KR940003013Y1 - Boiler - Google Patents

Abstract

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Description

Hot water boiler

1 is a perspective view showing the structure of a hot water copper pipe recommended in six stainless steel pipes, which is the main part of the present invention.

FIG. 2 is a longitudinal sectional view showing a circuit of hot water flowing in from outside and heated while passing through a space between inner and outer cylinders through hot water copper pipes recommended in six stainless steel pipes and their outflow holes.

3 is a cross-sectional view in FIG. 2.

* Explanation of symbols for main parts of the drawings

10: cylinder body 11: ceramic heating tube

12: vacuum stainless steel pipe 13: hot water copper pipe

14: outflow hole 20: outer cylinder

21: inlet pipe 22: outlet pipe

30: cover body for heat insulation

The present invention is to install a helium tube for heat generation such as the patent application Nos. 89-3725, 89-7778, 91-17422, etc. filed by the applicant in the central heating tube of the boiler inner cylinder to obtain the heat of high temperature emitted from the helium tube. In order to heat most hot water with maximum contact surface with little waste, six vacuum stainless steel pipes for holding are arranged around the heating tube at regular intervals in the space, and hot water copper tube is first introduced into these six vacuum stainless steel pipes. From the inside of the inner cylinder to the outside of the inner cylinder, the hot water pipe introduced by overlapping the outer cylinder is doubled so that the gap is 5mm on the outer circumference of the inner cylinder. Hot water copper pipe penetrates into the outlet and flows out of the helium tube by attaching only the lower and lower ends of the inner cylinder to be an outflow hole in the outer wall. It is possible to maximize the heat absorption as well as the maximum contact surface with hot water copper pipes which are recommended at six intervals and uniformly spaced in six vacuum stainless steel pipes without being absorbed into the inside of the vacuum stainless steel pipe used for holding. The hot water heated through the copper pipe flows out into the outflow hole of the inner wall of the inner cylinder and rotates into the space between the inner and outer cylinders, heating the heated copper pipe and absorbing the remaining heat radiated from the entire inner wall of the inner cylinder to increase the temperature of the warm water further. It will be described in detail based on the drawings as follows.

A ceramic heating tube 11 having a diameter of 55 mm in which a helium tube for heat generation can be built in the inner center of the inner cylinder 10 having a length of 132 mm and a length of 360 mm, and a pillar having a diameter of 20 m in the outer cylindrical space thereof. Six vacuum stainless steel pipes (12) are piped at regular intervals, and the six vacuum stainless steel pipes are uniformly interconnected from beginning to end by 20m of hot water copper pipes (13) having a diameter of 10 mm introduced from the outside of one end of the inner cylinder. It is recommended that the end is penetrated through the other end of the inner cylindrical body and attached to the outlet hole 14 from the outer wall. The outer cylindrical body has a diameter of 142 mm and a length of 360 mm of the outer cylindrical body 20 having a distance of 5 mm. Overlapping regularly and attaching the inlet pipe 21 of the hot water copper pipe to the upper end of the outer cylinder, and the outlet pipe 22 to the other upper end, respectively, and the inlet and outlet pipes are exposed to the outside of the outer cylinder. Thermal insulation cover It was made with (30).

The present invention having the structure as described above is a ceramic heating tube in which the high-temperature heat generated by dissipating helium molecules by heat-infrared radiation when electric power is input to the helium tube for heat generation installed inside the central ceramic heating tube 11 of the inner cylinder 10. Dissipate outwardly through the six vacuum stainless steel pipes (12) uniformly recommended to heat the hot water copper tube (13) with the maximum contact area with heat, thereby maximizing the water in the hot water copper tube coming through the inlet pipe (21) Since the stainless steel pipe used for six pillars is in a vacuum state, the heat dissipated inside the stainless steel pipe is not absorbed because it is not absorbed, and thus no heat is wasted and rotated through a 20m long hot water pipe. The heated hot water rotates through the space between the inner cylinder and the outer cylinder through the outflow hole 14 penetrated to the outside of the lower end of the inner cylinder. By heating the hot water copper tube and absorbing the residual heat emitted outward through the entire circumferential wall of the inner cylinder, the thermal efficiency can be increased and the temperature of the hot water can be maintained at a high temperature at all times.

Claims (1)

The ceramic heating tube 11 is placed at the inner center of the inner cylindrical body 10, and six vacuum stainless steel tubes 12 for holding are hung at regular intervals in the outer space thereof. It is recommended to evenly connect the hot water pipe 13 introduced from the outside of one side of the upper end to the other end and penetrate the end through the other side lower end of the inner cylinder and attach it to the outlet hole 14 from the outer wall and the outside of the inner cylinder. The outer cylindrical body 20 is overlapped in duplicate at regular intervals, and the inlet pipe 21 of the hot water copper pipe is attached to the upper end of the outer cylindrical body, and the outlet pipe 22 is attached to the upper end of the outer cylindrical body, respectively. The outer periphery of the hot water boiler was covered with a known heat insulating cover cylinder 30 to expose the inlet and outlet pipes.