KR20220025759A - Heat Exchanger - Google Patents

Abstract

The present invention relates to a heat exchanger comprising: a case for performing the function of an external circulation pipe by having an external circulation passage formed therein to circulate a first fluid; a first inlet hole which is provided in an upper side of the case and through which the first fluid flows into the case; a first outlet hole which is provided in a lower side of the case and through which the first fluid flows out of the case; a cover for sealing the open upper side of the case; an internal circulation pipe installed inside the external circulation passage, having a passage formed therein to circulate a second fluid for exchanging heat with the first fluid, and seated inside the case; and a first perforated plate located inside the case, provided between the cover and the internal circulation pipe, having a plurality of through holes, and for reducing the flow rate of the first fluid introduced through the first inlet hole and directed to the internal circulation pipe. Therefore, the heat exchanger can prevent a problem that the heat exchanger included in a heat pump system is frozen to burst in winter, resulting in enormous damage.

Description

Heat Exchanger

The present invention relates to a heat exchanger, and more particularly, to a heat exchanger that slows the flow rate of a fluid toward a coil inside a case, flows close to laminar flow, and smoothly guides heat exchange.

A heat exchanger for generating heat exchange between different fluids inside is generally used in hot air devices such as boilers and air conditioners. The heat exchanger is configured such that heat is exchanged with each other by heat conduction or radiation in a process in which fluids having different temperatures flow, but the different fluids are not mixed.

Among these heat exchangers, the double pipe heat exchanger has an internal circulation pipe disposed inside the external circulation pipe, and heat exchange occurs between the fluid flowing into the internal circulation pipe and the fluid flowing between the external circulation pipe and the internal circulation pipe .

In order to increase the efficiency of the double-tube heat exchanger, sufficient heat exchange must occur between the fluids. By extending the path through which the fluids move, the time for heat exchange can be increased. In this case, the length of the heat exchanger is extended and the heat There is a disadvantage in that the volume of the air is increased.

In order to improve the above-described disadvantages, in KR Patent Application No. 10-2012-0091644 (title of the invention: heat exchanger), an external circulation passage in which the first fluid circulates is formed to form an external circulation pipe function, and and an internal circulation pipe installed inside the external circulation passage and having a passage in which a second fluid performing heat exchange with the first fluid circulates therein, and the diameter gradually increases from the center of the case inside the case Disclosed is a heat exchanger in which a flow path forming plate formed by bending in a spiral shape of a vortex to form the external circulation flow path is installed,

In KR Patent Application No. 10-2015-0024897 (title of the invention: double tube heat exchanger), the inner circulation pipe through which the first fluid flows to the inside, and the inner circulation pipe are arranged to surround the inner circumferential surface and the outer circumferential surface of the inner circulation pipe An external circulation pipe through which the second fluid flows into the space formed therebetween, and disposed between the external circulation pipe and the internal circulation pipe, a support part for supporting between the outer circumferential surface of the inner circulation pipe and the inner circumferential surface of the external circulation pipe is formed in a part, and the rest Part discloses a double tube heat exchanger comprising at least one flow rate regulator having an opening through which a second fluid is passed.

However, in the case of the heat exchangers disclosed in the prior literature, although there is an advantage of reducing the overall size of the heat exchanger, the problem of freezing the heat exchanger due to the freezing of the fluid contained in the heat exchanger in winter could not be solved.

An object of the present invention is to prevent a problem in which a heat exchanger included in the heat pump system of the present invention freezes in winter and causes enormous damage.

In addition, an object of the present invention is to increase heat exchange efficiency by inducing a fluid to exchange heat while moving in a laminar flow.

Other objects of the present invention are made clearer by the following detailed description of the invention, claims and drawings.

According to an embodiment of the present invention, a case for performing an external circulation pipe function by forming an external circulation passage in which the first fluid circulates therein; a first inlet hole provided on the upper side of the case and through which the first fluid flows into the case; a first outlet provided at the lower side of the case and through which the first fluid flows out of the case; a cover sealing the open upper side of the case; an internal circulation pipe installed inside the external circulation path and having a flow path through which a second fluid performing heat exchange with the first fluid circulates therein and seated inside the case; and located inside the case, provided between the cover and the internal circulation pipe, provided with a plurality of through-holes, and flowing in through the first inlet hole to reduce the flow rate of the first fluid toward the internal circulation pipe It is possible to provide a heat exchanger comprising a; first perforated plate.

