KR20110077304A - Drain pipe connerctor of boiler - Google Patents

Abstract

PURPOSE: A drainpipe connector for a boiler is provided to reduce the quantity of components and assembling time by inserting one end of the drainpipe connector into a mounting hole and fixing the other end using a screw. CONSTITUTION: A drainpipe connector(50) for a boiler comprises a support plate(51), an elongated hole part(56), a connection pipe(52), and a fixing plate(53). The support plate is adhered to the bottom surface of a casing of a boiler. The elongated hole part is formed in one end of the support plate. A screw(16) passes through the elongated hole part. The connection pipe is vertically formed in the center of a body. The fixing plate is integrally formed in the outer side of the connection pipe.

Description

Drain pipe connerctor of boiler}

The present invention relates to a drainage connector for a boiler, and is designed to minimize the fastening area by fastening one end of the body by sliding one end of the body into the installation hole drilled in the lower casing and then fastening the other end by one screw. .

In general, a boiler heats water using heat generated in the combustion process using fuels such as gas and oil, circulates the heated water along a heating pipe installed in the room, and heats it in a sink and a bathroom. It has a function of supplying hot water.

In the configuration of the boiler, a burner part 11 capable of generating heat by burning gas into a casing 10 formed with a predetermined width and size is formed as shown in FIG. The heat exchanger 12 for heating and circulating the water is coupled, the other side is connected to the heat exchanger pipe and the cistern 20 for replenishing the water in the heating circulating water, and hot water heat exchanger for direct heat exchange with hot water And a water tank for storing the same, and a control unit for controlling the operation of the burner unit and the function of the internal parts.

In addition, such a boiler is fitted with a soft synthetic resin material and a rubber hose 40 connected to the overflow pipe in the internal water tank and the cisterne 20 so that the water overflowed from the parts is discharged to the outside.

At this time, the hose 40 is a method of passing directly through the installation hole 13 formed in the lower casing 10 and the method of fastening and fastening the drain connector 5 to the installation hole 13 to fix one end portion Is used.

The hose 40 is inserted into the drainage connector 5 for discharging water to the outside by inserting the upper part of the body into the installation hole 13 formed in a circular shape in the lower portion of the casing 10, the screw ( 16) is fixed to both ends.

However, the method of fastening the drainage connector to the installation hole formed at the bottom of the casing as described above is easy to maintain the airtightness inside the boiler, but the process of fixing the connector to the casing is fastened by using two or three screws at both ends of the body. There was a problem that the fixing area and the number of parts is increased by fixing.

Therefore, a number of connecting components should be installed and manufactured under the casing, and interference between parts occurs according to the fastening area of the drainage connector, thereby increasing the size of the casing, and the difficulty of lowering the assembly efficiency due to the constraints caused by the assembly work and the interference of parts. there was.

 In addition, the manufacturing method by directly passing the hose through the installation hole of the casing can shorten the assembly process and time, but there was a closed end in which the airtightness inside the boiler is reduced.

Accordingly, the present invention, in order to solve the problems and difficulties of the prior art as described above, by fastening and assembling the drain connector using only one screw in the state that one end is supported by being fitted into the installation hole of the casing, the assembly time and the fastening area It is to provide a drain connection for the boiler that can be minimized.

Another object of the present invention, when the body is inserted into the installation hole of the casing, and slide the slide so that one end of the body is fitted in its cross-section, the screw hole is positioned in the long hole of the other end to combine the drain connector using one screw It is to provide a drain connector for the boiler to improve the assembly.

Another object of the present invention is to provide a boiler drain connector that can increase the competitiveness of the product through minimizing the installation area of the drain connector while improving the airtightness of the boiler and improving the safety and miniaturization of the boiler.

In order to achieve the above object, the present invention provides an installation in which a water tank installed inside the casing 10 and an overflow tube 21 and one end portion of the hose 40 fitted with one end of the cister 10 are formed under the casing 10 body. In the boiler coupled to the drainage connector 50 fastened to the hole 13 to discharge the water to the outside;

The drain connector 50 is formed with a long hole 56 through which the screw 16 passes through one end of the support plate 51 in close contact with the bottom surface of the casing, and the other end of the connector 50 is formed perpendicular to the center of the body. To the outside, the fixing plate 53 having the fitting groove 54 to be inserted and moved in the end surface of the installation hole 13 is integrally molded.

