KR100581580B1 - High pressure insulator coupling structure of boiler heat exchanger - Google Patents

Abstract

The present invention relates to a heat exchanger for a boiler, and more particularly, to a high pressure insulator coupling structure of a heat exchanger for a boiler to increase the insulation while preventing the damage of the door due to high voltage while increasing the tightness of the coupling of the high pressure insulator.

The configuration is that the door is mounted to the front of the housing, the outer surface of the door is formed with a protrusion, an installation hole is formed through the door in the protrusion body, the high-pressure insulator is installed in the installation hole heat exchanger In the group; The high pressure insulator has a heat insulating material which is placed on the upper surface of the bulge body and has a pair of through holes and a fixing hole corresponding to the through hole having an installation jaw around it so as to be fitted to the bulge body while surrounding the heat insulating material. It is composed of a mounting cover mounted to the body, a pair of insulators that are fitted and fixed to the fixing hole, respectively, and a pair of electrode rods respectively surrounded by the insulators.

By providing the high-voltage insulator coupling structure as described above, the installation and coupling of the high-pressure insulator is easy, the robustness of the high-voltage insulator is increased, the insulation of the high-voltage insulator is significantly increased, damage of the door by high voltage Has the effect of being prevented.

Boiler, Heat Exchanger, High Insulator, Combined

Description

A high-tension insulator coupling structure for a heat exchanger in a boiler}

1 is a front view showing the interior of the boiler according to the present invention,

2 is an exploded perspective view of a heat exchanger according to the present invention;

3 is an enlarged view illustrating main parts of FIG. 2;

4 is a longitudinal cross-sectional view of FIG. 3;

5 is a longitudinal sectional view showing another embodiment of the present invention;

6 is a front view showing a conventional heat exchanger,

7 is a longitudinal sectional view of the main part showing a coupling structure of a conventional high-pressure insulator according to FIG.

* Explanation of symbols for the main parts of the drawings

1: heat exchanger

   10: housing

   20: door

      21: stone body 22: installation worker

   30: high pressure insulator

      31: heat insulation

         311: through hole 312: auxiliary insulation

      32: Mounting cover

         321: mounting jaw 322: fixing hole 323: fitting jaw

      33: insulator 34: electrode

The present invention relates to a heat exchanger for a boiler, and more particularly, to a high pressure insulator coupling structure of a heat exchanger for a boiler to increase the insulation while preventing the damage of the door due to high voltage while increasing the tightness of the coupling of the high pressure insulator.

In general, a heat exchanger of a boiler burns fuel supplied with air into a housing by means of a burner, and transfers heat generated by the combustion to water circulated through a heat exchange pipe installed around the inside of the housing. To make this happen.

In addition, a high pressure insulator electrically connected to the igniter is provided to ignite the fuel supplied to the burner provided inside the heat exchanger.

Figure 6 is a front view showing a conventional heat exchanger, Figure 7 is a longitudinal cross-sectional view showing the main structure of the coupling structure of the conventional high-pressure insulator according to FIG.

As shown in Figure 6 and 7, the conventional heat exchanger for the boiler, the door 200 is mounted to the front of the housing 100, the protrusion 200 is formed in the outer surface on the door 200, An installation hole 202 is formed through the door 200 in the protruding body 201, and the high pressure insulator 300 is installed in the installation hole 202.

In addition, the high-pressure insulator 300 is a heat insulating material 301 provided on the front surface of the bulge body 201, the mounting plate 302 is mounted on the outer surface of the heat insulating material 301 is mounted on the bulge body 201 And a first electrode rod 303 and a second electrode rod 304 provided on the mounting plate 302, a circular insulator 305 provided around the first electrode rod 303, and the second electrode rod 305. It is composed of a ground terminal 306 attached to the tip of the electrode (304).

By the way, as described above, the heat insulating material and the mounting plate is mounted on the upper surface of the protrusion body, so that the mounting plate together with the heat insulating material may not be firmly coupled to the protrusion body.

In addition, there is a problem in that the second electrode is not provided with an insulator, and a ground terminal is attached to the outer end thereof so that the door is energized when the high voltage flows while the igniter and the power are connected.

In addition, when a high voltage flows through the ground terminal, a spark occurs in the ground terminal, thereby causing a problem that the outer surface of the door is damaged or the ground terminal itself is damaged.

