KR100995587B1 - Plate Heat Exchanger - Google Patents

Abstract

The present invention relates to a plate-type heat exchanger for bending prevention, more specifically, the bending guide portion is formed by selectively folding only one end of both sides of the outer circumferential surface of the plate, so that the plate is not stretched or bent during press work, so that the overall flat plate Since the plate can be evenly contacted during lamination, it is efficient for heat exchange and produces high-quality products, and groove-shaped guide notches are formed at both ends of the plate so that when the plate is laminated, the guide notch It is fitted to a guide stand formed on the outside and is laminated by sliding along the guide stand, so that the stacking of the plates is easy, and the plates are quickly stacked in a straight line at the same position, so that the manufacturing time is shortened.

As described above, the present invention provides a plate heat exchanger comprising a plate formed in a stacked shape, a fluid pipe inserted into both end surfaces of the plate, and a fitting coupled to an end of the fluid pipe.

The plate has insertion holes formed at both end surfaces so that the fluid pipe is inserted, and a plurality of ribs protruding outward are formed at one end to increase the efficiency of heat exchange.

In order to prevent the plate from bending, the outer circumferential surface of the plate is characterized in that the bending guide portion, which is selectively folded at only one end of both sides, protrudes at a predetermined interval.

Plate, Plate, Heat Exchanger, Fittings, Ribs

Description

Warp Plate Heat Exchanger {Plate Heat Exchanger}

1 is a perspective view showing a plate heat exchanger according to an embodiment of the present invention,

Figure 2 is a side view showing a plate heat exchanger according to an embodiment of the present invention,

3 is a perspective view showing a plate according to an embodiment of the present invention,

4 is a perspective view showing a plate heat exchanger according to another embodiment of the present invention,

5 is a side view showing a plate heat exchanger according to another embodiment of the present invention,

6 is a front view showing a plate heat exchanger according to another embodiment of the present invention,

7 is a perspective view showing a plate according to another embodiment of the present invention,

8 is a perspective view illustrating a plate of a plate heat exchanger in the related art.

<Explanation of symbols for main parts of the drawings>

10: plate 11: rib

12: bending guide portion 13: insertion hole

20: fluid pipe 30: fitting

40: guide notch 50: plate heat exchanger

The present invention relates to a plate-type heat exchanger for bending prevention, more specifically, the bending guide portion is formed by selectively folding only one end of both sides of the outer circumferential surface of the plate, so that the plate is not stretched or bent during press work, so that the overall flat plate Since the plate can be evenly contacted during lamination, it is efficient for heat exchange and produces high-quality products, and groove-shaped guide notches are formed at both ends of the plate so that when the plate is laminated, the guide notch It is fitted to the guide plate formed on the outside by sliding along the guide to be stacked, the stacking of the plate is easy, and the plate is laminated in a straight line at the same position in a straight line to prevent the warp plate heat exchanger to reduce the production time.

In general, a plate heat exchanger stacks a plurality of shaped plates in consideration of fluid type, flow path, strength, and the like, and alternately flows high-temperature / humidified compressed air, which is a heating fluid, and refrigerant, which is a hydrothermal fluid, between the plates. It is a device to make the heat exchange of the air passing through. That is, two different types of fluids are separated by the interlayer flow paths between the plates and flow in counter flow. Heat exchange is performed while high and low temperature fluids are crossed one by one.

8 is a perspective view illustrating a plate of a plate heat exchanger in the related art.

As shown in Figure 8, the plate (1) is formed in a plurality of plates to form a stack, and the insertion hole (2) is formed on both ends of the plate (1) so that the external fluid pipe is inserted, One end surface of the plate 1 is provided with a plurality of ribs 3 protruding outward to increase the efficiency of heat exchange.

However, since both ends of the plate heat exchanger are flat, the amount of change due to forming after the press operation is overlapped and the plate is bent as a whole. As a result, the plates are not uniformly contacted at the time of lamination so that the brazing is not good. Therefore, a problem arises in that the quality of the product is deteriorated.

Accordingly, the present invention has been made to solve the above conventional problems,

The bending guide portion is formed by selectively folding only one end portion of both sides of the outer circumferential surface of the plate to be laminated, so that the plate can not be stretched or bent during press work, so that the entire flat plate can be made. It can be efficient for heat exchange and produce high quality products.

In addition, the present invention is formed with groove-shaped guide notches at both ends of the plate, when the plate is stacked, the guide notch is inserted into the guide stand formed on the outside and is slid along the guide stand to be stacked, thereby easily stacking the plate. And, there is another object that the plate is quickly stacked in a straight line in the same position to reduce the production time.

