KR890007178Y1 - Device for circulation for hot-water boiler - Google Patents

Abstract

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Description

Hot water circulator of hot water boiler

1 is a perspective view showing the configuration of the present invention.

Figure 2 is a cross-sectional view showing the configuration and operation of the present invention.

3 is a cross-sectional view showing an operation state of the present invention.

* Explanation of symbols for main parts of the drawings

1: cylinder 2: discharge tube

3: inlet pipe 4: outlet pipe

5: top plate 6: bottom plate

7: moving plate 8: assistant

The present design moves up and down by the vapor pressure of the moving plate in the inlet tube, and removes the air flowing into the inlet tube and discharges it to the discharge tube. The present invention relates to a hot water circulator of a hot water boiler, which facilitates hot water circulation without installing a separate circulation pump.

In the conventional hot water boiler, a separate circulation pump is necessarily attached to circulate the hot water, and since the configuration of the boiler is complicated by the installation of the pump and the pump is connected to a power source, the hot water by stopping the pump during power failure The circulatory was not able to have had.

In order to solve the above-mentioned shortcomings, many devices have recently appeared to circulate hot water without a circulating pump, but all of them use a check valve, so that only the backflow prevention effect can be obtained. If the pressure is balanced and the circulation stops, it has the disadvantage of including the risk of explosion, which is an urgent situation to solve the problem.

In order to solve the above-mentioned shortcomings, the present invention raises the moving plate to a certain height by the water pressure and steam pressure of the water rising through the inlet pipe in the boiler so that the right plate of the moving plate blocks the inlet of the auxiliary pipe. At the same time, the hot water collects at the bottom and the hot water is resisted by the large area of the lower plate, so it can no longer rise under a certain pressure and can be discharged to the discharge pipe connected to the lower left of the cylinder to be supplied to the piping line in the room. At this time, the air rises to the lower air discharge hole of the lower plate and exits to the discharge pipe through the upper air discharge hole of the upper plate. Therefore, only the pure water is discharged to the discharge pipe, so that the heating efficiency can be increased and the circulation of hot water can be increased. Automatically by lifting and lowering of moving plate by steam pressure Since it is possible to circulate, there is no need to install a circulation pump and there is no danger of explosion.

The upper air discharge hole (5) is fixed to the lower center, which fixes the discharge pipe (2) to the upper center, and the upper air discharge hole (5) to the center of the inside of the cylinder (1) having a curved shape of the discharge pipe (4). The lower surface which forms the hemispherical indentation part 6 'in the center and the upper surface plate 5 which perforates "), and several lower air discharge holes 6" are perforated around the inlet part 6'. The plate 6 is fixed with the moving plate 7 at regular intervals, and then the upper and lower through holes 7 'and 7 "are drilled at regular intervals on one side of the moving plate 7 and The bent portion is connected to the secondary discharge pipe (4 ') for drilling several small holes (4 ") and then connected to the inlet pipe (3) and the auxiliary pipe (8) to the right side of the cylinder (1).

In the figure, reference numeral 9- the complement tank.

The present invention, as described above, is installed and used on the bottom surface of a conventional supplementary water tank (9), and hot water heated in a boiler is introduced into the bottom surface of the cylinder (1) through the inlet pipe (3). Inside the cylinder (1), the water flowing through the auxiliary pipe (8) into the upper through hole (7 ') of the moving plate (7) is at the same level as the level of water filled in the refill tank (9). The position of (7) is that the lower plate 6 is in close contact with the bottom of the bottom surface of the cylinder 1 due to its own weight as represented by the imaginary line of FIG.