In addition, since the insulators surrounding the sensing rods are formed in a circular shape as described above, the insulators are easily rotated when the insulators are coupled to the mounting plate, and the coupling is very inconvenient, and at the same time, the inside of the insulators is rotated. Since the first electrode is rotated, the positioning of the first electrode and the second electrode into the heat exchanger is very inconvenient.

 Accordingly, the present invention has been made to solve the conventional problems as described above,

The purpose is to increase the tightness of the coupling of the high-pressure insulator, to increase the insulation and to prevent damage to the door by high voltage.

In addition, another object of the present invention is to significantly improve the thermal insulation while improving the bonding of the insulator.

In addition, another object of the present invention is to prevent the rotation when the insulator is coupled, so that the coupling is easy and at the same time easy to position the electrode.

In order to achieve the above object, the present invention is the door is mounted to the front of the housing, the outer body of the door is formed with a projection, the installation hole is formed through the door in the projection body, the installation hole In a heat exchanger for a boiler in which the high pressure insulator is installed; The high pressure insulator has a heat insulating material which is placed on the upper surface of the bulge body and has a pair of through holes and a fixing hole corresponding to the through hole having an installation jaw around it so as to be fitted to the bulge body while surrounding the heat insulating material. It is characterized in that it is composed of a mounting cover mounted to the body, a pair of insulating insulators respectively fitted into the fixing hole and a pair of electrode rods surrounded by the insulating insulators.

In addition, the outer periphery of the fixing hole is characterized in that the fitting jaw surrounding each of the insulating insulator is formed on the outer surface of the installation cover.

In addition, the rear surface of the heat insulating material is characterized in that the auxiliary heat insulating material is integrally formed on the rear surface of the heat insulating material to be filled in the installation hole.

In addition, at least one stop surface is formed on an outer circumferential surface of the insulator, and the insulator having the stop surface is fitted in close contact with the fixing hole and the fitting jaw.

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

1 is a front view showing the interior of the boiler according to the present invention, Figure 2 is an exploded perspective view of a heat exchanger according to the present invention.

As shown in Figure 1 and 2, the boiler is configured to be provided with a heat exchanger (1) inside the case (2).

In addition, the heat exchanger 1 is provided with a housing 10 having a heat exchange pipe therein, the door 20 is mounted to the front of the housing 10, the high-pressure insulator 30 on the door 20 Is installed, the burner 3 is installed toward the inside of the housing 10 from the center of the door 20, the fuel supply pipe 4 is mounted to the front of the burner (3).

In addition, the high pressure insulator 30 serves to ignite to burn the fuel supplied through the fuel supply pipe 4 from the outer surface of the burner 3.

In addition, the high-pressure insulator 30 is fitted into the dolmus body 21 formed on the front of the door 20, through the installation hole 22 formed through the dolmus body 21 and the door 20 It is installed into the housing 10.

3 is an enlarged view illustrating main parts of FIG. 2, and FIG. 4 is a longitudinal cross-sectional view of FIG. 3.

As shown in Figure 3 and 4, the high-pressure insulator 30 is installed in the door 20 of the heat exchanger is a heat insulating material to the upper surface of the protrusion body 21 having an installation hole 22 formed in the door 20. (31) is provided, as long as the installation cover 32 is fitted to the dolmus body 21 in a state surrounding the heat insulator (31), and provided with an insulator (33) in the installation cover (32) A pair of electrode bars 34 are provided.

The heat insulating material 31 is formed by forming a pair of through-holes 311 so that the insulator 33 of the electrode rod 34 passes, respectively, that is, the heat exchanger inside the door 20 through the installation hole 22. It is to serve to block the heat generated in the interior of the transfer to the outside through the installation hole (22).

In addition, the installation cover 32 is a mounting jaw 321 formed toward the rear toward the periphery, a pair of fixing holes 322 formed on the front surface to pass through the insulator 33, respectively, and the fixing hole ( It consists of a fitting jaw 323 is formed to protrude outward around the 322.

The installation cover 32 is to be firmly fixed to the upper surface of the door 20 by fastening the bolt in a state of being fitted to the dolmus body 21 of the door 20 while surrounding the heat insulating material 31, the heat insulating material 31 By being tightly coupled to the dolmus body 21 in the embedded state to facilitate the installation and coupling of the high-pressure insulator (30).