The present invention has the following features to achieve the above object.

The present invention relates to a plate heat exchanger comprising a plate formed in a stacked shape, a fluid pipe inserted into both end surfaces of the plate, and a fitting coupled to an end of the fluid pipe.

The plate has insertion holes formed at both end surfaces so that the fluid pipe is inserted, and a plurality of ribs protruding outward are formed at one end to increase the efficiency of heat exchange.

In order to prevent the plate from bending, the outer circumferential surface of the plate is characterized in that the bending guide portion, which is selectively folded at only one end of both sides, protrudes at a predetermined interval.

In addition, the present invention is a plate heat exchanger consisting of a plate formed in a stacked form, a fluid pipe inserted into both ends of the plate, and a fitting coupled to the end of the fluid pipe,

The plate has insertion holes formed at both end surfaces so that the fluid pipe is inserted, and a plurality of ribs protruding outward are formed at one end to increase the efficiency of heat exchange.

In order to prevent the plate from bending at the outer circumferential surface of the plate, a bending guide part in which only one end portion is selectively folded is formed to protrude at a predetermined interval.

At both ends of the plate, the guide notches are formed so that the plates are easily stacked on the same line along the guide stand formed at the outside when the laminate is assembled.

The present invention having such characteristics can be more clearly described by the preferred embodiments thereof.

Hereinafter, preferred embodiments of the present invention will be described in detail with the accompanying drawings.

1 is a perspective view showing a plate heat exchanger according to an embodiment of the present invention, Figure 2 is a side view showing a plate heat exchanger according to an embodiment of the present invention, Figure 3 shows a plate according to an embodiment of the present invention Perspective view.

As shown, the warp plate heat exchanger 50 of the present invention is composed of a plate 10, a fluid pipe 20, and a fitting 30.

Referring to Figure 3, the plate 10 is formed in a plurality of plates to form a stack, the insertion hole 13 is formed on both end surfaces of the plate 10 so that the fluid pipe 20 is inserted, One end surface of the plate 10 is provided with a plurality of ribs 11 protruding outward to increase the efficiency of heat exchange. At this time, the insertion hole 13 of the plate 10 is formed perpendicular to the plurality of plates 10 to be stacked, but is not formed in the plate 10 formed at the end.

Here, the plate 10 is formed when each plate 10 is laminated and coupled, the refrigerant liquid flows inside the plate 10 to exchange heat with the outside air. The ribs 11 protrude in a comb pattern (diagonal) shape from one end surface of the plate 10 to the outside, and the ribs 11 protruding in the comb pattern are formed in the longitudinal direction of the plate 10 to the outside Increase the area of air contact.

In this case, the heat of the refrigerant is transferred to the air in a short time, thereby increasing the efficiency of heat exchange.

In addition, a bending guide portion 12 is formed on the outer circumferential surface in the longitudinal direction of the plate 10 in which only one portion of both sides is selectively folded to prevent the plate 10 from bending. Here, the bending guide portion 12 is folded at the outer circumferential surface of the plate 10 to prevent the plate 10 from bending, is formed in the longitudinal direction of the plate 10, the folded bending guide portion 12 is vertical It is formed to project at regular intervals.

In addition, the bending guide part 12 is vertically protruded in a direction opposite to the protruding direction of the rib 11 formed on the plate 10.

Here, when the plate 10 is laminated, the ribs 11 are in contact with each other to stack the bending guide portions 12 so as not to be in contact with each other. In other words, the plates 10 are inverted and stacked so that the ribs 11 and the ribs 11 formed on the plates 10 are in contact with each other, and the one plate 10 is turned upside down. During lamination, the bending guide portion 12 is formed on both sides of the plate 10 so that the bending guide portion 12, which is selectively formed on only one portion of both sides of the outer circumferential surface of the plate 10, does not come into contact with each other. .

Here, the bending guide portion 12 is formed on both sides of the plate 10 is said that when the two plates 10 are stacked to one, the bending guide portion 12 on both sides of the plate 10 Is formed.

The fluid pipe 20 is inserted into the penetrating insertion hole 13 of each plate 10 so as to open at both ends thereof, and fluid is introduced from the outside to flow the fluid inside the plate 10. 10) is laminated and the surface contacting the hollow interior is cut so that the fluid can flow in the interior of the plate (10).

Here, the fluid pipe 20 has an opening (not shown) on one side thereof protrudes to the outside, and the fluid pipe 20 has the same shape as that of the fluid pipe 20 so as to withdraw the fluid which has completed heat exchange with the fluid pipe 20. 20 is inserted into the other side spaced apart.

