KR19990079555A - Plate heat exchanger - Google Patents

Abstract

The present invention discloses a plate heat exchanger.

The present invention comprises a projecting connector and a protrusion formed above the projecting connector, a flow passage and a ridge in the connector of the fruit space and the heated fluid space partitioned by a plurality of heat transfer plates, and the fruit space and the heated object. A plate heat exchanger is proposed in which dissolved oxygen or bubbles present in a fluid space can be released by the circulation of a fluid.

Accordingly, the present invention has the effect of providing a plate heat exchanger with improved heat exchange performance.

Description

Plate heat exchanger

The present invention relates to a plate heat exchanger, and more particularly to a plate heat exchanger to allow heat exchange between the fruit and the heated fluid in the vacancy formed between the heat transfer plates.

As is well known, the plate heat exchanger is used in various industrial fields for transferring heat to a heated fluid having a low temperature through heat transfer plate, and is also used for various purposes such as supplying hot water for heating.

Looking at the structure of such a heat exchanger as shown in Figure 1 arranged a plurality of heating plates at a narrow interval and sealed around the heat, the heating medium and the heating fluid space formed between each heating plate is alternately formed, such The fruit and the heated fluid were circulated in a direction perpendicular to each other with the heat transfer plate in place so that heat exchange was performed.

On the other hand, if the heat exchanger has a large temperature difference between the fruit and the fluid to be heated, the heat transfer plate is subjected to thermal shock and cracks, which shortens the lifespan. Inflow of air is scattered in the flow path is a problem that the heat transfer efficiency by the heat transfer plate is lowered.

In addition, the conventional heat exchanger has a problem in that the moving fluid is concentrated only around a straight line in a circulation path through which the fruit and the heated fluid circulate, so that dissolved oxygen or air is scattered in other parts to lower the heat transfer efficiency.

In view of the above-mentioned problems, an object of the present invention is to reduce the thermal shock by allowing the heated fluid to be heated in stages so that the temperature difference between the fruit and the heated fluid is reduced, and the fruit space and the heated fluid space of the heat exchanger. It is to provide a plate heat exchanger to remove dissolved oxygen or air in the air.

1 is an explanatory view showing the operation of a general plate heat exchanger.

2 is an explanatory view showing a plate heat exchanger according to the present invention.

3 and 4 are explanatory views showing the main structure of a plate heat exchanger according to another embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

1: heat transfer plate 2: packing

3: fruit space 4: heated fluid space

5: connector 6: protrusion

7: ridge 8: flow path

9: inlet 10: outlet

In order to achieve the above object, the present invention in the fruit space and the heated fluid space of the heat exchanger formed by the heat transfer plate, the fruit is injected from the top to descend step by step, the heated fluid is injected from below to the upward The present invention proposes a plate heat exchanger having a protrusion for overflow and a ridge formed thereon.

By the above-described configuration, the present invention provides an effect that the dissolved oxygen or bubbles present in the fruit space and the heated fluid space can be pushed out by the fruit and the heated fluid to greatly increase the heat exchange efficiency by the heat transfer plate.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

As can be seen in Figures 2 and 3, the present invention is a fruit space (3) and blood formed between the plurality of heat transfer plate 1 and the packing (2) and the heat transfer plate (1) for sealing the periphery of the heat transfer plate (1) In the known one consisting of a connecting pipe (5) connecting the heating fluid space (4), respectively,

Fruits are obtained in the uppermost connecting pipe 5 connecting the plurality of fruit spaces 3, and heated fluids are obtained in the lower connecting pipe 5 connecting the plurality of heated fluid spaces 4. It was done.

In the present invention as described above, when the fruit and the heated fluid are circulated, heat is transferred by the heat transfer plate 1 as usual, and heat exchange is performed. In particular, in the present invention, the connection pipe at the top of the fruit space 3 ( 5) high temperature fruit is obtained. Therefore, the fruit is discharged after the temperature is dropped step by step while falling. On the contrary, the heated fluid is gradually rising from the lower end, so that the heated fluid is discharged after being heated close to the temperature of the fruit finally obtained from the upper end.

