KR20160077611A - Finsless double pipe heat exchanger - Google Patents

Abstract

The present invention relates to a finless double tube heat exchanging device capable of increasing a heat exchange rate and an electric heat area by doubly performing heat exchange between an inner side and an outer side of a heat exchange tube. The finless double tube heat exchanging device according to the present invention comprises: a heat exchanging tube which is a finless double tube and performs primary heat exchange by firstly heating an inner tube of the finless double tube so that exhaust gas is moved to a secondary heat exchange space formed in a hot water tank through an inner tube passage; and an exhaust gas passage formed to penetrate a chamber firstly heated by flames generated in a burner of both chambers connected with an inner pipe and an outer pipe to increase a heat exchange rate of the finless double tube heat exchanging device. The exhaust gas passage sends exhaust gas to the secondary heat exchange space formed in a hot water tank to allows the exhaust gas to meet exhaust gas introduced through an inner exhaust gas passage, thereby performing secondary heat exchange with the outer pipe of the heat exchange device by transmitting even heat to the secondary heat exchange space formed in the hot water tank.

Description

Finless type double pipe heat exchanger {omitted}

The present invention relates to a pinless type double pipe heat exchanger, and more particularly, to a pinless type double pipe heat exchanger capable of double heat exchange in an inner pipe and an outer pipe of a heat exchange pipe, Exchange apparatus.

In recent years, energy saving has been increasing due to rapid economic growth and improved living standards, and a high efficiency heat exchanger according to energy saving has been proposed. However, a heat exchanger can expand heat transfer area where heat absorption per unit volume is performed However, the structure for forming the exhaust gas flow path is configured to perform heat exchange only on one side of the outer surface or inner side surface of the heat exchange tube, and sufficient heat exchange can not be achieved.

That is, there has been a problem that the heat exchange surface is in contact with the combustion gas in the unit heat exchange tube and the heat exchange is performed only on the outer surface of the unit heat exchange tube or only on one surface of the inner heat exchange tube.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the conventional problems as described above. Accordingly, the present invention is directed to a pinless type double pipe heat exchanging apparatus in which a heat exchange tube is a double- The inner pipe of the heat exchanger tube of the finless type having the flame generated from the burner is firstly heated by the first heat exchanger and the high temperature combustion gas is formed in the inner pipe of the double tube The exhaust gas discharged through the exhaust gas channel flows into the secondary heat exchange space formed inside the hot water tank enclosing the heat exchanger to allow secondary heat exchange with the outer pipe of the heat exchanger, A pin-less type double pipe heat exchanger capable of increasing the exchange rate, An exhaust gas flow path is formed through a chamber in which a flame generated in the burner is first heated in the chambers on both sides to which the inner pipe and the outer pipe are connected so that the exhaust gas flows into the secondary heat exchange space formed in the hot water tank, And to provide a heat exchanger in which even heat is transferred to the secondary heat exchange space formed inside the hot water tank by bringing the exhaust gas into contact with the exhaust gas flowing through the pipe exhaust gas channel, thereby achieving high heat exchange.

In order to achieve the above object, in the present invention, A plurality of double pipe outer pipes are attached to the inside of the chamber through the two chambers in a circular or box shape

Also, a plurality of double pipe inner pipes are attached through the outer pipe of the double pipe so as to penetrate through the outer surface of the chamber, so that a heat medium flow path is formed between the outer pipe and the inner pipe so that a fluid as a heat medium flows into both chambers

Also, since the inner surface of the penetrating inner pipe is formed into an exhaust gas flow path, the flame generated in the burner is discharged through the inner pipe of the double pipe type heat exchange pipe,

Further, the high-temperature combustion gas is discharged through the exhaust gas passage formed in the inner pipe of the double pipe and flows into the secondary heat exchange space formed inside the hot water tank, thereby heating the outer pipe to perform secondary heat exchange, An exhaust gas flow path is formed through the chamber in which the flame generated in the burner is first heated in the chambers on both sides to which the inner pipe and the outer pipe are connected to increase the heat exchange rate of the apparatus, So that the exhaust gas flows into the secondary heat exchange space and the outer pipe is heated like the exhaust gas discharged from the inner pipe to meet the secondary heat exchange so that the secondary heat exchange space formed inside the hot water tank In a heat exchanger for uniform delivery.

Wherein the heat exchange pipe is a double pipe and the inner pipe is positioned through the outer pipe to form a heat medium flow path between the outer pipe and the inner pipe.

The inner pipe of the double pipe is connected to the inner side surface of the chamber when the chamber and the heat exchange pipe are connected to each other, and the outer pipe of the double pipe is connected to the chamber And a heat medium flow path is formed between the outer side pipe and the inner side pipe so that the fluid as the heat medium is exchanged between the chambers.