The fitting 30 is attached to a surface on which an opening protruding from the fluid pipe 20 of the plate 10 is formed, and a through hole 21 is formed at the center of the inner circumferential surface so that the opening of the fluid pipe 20 is coupled. A thread is formed on the outer circumferential surface of the through hole 21 so as to be detachable from the fluid tube for introducing the fluid, and a groove is formed on the outer bottom surface of the thread to prevent detachment due to shock or shaking when combined with the fluid tube. Can be.

4 is a perspective view showing a plate heat exchanger according to another embodiment of the present invention, Figure 5 is a side view showing a plate heat exchanger according to another embodiment of the present invention, Figure 6 is a plate heat exchanger according to another embodiment of the present invention 7 is a perspective view showing a plate according to another embodiment of the present invention.

The plate heat exchanger 50 and the plate 10 described below indicate that some of the configurations and operations of the plate heat exchanger 50 and the plate 10 described above coincide with each other.

As shown, the warp plate heat exchanger 50 of the present invention is composed of a plate 10, a fluid pipe 20, and a fitting 30.

Referring to FIG. 7, the plate 10 has insertion holes 13 formed at both end surfaces thereof to allow the fluid pipe 20 to be inserted, and ribs 11 protruding outwardly to increase efficiency of heat exchange at one end surface thereof. Is formed a plurality of, the outer peripheral surface of the plate 10 is formed to protrude at a predetermined interval the bending guide portion 12 is selectively folded only one end of either side in order to prevent the plate 10 is bent, the At both ends of the plate 10, guide notches 40 are formed so that the plates 10 are easily stacked on the same line along a guide stand (not shown) formed at the outside when the laminate is assembled.

Here, the guide notch 40 is formed with grooves at both ends of the plate 10 formed with the insertion hole 13 to contact the external guide stand (not shown), the groove portion of the guide notch 40 The portion is vertically folded to form a projecting protrusion.

The fluid pipe 20 and the fitting 30 have the same structure, configuration, and number as the fluid pipe 20 and the fitting 30 described above.

The plate-type heat exchanger 50 for preventing warpage described above is used for a transmission of an automobile or an internal heat exchanger for cooling engine oil.

As described above, the bending-preventing plate heat exchanger of the present invention by selectively bending only one end portion of both sides of the outer circumferential surface of the plate to be laminated, so that the bending guide portion is formed, the plate is not stretched or bent during the press operation as a whole. Since flat plates can be made, the plates can be evenly contacted during lamination, which is efficient for heat exchange and produces high quality products.

In addition, the present invention is formed with groove-shaped guide notches at both ends of the plate, when the plate is stacked, the guide notch is inserted into the guide stand formed on the outside and is slid along the guide stand to be stacked, thereby easily stacking the plate. And, the plates are quickly stacked in a straight line in the same position has the effect of reducing the production time.

Claims (9)

The plate heat exchanger is composed of a plate 10 formed in a stacked shape, a fluid pipe 20 inserted into both ends of the plate 10, and a fitting 30 coupled to an end of the fluid pipe 20. In The plate 10 has insertion holes 13 formed at both end surfaces to insert the fluid pipe 20, and a plurality of ribs 11 protruding outwardly are formed at one end to increase the efficiency of heat exchange. On the outer circumferential surface of the plate 10 to prevent the plate 10 from bending, the bending guide portion 12, which is selectively folded at only one portion of both sides, protrudes at a predetermined interval, and the bending guide portion 12 Is folded in the outer circumferential surface of the plate 10 to prevent the plate 10 is bent is formed in the longitudinal direction of the plate 10, At both ends of the plate 10, the guide notches 40 are formed so that the plates 10 are easily stacked on the same line along the guide bars formed at the outside when the laminated assembly is assembled, and the guide notches 40 are formed on the outside of the plate 10. The grooves are formed at both ends of the plate 10 in which the insertion hole 13 is formed so as to contact the guide, and the grooves of the guide notch 40 are vertically folded so that protrusions are formed to protrude at regular intervals. Warp plate heat exchanger. The method of claim 1, The bending guide portion 12 is a plate-type heat exchanger for preventing bending, characterized in that the vertical formation in the direction opposite to the protrusion direction of the rib (11) formed on the plate (10). The method of claim 1, The rib 11 is a plate heat exchanger for preventing bending, characterized in that formed in the longitudinal direction of the plate (10) in the form of a comb (diagonal). The method of claim 1, When the plate 10 is laminated, the ribs 11 are in contact with each other while the bending guide portion 12 is laminated plate heat exchanger, characterized in that the laminated so as not to be in contact with each other. delete delete delete delete delete

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