According to one aspect of the present invention, the inner circulation pipe may be provided in a spiral whose central axis is perpendicular to the ground.

According to an aspect of the present invention, a second inlet hole in which the inlet of the internal circulation pipe is installed and a second outlet hole in which the outlet of the internal circulation pipe is installed may be formed in the case.

According to an aspect of the present invention, at least a portion of the plurality of through-holes of the first perforated plate may face the entire outer surface of the inner circulation pipe or be provided radially outside the entire outer surface of the inner circulation pipe .

According to an aspect of the present invention, at least a portion of the plurality of through-holes of the first perforated plate may be provided to face the inner circumferential surface of the inner circulation tube or to face the inner space of the inner circulation tube.

According to an aspect of the present invention, it is located inside the case and is provided between the internal circulation pipe and the bottom surface of the case, a plurality of through holes are provided, and after heat exchange with the internal circulation pipe, the first outlet hole It may further include; a second perforated plate for reducing the flow rate of the first fluid to the direction.

According to an aspect of the present invention, at least a portion of the plurality of through-holes of the second perforated plate may face the entire outer surface of the inner circulation pipe or be provided radially outside the entire outer surface of the inner circulation pipe .

According to an aspect of the present invention, at least a portion of the plurality of through-holes of the third perforated plate may be provided to face the inner circumferential surface of the inner circulation tube or to face the inner space of the inner circulation tube.

According to an aspect of the present invention, it is provided inside the internal circulation pipe, the rotation screw for applying a rotational force to the first fluid; may further include.

According to an aspect of the present invention, the rotating screw of the rotating shaft may be provided perpendicular to the lower surface of the case to flow at least a portion of the first fluid toward the internal circulation pipe.

The present invention has an effect of preventing a problem in which a heat exchanger included in a heat pump system freezes in winter and causes enormous damage.

More specifically, the present invention has the effect of reducing the flow rate of the fluid flowing toward the spiral coil.

More specifically, the present invention has the effect of forming a laminar flow on the outer periphery of the fluid flowing toward the spiral coil.

In addition, the present invention induces heat exchange while the fluid moves in a laminar flow, thereby increasing heat exchange efficiency.

More specifically, the present invention has the effect of imparting a rotational force to the central portion of the fluid flowing toward the spiral coil.

1 shows an exploded view of a heat exchanger according to the present invention.
2 shows a cross-sectional view of a heat exchanger according to the present invention.
3 is a reference diagram for explaining the fluid flow of the heat exchanger according to the present invention.
4 is a photograph showing an embodiment of the internal circulation pipe, taken obliquely so that the upper surface of the internal circulation pipe faces forward.

Since the present invention can apply various transformations and can have various embodiments, specific embodiments are illustrated in the drawings and described in detail. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention. In describing the present invention, if it is determined that a detailed description of a related known technology may obscure the gist of the present invention, the detailed description thereof will be omitted.

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

Referring to FIG. 1 , the heat exchanger according to an embodiment of the present invention forms an external circulation passage through which a first fluid circulates therein to perform an external circulation pipe function. The cover 20 for sealing the open upper side is installed inside the external circulation passage and a passage in which a second fluid performing heat exchange with the first fluid circulates is formed, and an inner circulation pipe seated inside the case ( 30), a first oil located inside the case but including a circulation tube body 61 provided between the cover and the inner circulation tube and a plurality of through holes 62 provided in the circulation tube body 61 It may include a stencil plate 60 and a rotating screw 40 provided inside the case 10 to apply a rotational force to the first fluid.

In addition, the heat exchanger according to an embodiment of the present invention includes a motor 51 providing power to the rotating shaft 41 and the rotating body 42 of the rotating screw 40 , and the rotating shaft 41 of the rotating screw 40 . ) may further include a bearing box 52 supporting the.

