 21 of the heating coil 20 in the fitting groove 42 of the support 40, as shown in Figure 4 attached , It hangs and is fixed.

In the state where the heating coil 20 is fixed to the support 40 as described above, the inclined portion L formed in the bent portion 21 of the heating coil 20 is fitted into the fitting groove 42 of the support 40. When fixed, one side of the heating coil 20 is in contact with the hot plate 30 and the other side is in contact with the front of the filter medium 2 to facilitate radiant heat emitted from the heating coil 20 during combustion of the exhaust gas. It can be reflected to improve the heat rise efficiency to help filter regeneration of the filter medium (2) installed in the can housing (1).

Accordingly, the heating coil 20 serves to firmly fix the hot plate 30 interposed in the electrical ignition housing 10 on one side, thereby preventing a shaking phenomenon due to vibration of the vehicle body. In addition, it is possible to burn the exhaust gas particulate matter introduced into the electric ignition apparatus in a stable state.

As described above, the present invention supports the bent portion 21 of the heating coil 20 and at the same time fixing the support 40 to prevent the left and right rotation of the hot plate 30 to the electrical ignition unit housing 10 By installing, it is possible to prevent the flow of the heating coil 20 and deformation of the thermal stress in accordance with the body vibration, and also to eliminate the wear caused by friction of one side of the heating plate 30 and the filter medium against the heating coil 20 It is a useful design that can improve the combustion efficiency of exhaust gas and prevent damage to parts.

Claims (2)

A flat curved portion 21 is formed to be continuously repeated in an arc shape, and a heating coil 20 connected to a connection terminal of an electrical ignition portion, a hot plate 30 reflecting radiant heat generated by the heating coil 20, and a hot plate. In the soot filtration device installed in the can housing (1) with the filter medium (2) interposed in the electrical ignition housing (10) having a through hole (11) in the center so that the exhaust gas flows through the 30, the hot plate ( Square groove 31 is formed at a predetermined interval on the outer periphery of the 30, the fixing piece 12 at a predetermined interval in the inner periphery of the through-hole 11 of the electrical ignition housing 10 for receiving the hot plate 30. Is formed, a fixing groove 41 having a predetermined depth on one side to be coupled to the fixing piece 12 is formed, a semi-circular fitting groove for fixing the bent portion 21 of the heating coil 20 on one side ( A soot filtration plant, characterized in that configured to be installed as a support 40 of the rectangular body 42 is formed Tooth plate and fixing coil fixing structure. The hot plate and heating coil fixing structure for the particulate filter according to claim 1, wherein the support is made of ceramic.