KR100896767B1 - Evaporation tube fastening flange structure for water-cleaner - Google Patents

Abstract

The present invention relates to a structure for fixing an evaporator tube for a water purifier, and more particularly, to a structure for fixing an evaporator tube for a water purifier, comprising at least one flange having a pair of connecting holes, A first welding portion of argon welding which fixes a fixing bolt protruding outward through a hole and an evaporation pipe fitted to one side of the flange, a second welding portion of oxygen welding which fixes the fitted evaporation pipe to the other surface of the flange, And a fixing nut coupled to the fixed bolt for coupling the flange to the body housing.

According to the present invention, the components can be easily fixed to the body housing, so that it is possible to omit the trouble of matching the through holes of the components in order to fit the conventional fixing member and to reduce the thickness of the flange It is possible to reduce the cost of raw materials, thereby reducing the processing cost, thereby improving the efficiency of the work.

Evaporator, Evaporator, Refrigerant tube, Fixed, Welding

Description

[0001] The present invention relates to an evaporation tube fastening flange structure for a water purifier,

The present invention relates to a fixed flange structure, and more particularly, to a structure for fixing an evaporation pipe to a flange and forming a plurality of fixing bolts on the flange to fix and fix the evaporation pipe to the body housing, So that it is possible to omit the trouble of matching the through holes of the respective parts in order to fit the conventional fixing member and to reduce the thickness of the flange as compared with the conventional one. Therefore, the cost of raw materials can be reduced, And more particularly, to an evaporation pipe fixing flange structure for a water purifier which can improve the efficiency of the evaporation pipe.

Generally, an evaporator uses a refrigerant to maintain a surrounding material at a predetermined temperature or lower. As a result, heat is exchanged with the surrounding gas and liquid of the evaporator while the low temperature refrigerant is moved through the evaporator, The liquid is supplied to another cooling device or the like to keep the inside of the cooling device at a low temperature.

The evaporator includes a refrigerant pipe through which the refrigerant is moved, and an evaporation pipe communicating with the refrigerant pipe and performing heat exchange with a gas or liquid inside the cooling device. do.

1 is a view showing a fixing state of a conventional evaporator tube.

As shown in the drawing, both ends of a stainless (Ev) evaporation pipe 2 are located in the body housing 1 of the cooling device, and the evaporation pipe 2 is fixed to the flange 3, The flange 3 is fixed to the body housing 1 by the fixing member 6 together with the packing 4 and the flange cover 5 and the like.

The refrigerant pipe 7 is welded to the inside of both ends of the evaporation pipe 2 to supply the low temperature refrigerant to the evaporation pipe 2 and heat exchange with the gas or liquid of the cooling device, The refrigerant is discharged.

The fixing structure of the evaporation pipe 2 is such that the evaporation pipe 2 positioned through the flange 3 is provided on both sides of the flange 3 in order to maintain a firmly fixed state between the evaporation pipe 2 and the flange 3 Respectively.

After the packing 4 is installed in the evaporation pipe 2, the packing 4 is placed through the body housing 1, the flange cover 5 is installed on the outer surface of the body housing 1, The evaporator 2 is fixed to the body housing 1 by fixing the flange cover 5, the body housing 1, the packing 4,

At this time, each through hole through which the fixing member 6 passes is formed in the flange cover 5, the body housing 1 and the packing 4, and a fixing hole is formed in the flange 3 so that the fixing member 6 is fixed do.

The refrigerant pipe 7 having a small diameter is connected to the end of the evaporation pipe 2 fixed to the body housing 1 and then the connection part is welded and fixed firmly to fix the evaporation pipe 2 This is the end.

The weld between the evaporator 2 and the evaporator 2 and the refrigerant tube 7 is performed by using an oxygen source such as oxygen It is welding.

However, when the evaporation pipe 2 is welded to both surfaces of the flange 3, since the thickness of the evaporation pipe 2 is thin, welding cracking may occur due to overheating during welding, which may cause defects.

Further, the fixing hole formed so that the fixing member 6 can be fixed to the flange 3 should be opened only to one side in order to maintain the internal temperature of the cooling device. To meet this requirement, the flange 3 is formed thick There is a problem that more than necessary materials are used.

In the fixing of the fixing member 6 to the flange 3, it is difficult to match the through hole of each component with the fixing hole of the flange 3, And the flow of each component is generated due to the diameter being larger than the outer diameter.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a vacuum cleaner which fixes an evaporator tube to a flange and has a plurality of fixing bolts formed on the flange, So that it is possible to omit the trouble of matching the through holes of the respective parts in order to fit the conventional fixing member.

In addition, when the argon welding of the first welding portion is formed by welding the upper side of the grate, welding cracking due to overheating is prevented from being generated in the evaporation tube, and the contact area between the evaporation tube and the flange is increased The present invention provides an evaporation pipe fixing flange structure for a water purifier that can be more firmly fixed in accordance with the present invention.