Further, an exhaust gas flow path is formed on the inner surface of the inner side pipe of the double pipe installed through the end surfaces of the chambers installed on both sides so that the exhaust gas can be discharged through the chamber provided on both sides of the heat exchange pipe

And a supply pipe for connecting the supply and discharge pipes of the heat medium to one side of the chamber is protruded on the outer side, and a partition is provided between the supply pipe and the discharge pipe inside the both chambers, and is divided into a supply side chamber and an exhaust side chamber by a diaphragm.

Also, in the finless type double pipe heat exchanger, the flame generated in the burner first heats the inner pipe of the heat exchange pipe of the double pipe to perform the primary heat exchange, and the combustion gas of the high temperature forms the exhaust gas channel And then flows into the secondary heat exchange space formed inside the hot water tank to heat the outer pipe so that the secondary heat exchange can be performed to increase the heat transfer area and to increase the heat exchange rate of the device, And an exhaust gas flow path passing through a chamber in which a flame generated in the burner is first heated is formed in the chambers on both sides to which the outer pipe is connected so that the exhaust gas flows into the secondary heat exchange space formed in the hot water tank, Secondary heat exchange can be achieved by heating the outer pipe like exhaust gas. Met to Rock is characterized in that uniformly transfer a high heat in the secondary heat exchange area formed inside the hot water tank.

As described above, the finless type double pipe heat exchanger according to the present invention has a dual heat exchanger tube, in which the heat medium can be heat exchanged to increase the heat transfer area and the heat exchange rate .

In addition, by increasing the heat exchange rate as described above, the energy saving can be greatly contributed.

FIG. 1 is a state diagram showing a heat flow generated in a burner in a state in which a pinless type dual pipe heat exchanger according to an embodiment of the present invention (design) is mounted.
FIG. 2 is a view showing a flow of a heating medium (hot water) in a state where the finless type double pipe heat exchanger according to the embodiment according to the present invention (design) is mounted.
3 is a front sectional view of a pinless type double pipe heat exchanger.
Figure 4 is a front view of a pinless type dual tube heat exchanger.
Figure 5. Front section of the hot water tank.
6. FIG. 1 is a plan view and a cross-sectional view showing a chamber side and a double pipe attached with a supply and discharge pipe according to the present invention (design) according to the configuration of a pinless type double pipe heat exchanger;
FIG. 7 is a plan view and a cross-sectional view showing that a double tube is attached to an opposite chamber to which a feed and discharge tube is attached according to the configuration of a pinless type double tube heat exchanger according to the present invention.

Hereinafter, a finless double tube heat exchanger according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the pinless type double pipe heat exchanger 120 according to the embodiment of the present invention includes a heat exchange tube 121.122 as a pinless type double tube, and the flame generated in the burner 110 The heat exchange tube inner pipe 122 of the double tube is first heated to perform the primary heat exchange and the high temperature combustion gas is discharged through the exhaust gas passage 126 formed in the inner pipe 122 of the double tube, And is introduced into the secondary heat exchange space 150 formed in the tank 130 to heat the outer pipe 121 so that the secondary heat exchange can be performed and the chambers 123.124 An exhaust gas flow path 126 passing through the chamber 123 in which the flame generated in the burner 110 is first heated is formed and the exhaust gas is introduced into the secondary heat exchange space 150 formed in the hot water tank 130 So that the inner pipe The outer pipe 121 is heated such that the exhaust gas discharged from the outdoor heat exchanger 122 is heated so that the secondary heat exchange can be performed so that high heat is uniformly transferred to the secondary heat exchange space formed inside the hot water tank.

A heating medium flow path 125 is formed between the outer pipe 121 and the inner pipe 122 to allow the heating medium (hot water) 140 to flow from the chambers 123.124 to the chamber 123.124 The hot water in the exhaust gas chamber 150 formed between the heat exchanging devices 120 on the inner surface of the hot water tank 130 flows into the hot water tank 130 ) The temperature is maintained in the hot water so that the hot water can be provided at an appropriate temperature.

That is, in the heat exchanger 120 of the present invention, the heat exchange tube 121.122 constituting the heat exchanger is disposed in the form of a pinless double tube so that the hot water 140, which is the heating medium 140, flows through the outer tube 121 and the inner tube 122 and a chamber 123.124 is provided at both end surfaces of the tube so as to supply and discharge the heating medium 140.

At this time, the pinless type dual pipe heat exchanger 120 has a chamber 123.124 attached to both sides constituting the heat exchanger body 120 as seen from FIG. 3, FIG. 4, FIG. 6, And a plurality of double tube type heat exchange tubes 121.122 connected to the heat exchanger 123.124.