2 and 3, the case 10 is provided on the upper side of the case body and the first inlet hole 11 through which the first fluid flows into the case, and the case body. It is provided on the lower side and may include a first outlet hole 12 through which the first fluid flows out of the case.

In addition, the inner circulation pipe 30 may be provided in a spiral shape with a central axis perpendicular to the ground, made of metal or synthetic resin in a spiral shape, and located inside the case 10 .

One end of the internal circulation pipe 30 may be connected to the second inlet hole 13 provided on the outer peripheral surface of the case 10 and the other end may be connected to the second outlet hole 14 provided on the outer peripheral surface of the case 10 . The second fluid introduced through the second inlet hole 13 may flow out of the case 10 through the second outlet hole 14 after heat exchange with the first fluid.

Although not shown, a sealing member is coupled between the inlet of the internal circulation pipe 30 and the second inlet hole 13 and between the outlet of the internal circulation pipe 30 and the second outlet hole 14 to form a fluid. can be prevented from leaking.

Therefore, while the first fluid and the second fluid flow through the heat exchanger, heat exchange is performed without being mixed with each other. Here, the first fluid and the second fluid are working fluids circulating in the heat exchanger, and the first fluid and the second fluid may have different temperatures and may be in a gas or liquid state.

The heat exchanger according to an embodiment of the present invention may further include a rotating screw 40 to increase the fluidity of the second fluid by crushing the cooled and crystallized fluid, and the rotating screw is the inner side of the internal circulation pipe 30 . can be located in

The rotating screw 40 includes a rotating shaft 41 connected to the motor 51 and the bearing box 52, and a rotating body 42 connected to the rotating shaft 41 to apply rotational force to the second fluid. can do.

The screw 43 prevents the second fluid from being frozen by rotating the second fluid, thereby significantly increasing the heat exchange efficiency of the first fluid and the second fluid.

The first perforated plate 60 may serve to reduce the flow velocity of the first fluid flowing in through the first inlet 11 and toward the internal circulation pipe 30 .

This is to prevent a problem that may occur when the flow rate of the first fluid is high and it is difficult to secure a sufficient time for heat exchange when it quickly passes around the inner circulation pipe 30 with a lot of empty space.

The first perforated plate 60 includes a first perforated plate body 61 coupled to the inner circumferential surface of the case 10 and a plurality of first perforated plate through-holes provided in the first perforated plate body 61 ( 62) and a first perforated plate central hole 63 provided in the center of the first perforated plate body 61 .

In addition, the first perforated plate central hole 63 guides the first fluid to the center of the internal circulation pipe 30 , and the first perforated plate through-hole 62 circulates the first fluid into the internal circulation. It may be provided to guide directly to the coil of the tube 30 or to guide outward.

At least a portion of the plurality of first perforated plate through-holes 62 may face the entire outer circumferential surface of the inner circulation pipe or may be provided radially outside of the entire outer circumferential surface of the inner circulation pipe, and the plurality of first perforated plates Another portion of the through hole 62 may be provided to face the inner circumferential surface of the internal circulation pipe or to face the inner space of the internal circulation pipe.

Accordingly, the first fluid passing through the first perforated plate through-hole 62 is directed toward the internal circulation pipe 30 at a low speed in a laminar flow form, and is rotated by the rotating screw 40 while being rotated by the internal circulation pipe. (30) and heat exchange sufficiently.

The heat exchanger according to an embodiment of the present invention is located inside the case 10 and is provided between the internal circulation pipe 30 and the bottom surface of the case 10, and after heat exchange with the internal circulation pipe 30 A second perforated plate 70 for reducing the flow velocity of the first fluid toward the first outlet 12 may be further included.

The second perforated plate 70 includes a second perforated plate body 71 coupled to the inner circumferential surface of the case 10 , and a plurality of second perforated plate through-holes 72 provided in the second perforated plate body 71 . ) may be included.

At least a portion of the plurality of second perforated plate through-holes 72 may face the entire outer circumferential surface of the inner circulation pipe 30 or may be provided radially outside the entire outer circumferential surface of the inner circulation pipe 30, the Another portion of the plurality of second perforated plate through-holes 72 may be provided to face the inner circumferential surface of the internal circulation pipe 30 or to face the inner space of the internal circulation pipe 30 .

