KR200152395Y1 - Overflow pipe structure of water tank - Google Patents

Abstract

The present invention relates to the structure of the overflow pipe inside the water tank of the gas boiler, more specifically, the length of the blocking plate constituting the overflow pipe is reduced to facilitate the connection of the drain pipe from the outside and the injection generated during the mold manufacturing The invention relates to an overflow tube structure of a water tank whose structure is simplified to prevent unmolding or long injection time.

The overflow pipe structure of the water tank of the present invention is formed by removing a predetermined length from the lower end of one side edge of the water tank 15 to the upper side and forming a space with the blocking wall 17c embedded inwardly, and removing water to the upper side. An internal blocking wall 17b is formed to allow excess heating water to flow into the tank 15, and a drain 19 is connected to the drain pipe 21 to a space removed from the lower end of the internal blocking wall 17b. Characterized in that configured.

Description

OVERFLOW PIPE STRUCTURE OF WATER TANK}

The present invention relates to the structure of the overflow pipe inside the water tank of the gas boiler, more specifically, the length of the blocking plate constituting the overflow pipe is reduced to facilitate the connection of the drain pipe from the outside and the injection generated during the mold manufacturing The invention relates to an overflow tube structure of a water tank whose structure is simplified to prevent unmolding or long injection time.

In general, a gas boiler burns gas using fuel, heats water using heat generated during the combustion process, and circulates the heated water along a heating pipe in a room to heat the bathroom, sink, and the like. It has a function of supplying hot water. In particular, since the heating water is reduced by spontaneous evaporation when heated to a high temperature, a water tank is used to replenish such evaporation and to relieve the expansion pressure generated as it is heated to a high temperature.

Figure 1 is a configuration diagram showing an example of a conventionally used gas boiler with reference to this it will be briefly described the operation of the boiler and the role of the atmospheric opening type water tank. When the boiler is operated by the user, the gas valve 1 is opened to supply gas. The supplied gas is ignited after entering the burner 3 to generate hot heat. The generated high temperature heat rises and heats the heat exchanger 5. Since the heating water flows inside the heat exchanger 5, the heating pipe is circulated through the heating supply pipe 11 after being heated. At this time, it is forcedly circulated by a circulation pump.

The heating water releasing heat while circulating is returned to the boiler through the heating return pipe 13 at a relatively lower temperature than the heating supply water. The returned heating water passes through the water tank 15 and then passes through the circulation pump to flow into the heat exchanger 5 and is heated. Referring to FIG. 2, the atmospheric opening type water tank 15 has a corner at its corner so that the heated heating water overflows to the outside in order to relieve pressure on the water tank 15 when the volume is expanded by high temperature. An overflow pipe 17 is formed.

The overflow pipe 17 is formed integrally with the water tank by forming a blocking plate 17a at one edge of the water tank 15, the lower end thereof is shielded and the cylindrical drain 19 is protruded. A drain pipe 21 is connected to the drain 19 and the other end of the drain pipe 21 is connected to the sewer.

Due to its structure, the overflow pipe 17 of the water tank 15 having the structure as described above causes the following problems in manufacturing. That is, since the depth of the water tank 15 is deep, the blocking plate 17a is also designed to be long, and a part which is unmolded at the time of injection is generated by such a blocking plate 17a, and it takes a long time for injection. Accordingly, there was a problem such as the occurrence of defective products and rising production prices.

The present invention is devised to solve the above problems, the object of the present invention is to reduce the length of the blocking plate constituting the overflow pipe is easy to connect the drain pipe from the outside and injection molding not generated during the mold manufacturing or It is to provide an overflow pipe structure of a water tank whose structure is simplified to prevent the injection time from taking a long time.

Another object of the present invention is to provide an overflow pipe structure of a water tank that can reduce the cost and reduce the occurrence of defects in the overflow pipe by simplifying the structure of the water tank.

The overflow pipe structure of the water tank of the present invention for achieving the above object, to remove a predetermined length from the lower end of the one side edge of the water tank to the upper side to form a space with the outer blocking wall embedded in the inside, An inner blocking wall is formed to allow excess heating water to flow into the water tank on the upper side, and a drain opening is connected to the drain pipe to a space removed from the lower end of the inner blocking wall.

1 is a schematic configuration diagram of a gas boiler conventionally used;

2 is a perspective view of the water tank of FIG.

3 is a perspective view of a water tank having an overflow pipe structure according to the present invention.

Explanation of symbols for the main parts of the drawings

1: gas valve, 3: burner,

5: heat exchanger, 7: exhaust flue,

9: exhaust fan, 11: heating supply pipe,

13: heating return pipe, 15: water tank,

17: overflow pipe, 17a, 17b: blocking plate,

17c: barrier, 19: drain,

21: drain pipe,

Hereinafter, the overflow pipe structure of the water tank of the present invention will be described in detail with reference to the accompanying drawings. 2 and 3 block the water tank 15 from the outside for convenience of explanation and the upper cover (not shown) to which the float switch is coupled is removed.

3 is a perspective view showing an overflow pipe structure of a water tank according to the present invention. As shown, one side edge of the water tank 15, a portion of the very edge where the conventional overflow pipe 17 is located is removed. In this way, the blocking wall 17c is formed to block the water tank 15 from the outside. The barrier wall 17c actually constitutes the inner wall of the water tank 15.

Therefore, it can be seen that a space portion having a length L is formed at the corner at which the overflow tube 17 of the water tank 15 is installed. It is preferable to maximize the length of the space portion L to the extent possible. That is, as the space portion increases, the blocking plate 17c of the overflow pipe 17 decreases, so that the manufacturing advantages increase.

On the upper side of the space portion, an overflow tube 17 constituted by a blocking plate 17b is formed as in the prior art. However, when comparing this with the blocking plate 17a of FIG. 2, it turns out that the length of a board is shortened very much. Therefore, the portion which is unmolded at the time of injection is reduced, and the injection time is shortened.

The drain port 19 is formed in the lower end part of the overflow pipe 17. The drain 19 is for discharging the overflowed heating water through the overflow pipe 17, the end thereof protrudes into the space portion, and has a structure in which the drain pipe 21 is connected to the sewer.

According to the present invention as described above it is easy to connect the drain pipe from the outside by reducing the length of the blocking plate constituting the overflow pipe and the advantage that can prevent the injection unmolding or injection time that takes place during the mold manufacturing takes a long time There is this. In addition, the structure of the water tank is simplified as described above, thereby reducing the cost and reducing the occurrence of defects in the overflow pipe.

Although the present invention has been described in detail only with respect to the embodiments described, it will be apparent to those skilled in the art that the present invention may be modified or changed within the spirit and scope of the present invention. something to do.

Claims (1)

A space exposed to the outside of the water tank is formed by a blocking wall 17c embedded inward from the lower end of one side edge of the water tank 15, and excess heating water overflows from the inside of the water tank 15. An inner blocking wall 17b having a height that can be formed is formed at an upper side of the space exposed to the outside, and a space exposed to the outside formed by the blocking wall 17c at the lower end of the inner blocking wall 17b. The overflow pipe structure of the water tank, characterized in that formed by forming a protruding drain 19.