KR20100060770A - Heat insulating device for pipe conveying fluid - Google Patents

Abstract

PURPOSE: A heat insulation device for fluid pipes of a ship is provided to prevent freezing and burst of fluid pipes by continuously the hot air by a heater to the fluid pipes through electric heating wires. CONSTITUTION: A heat insulation device for fluid pipes of a ship comprises a fluid pipe(100), glass fiber fabric(110), a heater pipe(120), a heat insulating layer(140), and an outer insulating layer(150). The fluid pipe is formed out of a metal material and allows for passage of fluid. The glass fiber fabric is formed on the outer surface of the fluid pipe. The heater pipe is in contact with the outer surface of the glass fiber fabric. An electric heating wire(130) connected to an external power supply is accepted in the heater pipe which transfers the heat generated by the electric heating wire to the fluid pipe. The heat insulating layer insulates the fluid pipe and the heater pipe. The outer insulation layer is formed on the outer surface of the heat insulating layer for protection.

Description

Heat insulating device for pipe conveying fluid

The present invention relates to a vessel fluid pipe thermal insulation device, and relates to a vessel fluid pipe thermal insulation device that insulates a fluid pipe installed in a vessel exposed to low temperature outside air conditions to operate normally under low temperature outside air conditions.

In general, fire hoses, water pipes, etc. are exposed on the open deck of ships that operate in cold regions, and such fluid pipes are indispensably used to prevent freezing.

In particular, in the case of the water supply pipe, the water flows into the water supply pipe, so when exposed to cold outside air, the risk of freezing is high.

Such a thermostat is shown in Korean Patent Application Publication No. 10-2008-0093193.

1 is a longitudinal cross-sectional view of a main portion of the heat preservation apparatus assembled to the supply drain pipe according to the related art, in order to prevent the supply drain pipe 10 from being exposed to outside air and freezing, a predetermined space is provided therein. The circulation part 20 is provided to surround the outer surface of the water supply and drain pipe 10 exposed to the outside air to be sealed.

Then, the inlet pipe 30 is drawn out so that the inlet pipe 30 communicates with the feed drain pipe 10 outside the rear end of the circulation unit 20, that is, the feed pipe 10 in the direction in which water flows inside the feed drain pipe 10. It is inserted into the space of the circulation portion 20 long and positioned at the tip side of the circulation portion 20.

At the rear end of the circulation part 20, the discharge pipe 40 is drawn out so as to communicate with each other and is connected to the supply drain pipe 10 again.

On the other hand, in the middle portion of the inlet pipe 30 is installed below the predetermined temperature, the high-pressure pump 50 to operate by detecting this so that a part of the water in the water supply pipe 10 is easily introduced into the circulation portion 20. Device.

However, in the related art, only a part of the water supply pipe is insulated, and a method of preventing freezing by continuous circulation of water is selected. When water is not supplied, the water circulation stops and water remaining inside the water pipe freezes. There is a problem that can occur.

As another prior art, as shown in Fig. 2, a method of warming the entire pipe is introduced.

The prior art is to install a metal pipe (2) on the outer surface of the main pipe (1) where water supply is made, and to surround the outside of the entire pipe with a glass fiber pipe (3) having a FRP cover, It is a method of preventing the freezing of the main pipe (1) by flowing steam into the metal pipe. However, in the conventional method, the purpose of freezing prevention is achieved while steam flows, but when steam does not flow, condensate is formed on the metal pipe itself, thereby causing the problem of freezing the metal pipe itself.

The present invention has been made to solve the above-mentioned problems of the prior art, a vessel that insulates the fluid pipe from the external cold air at the same time to prevent the fluid pipe from freezing by continuously supplying the heat by the electric heating wire to the fluid pipe It is an object to provide a fluid pipe thermostat.

The present invention for achieving the above object is a fluid pipe is formed of a metal material and the fluid flows therein; A glass fiber fabric formed on an outer surface of the fluid pipe; A heater pipe formed in contact with an outer surface of the glass fiber fabric, and receiving an electric heating wire connected to an external power source therein and transferring heat generated from the electric heating wire to the fluid pipe side; An insulating layer formed to surround the fluid pipe and the heat pipe in a concentric manner; And, the outer surface of the heat insulating layer is a heat insulating outer skin layer formed to surround the heat insulating layer; ship fluid pipe thermal insulation device comprising a technical gist.

