KR810002252Y1 - Heating type pump - Google Patents

Abstract

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Description

Heated pump

1 is a longitudinal cross-sectional view of the present invention.

The present invention relates to a heated pump used to circulate hot water in a water heater such as a hot water boiler.

As a prior art similar to the present application, there is a utility model registration No. 10613 of the present inventor, the above-mentioned pre-registration design blocks the inside of the heating water tank by one intermediate partition and separates it into the lower concentrated heating bath and the upper preheating bath. The hot water was ejected by the vapor pressure and the cold water was sucked.

According to the above-mentioned prior art, the suction and discharge operation of hot water does not interfere, but since the hot water in the concentrated heating tank is discharged while boiling, the low temperature water of the preheating tank is sucked into the lower concentration heating tank and then heated to about 100 ° C. required for the hot water discharge. As it takes a long time, the intake and discharge cycle becomes longer, thereby reducing the amount of circulation water per unit time, and in terms of the same heat quantity, there is a problem in that the heating efficiency is lower than that of circulating relatively low temperature water in a fast cycle.

The present invention divides the heating tank into three parts into the preheating chamber, the cooling chamber, and the heating chamber by two partition walls to improve the drawbacks of the above-mentioned cited design, and makes the cooling chamber and the preheating chamber connected with the suction discharge pipe connected to each other and communicate with each other. The high temperature water discharged and the low temperature water sucked in through the preheating chamber so that the chambers communicate with each other, so that a part of the hot water remains in the preheating chamber and flows into the heating chamber even when the hot water is discharged to shorten the discharge time after suction. This will be described with reference to the drawings.

Preheating chamber (9), cooling chamber (10) and lower concentrated heating chamber (4) partitioned by partition wall (7) and partition wall (2) in heating tank (1) in which suction pipe (6) and discharge pipe (6 ') are connected. The preheating chamber 9 and the cooling chamber 10 communicate with the through holes 8 of the partition wall 7, and the communication tube 3, which is connected to the partition wall 2, is the cooling chamber 10 and the partition wall 2. The lower end portion of the suction tube 6 and the discharge tube 6 ′ penetrates the preheating chamber 9 and the partition wall 7 in the cooling chamber 10 so that the lower end thereof is positioned below the central heating tank 4. It was made to be located.

In the drawings, reference numerals 11 and 11 'denote reverse displacements.

The present invention is such that when the water in the central heating chamber (4) is heated to generate steam pressure, the hot water in the heating chamber (4) through the communication tube (3), preheating chamber (9), cooling chamber (10) in sequence via the discharge pipe When the water is discharged through the 6 'and the water level in the heating chamber 4 falls below the communication tube 3 and the vapor pressure in the heating chamber 4 drops, the water in the preheating chamber 9 flows into the heating chamber 4 and at the same time the suction tube As the low temperature water returned through (6) flows into the cooling chamber 10, the partition wall 2 is cooled to quench the residual water vapor in the heating chamber 4, so that a negative pressure is generated in the heating chamber 4, thereby preheating the chamber 9 While the preheated water is sucked into the heating chamber 4, the suction pipe 6 sucks low-temperature water and reheats it.

According to the present invention, after the hot water is discharged, the preheated water in the preheating chamber 9 in the preheating chamber 9 is introduced into the heating bath 4 so that it is not required to take a long time to reheat it to the hot water discharge temperature of 90-100 ° C. The period is shortened and as a result, the hot water circulation is made quickly, thereby improving the thermal efficiency.

Claims (1)

In the case where the suction pipe 6 and the discharge pipe 6 'are introduced into the heating tank 1 by the partition walls 2 and 7 in the heating tank 1, the preheating chamber 9, the cooling chamber 10 and A heating chamber 4 is formed to introduce the suction pipe 6 and the discharge pipe 6 'into the cooling chamber 10, but the preheating chamber 9 and the cooling chamber 10 pass through the partition wall 7. And a heating pump in which the preheating chamber (9) and the heating chamber (4) communicate with the communicating tube (3).