In addition, the mounting jaw 321 is to be fitted to the outer surface of the protrusion body 21 in a state in which the installation cover 32 contains the heat insulating material 31, the thickness of the heat insulating material 31 and the protrusion body ( Since the height of the mounting cover is slightly smaller than the sum of the heights of 21, the mounting jaw 321 presses the heat insulating material 31 when the mounting cover 32 is fastened to the upper surface of the protruding body 21. It comes in contact with the outer circumferential surface of the door 20.

In addition, the fitting jaw 323 formed around the fixing hole 322 is firmly fixed in a state in which the outer circumferential surface thereof is in contact with the insulating insulator 33 inserted through the fixing hole 322 to maintain a horizontal level. It is to be possible.

In addition, the insulation insulator 33 is to facilitate the insulation in a state in which the outer circumferential surface of each of the pair of electrode rods 34 is energized.

The insulating insulator 33 has a stop surface 331 formed on an outer circumferential surface thereof, and the insulator 33 having the stop surface 331 is in close contact with the fixing hole 322 and the fitting jaw 323. By being fitted in a state, the rotation of the insulator 33 is properly prevented when the insulator 33 is coupled through the fixing hole 322 and the fitting jaw 323, and at the same time, the electrode rod 34 is easily positioned.

In addition, since the stop surface 331 serves to stop the insulator 33 from being rotated in the fixing hole 322, the stop surface 331 stops the insulator 33 in the fixing hole 322. The shape of the fixing hole 322 and the fitting jaw 323 may be modified according to the form to be implemented.

Therefore, the high-pressure insulator 30 is configured to be firmly and easily coupled to the door 20 in a simple structure and at the same time improve its insulation.

5 is a longitudinal sectional view showing another embodiment of the present invention.

As shown in FIG. 5, the high-pressure insulator 30 installed on the door 20 of the heat exchanger is insulated from the upper surface of the protruding body 21 having the installation hole 22 formed in the door 20. Is provided, the installation cover 32 is fitted to the protrusion body 21 in a state surrounding the heat insulating material 31 is provided, a pair of electrode rods having an insulator 33 in the installation cover 32 34 is provided and comprised.

The auxiliary insulation 312 is formed integrally with the insulation 31 so that the rear surface of the insulation 31 extends to fill the interior of the installation hole 22.

The auxiliary insulation 312 serves to more closely block the heat generated inside the door 20 from being transferred to the outside through the installation hole 22.

In addition, the auxiliary insulation 312 is fitted into the installation hole 22 in a state formed integrally with the heat insulating material 31, so that the installation cover 32 is more easily seated on the door 20.

As described above, the present invention facilitates the installation and coupling of the high voltage insulator, increases the robustness of the high voltage insulator, significantly increases the insulation of the high voltage insulator, and prevents damage to the door due to high voltage. Have

In addition, the present invention has the effect that the bonding of the insulating insulator is enhanced, the heat insulating property is further enhanced.

In addition, the present invention has the effect that the rotation is prevented when the insulator is coupled, the coupling is easier, the positioning of the electrode is made easier, thereby significantly shortening the assembly and coupling time of the high-pressure insulator.

Claims (4)

In the heat exchanger for the boiler is mounted to the front of the housing, the outer surface of the door is formed with a protrusion, the installation hole is formed through the door in the protrusion body, the high-pressure insulator is installed in the installation hole; The high pressure insulator has a heat insulating material which is placed on the upper surface of the bulge body and has a pair of through holes and a fixing hole corresponding to the through hole having an installation jaw around it so as to be fitted to the bulge body while surrounding the heat insulating material. A high pressure insulator coupling structure of a heat exchanger for a boiler, characterized in that it comprises an installation cover mounted to the body, a pair of insulators inserted into and fixed to the fixing hole, and a pair of electrode rods respectively surrounded by the insulators. The method of claim 1; High-pressure insulator coupling structure of the heat exchanger for the boiler, characterized in that the fitting circumference is formed on the outer circumference of the fixing hole to surround the insulation insulator, respectively. The method of claim 1 or 2; High pressure insulator coupling structure of the heat exchanger for the boiler, characterized in that the auxiliary heat insulating material is integrally formed on the rear surface of the heat insulating material so that the back of the heat insulating material is extended to fill the installation hole. The method of claim 3; At least one stop surface is formed on an outer circumferential surface of the insulator, and the high pressure insulator coupling structure of the heat exchanger for the boiler is characterized in that the insulator having the stop surface is fitted in close contact with the fixing hole and the fitting jaw.

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