Here, the heat insulation layer is coupled to each other in the longitudinal direction, a joint connection layer is formed in the connection portion, it is preferable that the auxiliary insulation outer skin layer is formed on the joint connection layer to surround the joint connection layer.

In addition, the heat insulation layer is formed by mutually bonding the cross-sectional semi-circular arc shape, it is preferable that the adhesive is applied to the adhesive portion and the auxiliary heat insulating outer skin layer is formed on the outer surface of the adhesive portion.

In addition, the heat insulation layer is formed of PU foam, and the heat insulation outer skin layer is preferably formed of FRP.

Accordingly, there is an advantage to continuously supply the heat by the electric heating wire to the fluid pipe side and at the same time to insulate the fluid pipe from the external cold air to prevent freezing.

The vessel fluid pipe thermal insulation device according to the present invention has an effect of preventing the fluid pipe from freezing by continuously supplying the heater heat by the electric heating wire to the fluid pipe side.

In addition, there is also an effect of preventing freezing by keeping the fluid pipe warm from external cold air.

Hereinafter, with reference to the accompanying drawings will be described in more detail with respect to the vessel fluid pipe thermostat according to the present invention.

Figure 3 is a longitudinal sectional view of the main portion of the thermostat of the ship fluid pipe according to the present invention, Figure 4 is a partial cutaway perspective view.

As shown, the vessel fluid pipe thermal insulation device according to the present invention is largely fluid pipe 100, glass fiber fabric 110, heater pipe 120, electric heating wire 130, heat insulation layer 140 And an insulating outer skin layer 150, a joint connecting layer 160, and an auxiliary insulating outer skin layer 151.

First, the fluid pipe 100 will be described.

The fluid pipe 100 has a cylindrical pipe shape in which a space in which fluid flows is formed and is made of a metal material having good thermal conductivity.

And the outer surface of the fluid pipe 100 is formed with a glass fiber fabric 110 to insulate the heater pipe 120 and the fluid pipe 100 to be described later, the glass fiber fabric 110 weave a glass fiber It is formed in one form to insulate the fluid pipe 100 from the outside and at the same time serves to insulate the heater pipe 120 to be described later.

The heater pipe 120 is formed of a copper material having good thermal conductivity and is formed in a circular pipe shape. In addition, the heater pipe 120 is formed in contact with the outer surface of the glass fiber fabric 110, the inner heating wire 130 connected to the external power source is accommodated, the electric heating wire 130 is an external power source When the heat is received, the generated heat is transferred to the fluid pipe 100 through the heater pipe 120.

Here, the heater pipe 120 is installed on the outer surface of the fluid pipe in the form of contacting the fluid pipe 100.

The outer surface of the fluid pipe 100 and the heater pipe 120 is formed with a heat insulating layer 140 to insulate the fluid pipe 100 and the heater pipe 120 from the external cold air, the heat insulating layer 140 ) Is formed of a semi-circular arc-shaped polyurethane foam having a predetermined thickness (hereinafter referred to as a `` oil-based foam '') and formed in a pipe shape by bonding the adhesive parts 141 to each other using an adhesive. It is configured to surround the outer surface of the body pipe 100 and the heater pipe 120.

Here, the heat insulation layer 140 is formed in a plurality of coupling connection in the longitudinal direction, is formed to surround the fluid pipe 100 and the heater pipe 120, by connecting a plurality of heat insulation layer 140 in the longitudinal direction The reason for the configuration is that when the insulation layer 140 is damaged by an external factor, there is an advantage that only the damaged part can be replaced.

And the connection portion is formed with a joint connecting layer 160 for connecting the heat insulation layer to each other in the longitudinal direction, the joint connection layer 160 is to form a bleeding foam in the field, if necessary, so as to combine the one heat insulation layer and the other heat insulation layer mutually It is formed by filling the connection.