The outer tube 121 penetrates the inner side surface of the chamber 123.124 in which the tube is attached so that the fluid as the heating medium 140 flows in the chamber 123.124 between the inner tube 122 and the outer tube 121 And the inner tube 122 is attached to the chamber 123.124 through the outer side of the tube where the tube of the chamber 123.124 is attached so that the fluid 140 in the chamber 123.124 is attached to the chamber 123.124, And the chamber 124. The fluid channel 125 is formed in the chamber 124,

The exhaust gas flow path 126 is formed on the inner surface of the inner tube 122 so that the exhaust gas can be exhausted through the chamber 123.124 provided on both sides of the heat exchange tube 121.122.

The flame generated in the burner 110 among the chambers 123.124 on both sides to which the inner pipe 122 and the outer pipe 121 are connected in order to increase the heat exchange rate of the apparatus 120 is passed through the chamber 123, An exhaust gas flow path 126 is formed in the hot water tank 130, The exhaust gas is introduced into the secondary heat exchange space 150 through the exhaust gas flow path 126 of the inner pipe 122 and the exhaust gas flows into the secondary heat exchange space 150 formed in the hot water tank 130 .

Accordingly, since the high heat generated in the burner 110 is subjected to the double heat exchange with the flame and the exhaust gas, the fin-type dual tube heat exchanger 120 of the present invention can enlarge the heat transfer area and increase the heat exchange rate.

The specific embodiments of the present invention have been described above. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. I will understand.

≪ Description of Signs to Main Parts of the Drawings &
110: Burner
The heat exchanging device includes a heat exchanging device 121, an outer heat exchanging tube 122, an inner heat exchanging tube 123, a chamber 124 having a heating medium supply and discharge tube, a chamber 125, a heat medium flow tube 126, an exhaust gas tube 127, a heating medium supplying tube 128,
130: Hot water tank 131: Hot water chamber 132: Heat exchanger and hot water tank connection piping 133: Hot water tank exhaust connection 134: Year
140: chamber heat medium compartment
150: Exhaust gas chamber between heat exchanger and hot water tank

Claims (4)