In addition, the positioning protrusions 15 protruding upwardly to the outside of the installation hole 13 of the casing 10 are formed, and the positioning holes 55 protrude downward from the fixing plate 53 formed in the drainage connector 50. To form a fixed position.

In addition, the installation hole 13 and the fixing plate 53 is formed to have a D shape so that the end face of the installation hole 13 and the end face of the fitting groove 54 are horizontally fixed.

According to the present invention having such a structure, by fitting one end of the drain connector to the end face of the installation hole and fixing the other end by using one screw, the number of parts and assembly time can be shortened.

In addition, the fastening area for fixing the drain connector can be minimized, so that no interference of parts occurs and the overall size of the boiler can be reduced.

Therefore, it is possible to maintain the airtightness inside the boiler, it is a very useful invention that can shorten the manufacturing process and time.

Looking at the configuration and operation and effects of the present invention for achieving the above object with reference to the accompanying drawings as follows.

Figure 2 is an exploded perspective view showing a state in which the drain connector is coupled to the casing of the present invention.

Figure 3a is a cross-sectional view showing a state in which the drainage connector of the present invention is inserted into the installation hole, Figure 3b is a cross-sectional view showing that the drainage connector of the present invention is screwed by the slide movement in the installation hole.

Figure 4 is a cross-sectional view showing a state in which the drain connector is connected to the present invention.

The present invention, the drainage connector 50 for the boiler slides one end of the body into the installation hole 13 perforated in the casing 10 and then slides the other end by fastening one screw to minimize the fastening area. It is configured to be.

That is, as shown in Figure 2 the installation hole 13 perforated to be connected to the water pipe and the overflow pipe 21 and one end of the hose 40 is fitted to the lower portion of the body of the casing 10, the cistern 20 The drainage connector 50 is fixed to the coupling.

The drain connector 50 is formed with a long hole 56 through which the screw 16 passes to one end of the support plate 51 in close contact with the bottom surface of the casing 10, the other end is connected to the vertically formed in the center of the body Outside the 52, a fixing plate 53 having a fitting groove 54 is formed integrally with the end face of the installation hole 13 to be moved.

The drainage connector 50 produced as described above was assembled and fixed to the bottom surface of the casing 10 so that the hose 40 was inserted into the connection pipe 52 to discharge water through the lower outlet.

In addition, the fixing plate 53 of the horizontal state, such as the support plate 51 is formed to protrude from the outer diameter of the connecting pipe 52, the mounting groove 54 is provided between the support plate 51 and the fixing plate 53 so that the installation hole The fitting groove 54 is fitted to the cross section of (13).

At this time, it is preferable that the reinforcing pieces are formed integrally with the connecting pipe 52 to both sides of the fixing plate 53 to prevent the flow and damage of the fixing plate 53.

In addition, the support plate 51 is provided with a long hole 56 through which the screw 16 passes in the opposite direction in which the fixing plate 53 is formed, and the screw 16 passes therethrough to the fastening hole 14 of the casing 10. It was screwed in, and the lower part was made to be integrally molded with the outlet.

Then, two positioning protrusions 15 protruding upward toward the outside of the installation hole 13 of the casing 10 are formed, and the positioning hole 55 is disposed below the fixing plate 53 formed in the drain connector 50. Causes protrusions.

Positioning hole 55 of the fixing plate 53 is coupled to be positioned inside the positioning projection 15, so that the long hole 56 is correctly positioned in the fastening hole 14 when assembling the drain connector 50. .

In addition, since the positioning tool 55 is in close contact with the positioning protrusion 15 inside, the flow preventing and binding force of the drain connector 50 is increased.

As such, the connecting pipe 52 and the fixing plate 53 of the drain connector 50 are formed to have a D shape as a whole, and thus the shape of the installation hole 13 is also drilled into the same D shape.