The outer surface of the heat insulating layer 140 is formed with a heat insulating outer skin layer 150 to protect the heat insulating layer 140 from external shocks, etc., the heat insulating outer skin layer 150 is fiberglass reinforced plastics (FRP) Is formed of a material is formed in a form that is coated to surround the heat insulating layer 140 on the outer surface of the heat insulating layer 140.

Meanwhile, the joint connecting layer 160 should also be protected from the outside, thereby forming a secondary insulating outer skin layer 151 in a form of coating a FRP material on the joint connecting layer 160 to protect the joint connecting layer 160. Let's do it.

In addition, the adhesive part 141 of the heat insulating layer 140 also needs to be protected from the outside, and forms an auxiliary heat insulating outer skin layer 151 in the form of coating an F Alp material on the outer surface of the adhesive part 141 to form the adhesive part 141. To protect, the auxiliary heat insulating outer skin layer 151 is formed by working in the field, if necessary.

Hereinafter, the operation effect of the ship fluid pipe thermostat according to the present invention will be described later.

First, the user places the fluid pipe 100 on which the fiberglass fabric 110 is formed on the outer surface, and places a plurality of heater pipes 120 around the fluid pipe 100. In this case, the heater pipe 120 is formed to be in contact with the fluid pipe (100). Then, the electric heating wire 130 connected to an external power source is introduced into the heater pipe 120.

In the above state, the insulating layer 140 is formed by adhering the lubricating foam having a semi-circular shape and the insulating outer skin layer 150 formed on the outer surface thereof. And the longitudinal connection of the heat insulating layer 140 and the heat insulating layer 140 is connected by filling the connecting portion by filling the lubricating foam to form a joint connection layer 160.

The vessel fluid is formed by forming an auxiliary insulating outer skin layer 151 made of FRP in the adhesive part 141 and the joint connection layer 160 while the adhesive part 141 is bonded and the joint connection layer 160 is connected. The pipe thermostat is completed.

1 is a longitudinal sectional view of the main portion of the state in which the thermostat according to the prior art is assembled to the supply drain pipe.

Figure 2 is a cross-sectional view of the pipe insulation device according to the prior art.

3 is a longitudinal cross-sectional view of the main portion of the thermal insulation device of the ship fluid pipe according to the present invention.

Figure 4 according to the invention Figure 3 is a partially cutaway perspective view of the thermal insulation device of the ship fluid pipe according to the present invention.

<Explanation of symbols for main parts of drawing>

100: fluid pipe

110: glass fiber fabric

120: heater pipe

130: electric heating wire

140: heat insulation layer

141: adhesive part

150: insulation outer skin layer

151: outer insulation outer skin layer

160: joint connection layer

Claims (6)

A fluid pipe formed of a metal material and having a fluid flowing therein; A glass fiber fabric formed on an outer surface of the fluid pipe; A heater pipe formed in contact with an outer surface of the glass fiber fabric, and receiving an electric heating wire connected to an external power source therein and transferring heat generated from the electric heating wire to the fluid pipe side; An insulating layer for insulating the fluid pipe and the heat pipe; And, And a heat insulation outer skin layer formed to surround the heat insulation layer on an outer surface of the heat insulation layer. The method of claim 1, The insulation layer is coupled to each other in the longitudinal direction, the connection portion is a marine fluid pipe thermostat characterized in that the joint connection layer is formed. The method of claim 2, The joint connection layer, marine fluid pipe thermostat, characterized in that the auxiliary insulation outer skin layer is formed to protect the joint connection layer. The method of claim 1, The insulation layer is formed by mutually bonding the cross-sectional semi-circular arc-shaped cross-section, the vessel fluid pipe insulation device characterized in that the adhesive is applied to the adhesive portion and the auxiliary insulation outer skin layer is formed on the outer surface of the adhesive portion. The method according to any one of claims 1 to 4, The insulating layer is a vessel fluid pipe heat insulating device, characterized in that formed by PU FOAM. The vessel fluid pipe heat insulating apparatus according to claim 5, wherein the heat insulating outer skin layer is formed of FRP.

Images