Wherein the heat exchange pipe is a double pipe and the inner pipe is positioned through the outer pipe to form a heat medium flow path between the outer pipe and the inner pipe.
The inner pipe of the double pipe is connected to the inner side surface of the chamber when the chamber and the heat exchange pipe are connected to each other, and the outer pipe of the double pipe is connected to the chamber And a heat medium flow path is formed between the outer side pipe and the inner side pipe so that the fluid as the heat medium is exchanged between the chambers.
Further, an exhaust gas flow path is formed on the inner surface of the inner side pipe of the double pipe installed through the end surfaces of the chambers installed on both sides so that the exhaust gas can be discharged through the chamber provided on both sides of the heat exchange pipe
And a supply pipe for connecting the supply and discharge pipes of the heat medium to one side of the chamber is protruded on the outer side, and a partition is provided between the supply pipe and the discharge pipe inside the both chambers, and is divided into a supply side chamber and an exhaust side chamber by a diaphragm.
Also, in the finless type double pipe heat exchanger, the flame generated in the burner first heats the inner pipe of the heat exchange pipe of the double pipe to perform the primary heat exchange, and the combustion gas of the high temperature forms the exhaust gas channel And then flows into the secondary heat exchange space formed inside the hot water tank to heat the outer pipe so that the secondary heat exchange can be performed to increase the heat transfer area and to increase the heat exchange rate of the device, And an exhaust gas flow path passing through a chamber in which a flame generated in the burner is first heated is formed in the chambers on both sides to which the outer pipe is connected so that the exhaust gas flows into the secondary heat exchange space formed in the hot water tank, Secondary heat exchange can be achieved by heating the outer pipe like exhaust gas. Pin-less type double-tube heat exchanger to meet the lock, characterized in that to uniformly deliver a high heat in the secondary heat exchange area formed inside the hot water tank The fin-less type double pipe heat exchanger (120) according to claim 1, wherein the heat exchange tube (121.122) is a pinless type double tube, and the fluid as the heating medium (140) flows from the chamber (123.124) The outer tube 121 is attached to the chamber 123.124 through the inner side of the tube in which the tube of the chamber 123.124 is attached and the inner tube 122 is connected to the tube of the chamber 123.124 Is attached to the chamber 123.124 through the attached directional outer surface to form a fluid conduit 125 such that the fluid 140 in the chamber 123.124 flows between the chamber 123 and the chamber 124.
The exhaust gas flow path 126 is formed on the inner side surface of the inner tube 122 so that the exhaust gas can be discharged through the chamber 123.124 installed on both sides of the heat exchange tube 121.122.
The flame generated in the burner 110 is first heat-exchanged by heating the inner pipe 122 of the heat exchange tube of the double tube and the combustion gas of high temperature is discharged from the exhaust pipe 122 formed in the inner pipe 122 of the double tube Exchanged space 150 formed in the hot water tank 130 and discharged through the flow path 126 to heat the outer pipe 121 so that the secondary heat exchange can be performed and the inner pipe and the outer pipe An exhaust gas flow path 126 passing through the chamber 123 in which the flame generated in the burner 110 is heated first is formed in the chambers 123.124 on both sides of the pipe connected to the pipe, So that the exhaust gas flows into the exchange space 150 to heat the outer pipe 121 like the exhaust gas discharged from the inner pipe 122 so that the secondary heat exchange can be performed, High heat transfer to the heat exchange space.
A heating medium flow path 125 is formed between the outer pipe 121 and the inner pipe 122 to allow the heating medium (hot water) 140 to flow from the chambers 123.124 to the chamber 123.124, The hot water in the exhaust gas chamber 150 formed between the heat exchanger 120 on the inner surface of the hot water tank 130 is allowed to flow to the hot water in the hot water tank 130, Thereby providing hot water at an appropriate temperature. The fin-less type double pipe heat exchanger (120) according to claim 1, wherein the heat exchange tube (121.122) is a pinless type double tube, and the fluid as the heating medium (140) flows from the chamber (123.124) The outer tube 121 is attached to the chamber 123.124 through the inner side of the tube in which the tube of the chamber 123.124 is attached and the inner tube 122 is connected to the tube of the chamber 123.124 Is attached to the chamber 123.124 through the attached directional outer surface to form a fluid conduit 125 such that the fluid 140 in the chamber 123.124 flows between the chamber 123 and the chamber 124.
The exhaust gas flow path 126 is formed on the inner side surface of the inner tube 122 so that the exhaust gas can be discharged through the chamber 123.124 installed on both sides of the heat exchange tube 121.122.
The flame generated in the burner 110 is first heat-exchanged by heating the inner pipe 122 of the heat exchange tube of the double tube and the combustion gas of high temperature is discharged from the exhaust pipe 122 formed in the inner pipe 122 of the double tube Exchanged space 150 formed in the hot water tank 130 and discharged through the flow path 126 to heat the outer pipe 121 so that the secondary heat exchange can be performed and the inner pipe and the outer pipe An exhaust gas flow path 126 passing through the chamber 123 in which the flame generated in the burner 110 is heated first is formed in the chambers 123.124 on both sides of the pipe connected to the pipe, So that the exhaust gas flows into the exchange space 150 to heat the outer pipe 121 like the exhaust gas discharged from the inner pipe 122 so that the secondary heat exchange can be performed, It conveys high heat evenly in the heat exchange space.
A heating medium flow path 125 is formed between the outer pipe 121 and the inner pipe 122 to allow the heating medium (hot water) 140 to flow from the chambers 123.124 to the chamber 123.124, The hot water in the exhaust gas chamber 150 formed between the heat exchanger 120 on the inner surface of the hot water tank 130 is allowed to flow to the hot water in the hot water tank 130, Thereby providing hot water at an appropriate temperature. The fin-less type double pipe heat exchanger (120) according to claim 1, wherein the heat exchange tube (121.122) is a pinless type double tube, and the fluid as the heating medium (140) flows from the chamber (123.124) The outer tube 121 is attached to the chamber 123.124 through the inner side of the tube in which the tube of the chamber 123.124 is attached and the inner tube 122 is connected to the tube of the chamber 123.124 Is attached to the chamber 123.124 through the attached directional outer surface to form a fluid conduit 125 such that the fluid 140 in the chamber 123.124 flows between the chamber 123 and the chamber 124.
The exhaust gas flow path 126 is formed on the inner side surface of the inner tube 122 so that the exhaust gas can be discharged through the chamber 123.124 installed on both sides of the heat exchange tube 121.122.
The flame generated in the burner 110 is first heat-exchanged by heating the inner pipe 122 of the heat exchange tube of the double tube and the combustion gas of high temperature is discharged from the exhaust pipe 122 formed in the inner pipe 122 of the double tube Exchanged space 150 formed in the hot water tank 130 and discharged through the flow path 126 to heat the outer pipe 121 so that the secondary heat exchange can be performed and the inner pipe and the outer pipe An exhaust gas flow path 126 passing through the chamber 123 in which the flame generated in the burner 110 is heated first is formed in the chambers 123.124 on both sides of the pipe connected to the pipe, So that the exhaust gas flows into the exchange space 150 to heat the outer pipe 121 like the exhaust gas discharged from the inner pipe 122 so that the secondary heat exchange can be performed, It conveys high heat evenly in the heat exchange space.
A heating medium flow path 125 is formed between the outer pipe 121 and the inner pipe 122 to allow the heating medium (hot water) 140 to flow from the chambers 123.124 to the chamber 123.124, The hot water in the exhaust gas chamber 150 formed between the heat exchanger 120 on the inner surface of the hot water tank 130 is allowed to flow to the hot water in the hot water tank 130, So as to maintain the temperature of the hot water at an appropriate temperature.

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