In addition, when the connecting pipe 52 and the fixing plate 53 is formed to have an elliptical shape, it is preferable that the shape of the installation hole 13 is also manufactured by drilling the same elliptical shape.

That is, since the drain connector 50 is installed by inserting the circular connecting pipe 52 and the protruding fixing plate 53 into the casing 10, the shape of the installation hole 13 is changed according to the shape of the inserted portion. Transformed.

Therefore, the process of inserting and coupling the drainage connector 50 to the installation hole 13 as shown in FIGS. 3 and 4 is as follows.

As shown in FIG. 3a, when the drainage connector 50 is inserted into the installation hole 13 drilled in the shape of the connection pipe 52 and the fixing plate 53, the support plate 51 having a larger area than the installation hole 13 is provided. Is in close contact with the bottom surface of the casing (10).

At this time, the fastening hole 14 formed in the lower portion of the casing 10 is covered by the support plate 51 is not exposed.

Then, as shown in FIG. 3b, when the end surface of the installation hole 13 is slid to move the drain connector 50 to the side in the state of being positioned at the lower portion of the fixing plate 53, the other end is located in the fitting groove 54 The fastening hole 14 is exposed to the long hole 56 formed in the portion.

At this time, the position adjustment hole 55 is formed in the lower position of the fixing plate 53 in the positioning projection 15 so that the fastening hole 14 is exposed in the long hole 56 by moving the drain connector 50 accurately. To be moved.

That is, as shown in Figure 5 is moved to the positioning adjustment hole (15) formed in the lower position of the fixing plate 53 to the positioning projection (15) formed on the outside of the installation hole 13, the drainage connector 50 is accurately coupled The support plate 51 is fixed to the casing 10 using the screw 16.

Therefore, one end is fixed by inserting and sliding the drain connector 50, and the other end is screwed and fixed, so that the area of the support plate 51 can be minimized, and the assembly work is easy.

1 is an overall assembly view of a boiler to which the prior art is applied.

Figure 2 is an exploded perspective view showing a state in which the drain connector is connected to the casing.

Figure 3a is a cross-sectional view showing a state in which the drain connector is inserted into the installation hole of the present invention.

Figure 3b is a cross-sectional view showing that the present invention is screwed to the drain connector is moved in the installation hole.

Figure 4 is a cross-sectional view showing a state in which the present invention is connected to the drain connector.

* Explanation of symbols used in the main part of the drawing *

10-casing 13-mounting hole

15-Positioning Projection 20-Cistern

21-overflow tube 40-hose

50-Drainage Connection 51-Support Plate

52-connector 53-retaining plate

54-fitting groove 55-Positioning knob

56-Major

Claims (5)

Drainage connector in which the water tank installed inside the casing 10 and the overflow pipe 21 of the cister 20 and the hose 40 fitted at one end thereof are fastened and fixed to the installation hole 13 formed at the bottom of the casing 10 body. A boiler coupled to 50 to discharge water to the outside; The drain connector 50 is formed with a long hole 56 through which the screw 16 passes through one end of the support plate 51 in close contact with the bottom surface of the casing, and the other end of the connector 50 is formed perpendicular to the center of the body. The outside of the, drainage connector for the boiler, characterized in that the fixing plate 53 having a fitting groove 54 is integrally molded to be inserted into the cross section of the installation hole (13). The drainage connector for a boiler according to claim 1, wherein a positioning protrusion (15) protruding upward from the installation hole (13) of the casing (10) is formed. The drainage connector for a boiler according to claim 1, wherein the position adjustment tool (55) protrudes from the bottom of the fixing plate (53) formed in the drainage connector (50). The method of claim 1, wherein the installation hole 13 and the fixing plate 53 is formed having a D shape so that the end surface of the installation hole 13 and the end surface of the fitting groove 54 is fixed in close contact with the horizontal drainage Connector. The boiler of claim 1, wherein the installation hole 13 and the fixing plate 53 are formed to have an elliptical shape so that the end surface of the installation hole 13 and the end face of the fitting groove 54 are fixed in a semicircular shape. Drainage connector.

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