Therefore, the heated fluid gradually rises in temperature, and each heat transfer plate 1 is minimized in temperature difference between the heat space 3 and the heated fluid space 4 so that the heat shock is minimized. The fluid has the highest temperature at the final discharge point to improve heat exchange efficiency, which is illustrated in FIG. 2.

3 shows another embodiment according to the present invention.

As can be seen from the present invention, the fruit space (3) and the heating fluid space formed between the packing (2) and the heat transfer plate (1) for sealing the plurality of heat transfer plate (1) and the heat transfer plate (1) In the well-known thing which consists of the connection pipe | tube 5 which connects (4), respectively,

The protrusion 6 and the flow path upward above the protrusion 6 are formed so as to be higher than the heat transfer plate 1 penetrating the upper end of the connecting pipe 5 connecting the fruit space 3 and the heated fluid space 4. It is to be provided with the raised part 7 which secured 8).

According to the present invention, the fluid having a high temperature passes through the connection pipe 5 communicating with the fruit space 3 and the fluid having a low temperature passing through the connection pipe 5 communicating with the heated fluid space 4. In this case, a flow path separated into the fruit space 3 and the heated fluid space 4 is formed, and as a result, heat transfer is started through the heat transfer plate 1.

In this process, in particular, the present invention is formed by forming the protrusions 6, the channel 8 and the ridges 7 in the fruit space 3 and the heated fluid space 4, so that dissolved oxygen or air present in the space is present. , The gas, etc. are moved to the distribution path 8 which is the highest position in the space, and as the fruit or the heated fluid is circulated, the gas is moved to the communication space through the distribution path 8 and dissolved oxygen or air, The gas is pushed out and discharged to the outside. Accordingly, since the inside of the heat exchanger is filled with only the fruit and the heated fluid, the fruit and the heated fluid will effectively exchange heat with the heat transfer plate 1 interposed therebetween.

In addition, in the present invention, as shown in FIG. 4, the connecting pipe 5 formed in the fruit space 3 and the heated fluid space 4 has two or more basic inlets 9 and outlets 10. . Accordingly, the fruit and the heated fluid are dispersed and moved as a whole in the process of being moved in the fruit space 3 and the heated fluid space 4, so that even heat exchange is performed over the entire surface of the heat transfer plate 1.

In this way, the present invention is to remove the bubbles and dissolved oxygen of the heat exchanger to improve the heat exchange efficiency, and evenly heat exchange is carried out over the entire surface of the heat transfer plate (1) provides an effect that can further improve the heat exchange efficiency. do.

In addition, the present invention is to minimize the temperature difference between the two sides of the heat transfer plate (1) is to have a long life, there is an advantage that can be applied to the heat exchanger is a high temperature fruit.

Claims (3)

A connecting pipe connecting the heating spaces (3) and the heating fluid space (4) formed between the plurality of heat transfer plates (1) and the packing (2) for sealing the heat transfer plate (1) and the heat transfer plate (1), respectively ( In the known one consisting of 5), Fruits are obtained in the uppermost connecting pipe 5 connecting the plurality of fruit spaces 3, and heated fluids are obtained in the lower connecting pipe 5 connecting the plurality of heated fluid spaces 4. Plate heat exchanger characterized in that. A connecting pipe connecting the heating spaces (3) and the heating fluid space (4) formed between the plurality of heat transfer plates (1) and the packing (2) for sealing the heat transfer plate (1) and the heat transfer plate (1), respectively ( In the well-known thing of 5), The protrusion 6 and the flow path upward above the protrusion 6 are formed so as to be higher than the heat transfer plate 1 penetrating the upper end of the connecting pipe 5 connecting the fruit space 3 and the heated fluid space 4. 8) A plate heat exchanger characterized in that it is provided with a raised portion (7) to secure. A connecting pipe connecting the heating spaces (3) and the heating fluid space (4) formed between the plurality of heat transfer plates (1) and the packing (2) for sealing the heat transfer plate (1) and the heat transfer plate (1), respectively ( 5), the connection pipe (5) connecting the fruit space (3) and the heated fluid space (4) is composed of two or more inlets (9) and outlets (10), respectively. Plate heat exchanger.