A detailed structure of the internal circulation pipe 30 will be described with reference to FIG. 4 .

The inner circulation tube 30 may be configured by winding a coil, and the coil may be wound parallel to the ground in a radial direction of the central axis with respect to the central axis of the inner circulation tube, and a flow path may be formed around the central axis. can

In more detail, the central axis is a virtual axis and is provided perpendicular to the ground so that the first fluid flows up and down along the central axis, and the rotating screw is inserted into the center of the internal circulation pipe 30 to circulate the first fluid. At the same time, it is possible to evenly move the first fluid to the peripheral coil.

The coil wound parallel to the ground in the radial direction of the central axis may be formed to be stacked along the longitudinal direction of the central axis, which has an excellent effect of making it longer than the length of the coil that can be inserted per unit volume.

Even if the effect is not described in this specification, the present invention may additionally have different effects of each of the above-described components, and derive a new effect that cannot be seen in the prior art according to the organic coupling relationship between each of the above-described components can do.

In addition, the embodiments shown in the drawings may be modified and implemented in other forms, and when implemented including the configuration claimed in the claims of the present invention or implemented within the scope of equivalents, it should be considered to belong to the scope of the present invention. something to do.

Case 10 1st inlet hole 11
1st outlet hole 12 2nd inlet hole 13
2nd outlet 14 Cover 20
Spiral inner circulation pipe 30 Rotating screw 40
motor 51 bearing box 52
1st perforated plate 60 1st perforated plate body 61
2nd perforated plate through hole 62 1st perforated plate central hole 73
2nd perforated plate 70 2nd perforated plate body 71
Second perforated plate through hole 72

Claims (3)

a case for performing an external circulation pipe function by forming an external circulation passage through which the first fluid circulates therein;
a first inlet hole provided on the upper side of the case and through which the first fluid flows into the inside of the case;
a first outlet provided at the lower side of the case and through which the first fluid flows out of the case;
a cover sealing the open upper side of the case;
An internal circulation pipe installed inside the external circulation path and having a flow path through which a second fluid performing heat exchange with the first fluid circulates is formed and seated inside the case, the central axis of which is provided in a spiral shape perpendicular to the ground ; and
A first fluid positioned inside the case, provided between the cover and the internal circulation pipe, provided with a plurality of through holes, and flowing in through the first inlet hole to reduce the flow rate of the first fluid toward the internal circulation pipe 1 perforated plate; including;
The coil constituting the internal circulation pipe is
In order to increase the heat exchange rate of the first fluid by increasing the surface area, it is wound parallel to the ground in a radial direction of the central axis of the inner circulation pipe and is formed to be stacked along the longitudinal direction of the central axis. A heat exchanger, characterized in that it is a corrugated pipe. The method of claim 1,
It is located inside the case and is provided between the inner circulation pipe and the bottom surface of the case, a plurality of through holes are provided, and after heat exchange with the inner circulation pipe, the flow rate of the first fluid toward the first outlet is reduced. It further includes a second perforated plate
A second inlet hole in which the inlet of the internal circulation pipe is installed and a second outlet hole in which an outlet of the internal circulation pipe is installed are formed in the case,
At least a portion of the plurality of through-holes of the first perforated plate is provided on the outer side of the entire outer surface of the inner circulation pipe or facing the entire outer surface of the inner circulation pipe in the radial direction,
At least a portion of the plurality of through-holes of the first perforated plate is provided to face the inner circumferential surface of the inner circulation tube or to face the inner space of the inner circulation tube,
At least a portion of the plurality of through-holes of the second perforated plate is provided on the outer side in the radial direction facing the entire outer surface of the inner circulation tube or the entire outer surface of the inner circulation tube
Heat exchanger, characterized in that. The method of claim 1,
It further includes; a rotating screw provided inside the internal circulation pipe and applying a rotational force to the first fluid,
The rotating screw
The rotating shaft is provided perpendicular to the lower surface of the case to flow at least a portion of the first fluid toward the internal circulation pipe.
Heat exchanger, characterized in that.

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