As the hot water is introduced into the inlet pipe 3 in the above state, the lower plate 6 is pushed by the force due to the pressure and the hemispherical recess 6 'formed at the center of the lower plate 6. As the ascension gradually rises, the entire moving plate 7 moves upward, and the passage is opened to the discharge pipe 4 coupled to the lower left side of the cylinder 1 as shown in FIG. ') Is moved upward by the movement of the movable plate 7 to block the inlet of the auxiliary pipe (8). Therefore, the hot water introduced at a constant pressure can be supplied to the pipe line in the room through the discharge pipe 4, and the air at this time is several lower air discharge holes drilled around the inlet 6 'of the lower plate 6. Pass through 6 "to the upper air discharge hole 5 'of the upper surface plate 5, and finally this air passes through the discharge pipe 2 to the lid body (not shown) of the replenishment tank 9; In the hot water discharged to the discharge pipe (4), the air that could not escape to the discharge pipe (4) with the hot water is to be discharged to the discharge pipe (4), the remaining air is bent portion of the discharge pipe (4) Since it exits through the small hole (4 ") of the auxiliary air discharge pipe (4 ') is fixed to the relatively complete discharge of hot water is possible.

In addition, the auxiliary pipe (8) connecting the inlet pipe (3) and the right side of the cylinder (1) is in a state of blocking the outlet of the auxiliary pipe (8) in the state in which the movable plate (7) is raised as shown in FIG. In the auxiliary pipe 8, the flow of water does not occur.

As described above, the hot water introduced through the inlet pipe 3 removes the air while keeping the moving plate 7 floating by the hot water and the vapor pressure, and supplies hot water to the discharge pipe 4 so that circulation When the overpressure is applied due to the overheating of the boiler, the hot water and the vapor pressure flowing into the inlet pipe 3 are strongly ejected, and the lower plate 6 of the moving plate 7 is strongly pressed. Since the moving plate 7 is raised as shown in FIG. 3 by solid lines, the moving plate 7 is brought into contact with the upper surface of the inside of the cylinder 1, and the lower hole 7 "of the moving plate 7 is the auxiliary pipe. While coinciding with the outlet of (8), the hot water and steam pressure flows into the bottom of the cylinder (1) through the inlet pipe (3) and at the same time the hot water and steam pressure passing through the auxiliary pipe (8) is also lower through the moving plate (7) Through the 7 "into the cylinder 1 . Therefore, the overpressure that cannot be handled between the lower plate 6 of the moving plate 7 and the bottom surface of the cylinder 1 by the overpressure can be distributed through the auxiliary pipe 8, so that there is a risk of explosion. Since the moving plate 7 is suddenly raised, the water located on the upper side of the upper plate 5 falls into the replenishment tank 9 through the discharge pipe 2, and the upper plate 5 displaces water. It is a buffering action by the resistance of the water generated during the compression, so there is no noise during the ascent, and the water introduced into the lower hole (7 ") from the auxiliary pipe (8) is discharged into the space created by the discharge of the water in the cylinder (1). To be filled.

When the overpressure is released in the above state, the moving plate 7 descends as shown in FIG. 2 to perform its original task, and the inlet port of the auxiliary pipe 8 also moves by the lowering plate 7. Since the state is blocked by) will maintain the standby state for overpressure without the flow of water inside the auxiliary pipe (8).

In this way, the present invention is to obtain a circulation action using the so-called steam pressure to discharge the hot water coming into the inlet pipe by removing the air by the up and down of the moving plate to the discharge pipe in a state of removing the air, so that the uniform hot water circulation can be always obtained. When overpressure occurs, it prevents the cylinder or boiler from being exploded by pressure due to the pressure distribution by the auxiliary pipe, and the lifting action is performed in the situation that the water is opposed to the resistance of water in the water even when the moving plate is raised or lowered. It can reduce the noise by the maximum and has a useful effect to maximize the heating efficiency.

Claims (1)

The upper and lower air outlets 5 'are fixed in the upper and lower centers of the cylinder 1 having the discharge pipe 2 and the inlet pipe 3 fixed thereto and the discharge pipe 4 bent at the lower left side. The upper plate 5 and the lower plate 6 'are formed in the center with a hemispherical recess 6' and the lower plate 6 having several lower air outlet holes 6 " After fixing at regular intervals with the movable plate 7, the upper and lower through holes 7 'and 7 "are drilled at regular intervals on one side of the movable plate 7, and several bent portions of the discharge pipe 4 Of the hot water boiler characterized in that the auxiliary discharge pipe (4 ') perforating the small hole (4 ") is connected and then the secondary pipe (8) is bent and connected to the right side of the inlet pipe (3) and the cylinder (1) Hot water circulator.