KR100421239B1 - Heat exchange - Google Patents

Abstract

According to the present invention, the heat coil is made of corrugated cardboard in the horizontal direction to widen the strength and the heat transfer area, and then the center portion of the coil length is folded and rolled at regular intervals. After fixing suction outlet socket, etc., it is fixed with material with lower melting point than base material (e.g. non-ferrous metal, special concrete mortar)

Description

Heat exchanger {HEAT EXCHANGE}

The present invention relates to a heat exchanger device that facilitates heat transfer to a heated fluid by widening the surface contact between the first fluid and the second fluid in various industries or sanitary facilities.

More specifically, it is a heat exchanger that shows suction discharge at both ends by corrugating a long heat exchange plate horizontally like a corrugated sheet, folding it in half, and rolling it in a roll.

Conventional heat exchanger has a number of plate-type, multi-tubular and vortex, etc. plate type is a lot of resistance of the fluid flow and the passage is fine, so that a large portion of the fluid is difficult to pass. In addition, the frictional loss of the fluid is high, and high pressure is required. A multi-tube heat exchanger also has a similar friction loss and tube blockage similar to that of a plate heat exchanger. The vortex is bulky compared to the capacity, and it is difficult to process and weld, especially difficult to clean because it is a shape welded by swirling two sheets of flat plates. As such, the conventional heat exchanger has a problem that the volume is large and the heat transfer area is low, the thermal efficiency is low, and the manufacturing cost is high.

According to the present invention, one sheet of steel coil is rolled tightly horizontally so that the installation area is smaller than the capacity, and the heat transfer area is increased by wrinkles to absorb thermal expansion in the longitudinal direction, and the structural strength that can withstand the internal pressure according to the depth of the wrinkles is generated. The outer casing of the general cylindrical heat exchanger is finished with a hot plate without any interruption so that the flow of fluid is equalized because there is no obstruction plate to reduce the pressure loss and make it suitable for the heat exchange of many impurities.

A diagram: perspective view of the present invention

B degree: adhesive hole and crimped state

B-1 degree: Partial detail view of coil

C degree: rolled coil (hot plate)

※ Explanation of code for main part of drawing

2: first fluid fluid inlet

2-1: first fluid fluid outlet

3: 2nd fluid fluid inlet

3-1: 2nd fluid fluid outlet

4: adhesive hole

5: hot plate (wrinkle)

6: material sphere

Bending the adhesive hole 4 at regular intervals on both sides of the hot plate (coil), bend the centered portion in the direction of the length in half, and make a rolled shape (C). Attach the two ends (2-1, 3) with the dried hotplate in front of them, respectively.

Both ends in the longitudinal direction of the corrugation are connected to each other by using a non-ferrous metal or cement mortar having a lower melting point than the heat exchanger plate as the molten base material enters the adhesive hole, and at this time, the material sphere 6 and the first fluid fluid inlet / outlet 2, 2 -1) After fixing the sockets of the second fluid fluid inlet and outlet (3,3-1), melt and finish.

It is compact in a simple process and has low pipe resistance, which is advantageous to the fluid having a lot of impurities and gives wrinkles to increase heat transfer coefficient, thereby improving heat exchange, and the manufacturing process is simple.

Claims (2)

In the heat exchanger for exchanging heat between the first and second flow fluids, an adhesive hole is formed in which the corrugated sheet is wound in the circumferential direction of the heat transfer plate and a base material and a reinforcing material are formed in which a small hole is drilled at the end of the corrugated sheet. Made of integral heating plate with outer shell and hot plate with one plate by turning the heat transfer plate into a cylinder Both ends of the corrugated plate are made of non-ferrous metal or cement mortar, which has a lower melting point than the base material, and the fluid inlet and outlet are planted in a liquid or semi-solid state.