According to an aspect of the present invention, there is provided an evaporation apparatus including an evaporation tube having an inlet end and an outlet end, a refrigerant tube for supplying / discharging refrigerant to / from the evaporation tube, a mounting hole through which the evaporation tube passes, The water purifier according to any one of claims 1 to 3, further comprising: a flange formed on the other side of the flange, the flange being located on an inner side of the body housing, A fixing bolt formed at least one of the fixing holes and protruding outward through a fixing hole of the body housing, a first welding portion which is an argon welding for fixing the fitted evaporating tube to one side of the flange, And a second welding part welded to the fixing bolt protruded to the outside of the body housing It comprises a retaining nut, which incorporate the group flanges to the body housing.

Preferably, the flange is formed with a protrusion protruding along the outer edge of the connection hole on one surface thereof. When the upper side of the gasket is welded during the argon welding of the first welding portion, welding cracking due to overheating is generated in the evaporator tube And increases the contact area between the evaporation pipe and the flange.

Further, the flange has a depression formed along the outer edge of the edge of the connection hole on the other surface, so that the welded portion of the flange and the evaporation pipe is more firmly fixed when the second welding portion is oxygen-welded.

Further, the fixing bolt is welded to the flange by spot welding.

Further, a flange cover is further provided on an outer side surface of the body housing from which the fixing bolt protrudes to prevent breakage of the body housing when the fixing nut is engaged.

Further, the thickness of the flange is 3 to 6 mm.

As described above, according to the evaporator tube fixing flange structure for a water purifier according to the present invention, since the evaporation tube is fixed to the flange and the fixing bolt fixed to the flange is positioned in the high hole of the body housing, It is possible to omit the inconvenience of matching the through holes of the respective components in order to easily fix the evaporator tube to the body housing and to reduce the thickness of the flange as compared with the prior art, It is a very useful and effective invention that can reduce the processing cost and improve the efficiency of the work.

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

It should be noted that the present invention is not limited to the scope of the present invention but is only illustrative and various modifications are possible within the scope of the present invention.

3 is an exploded view of a fixing flange structure for an evaporator tube for a water purifier according to the present invention. FIG. 4 is a perspective view of a water purifier according to the present invention, FIG. 5 is a view showing another embodiment of the installation of the evaporation pipe in the evaporator tube fixing flange structure for a purifier according to the present invention, FIG. 6 is a sectional view of FIG. 5 And FIG. 7 is a view showing a fixing bolt spot welding of the evaporator tube fixing flange structure for a water purifier according to the present invention.

As shown in the drawing, the evaporator tube fixing flange structure for a water purifier has a structure in which the evaporation tube 10 is fixed to the body housing 1, and the evaporation tube 10 is fixed so as to seal the inside of the body housing 1 do.

The evaporator tube fixing device includes a flange 100 to which the evaporator tube 10 is fixed, a fixing bolt 110 and a fixing nut 150. The refrigerant tube 130 is coupled to both ends of the flange 100, Respectively.

The first welding portion 120 is welded to one side of the evaporation pipe 10 and the flange 100 and the second welding portion 140 is welded to the other side of the evaporation pipe 10 and the flange 100 .

First, the evaporating pipe 10 has an inlet end and an outlet end. The inlet end and the outlet end are inserted through the connecting hole 102 of the flange 100, and the refrigerant pipe 130 is inserted into each end of the connecting hole 102, Are connected to each other to supply / discharge the refrigerant.

2 to 4, the flange 100 is formed with a pair of connection holes 102 through which both ends of the evaporation pipe 10 are inserted.

The evaporation pipe 10 is welded to one side of the flange 100 and the first welding portion 120 and fixed to the other side of the flange 100 as they are welded at the second welding portion 140.

At this time, the first welding portion 120 is argon welding, and the second welding portion 140 is oxygen welding.

The welded flange 100 is located inside the body housing 1 so that each end of the evaporation tube 10 protrudes outward through the installation hole of the body housing 1, The refrigerant pipe 130 is installed in the pipe 10.

When the flange 100 and the evaporation pipe 10 are fixed to each other, the end of at least one fixing bolt 110 fixed to the flange 100 is protruded outward through the fixing hole of the body housing 1, A fixing nut 150 is coupled to the protruding fixing bolt 110 to fix the evaporator tube 10 to the body housing 1. [

At this time, the flange 100 is formed with a protrusion 104 protruding along the outer side of the edge of the connection hole 102 on one side so that the upper side of the protrusion 104 is welded during the welding of the first welding part 120, 10 from being generated due to overheating.

In addition, since the thickness of the flange 100 itself is thinner than that of the conventional one, the material of the flange 100 can be prevented from being wasted because the film 104 has an effect of increasing the contact area between the evaporation pipe 10 and the flange 100.

Accordingly, the thickness of the flange 100 is 3 to 6 mm, and it is preferable that the flange 100 is 4 mm in the present invention.

The flange 100 is formed with a depression 106 along the outer side of the edge of the connection hole 102 on the other surface so that the flange 100 and the evaporation pipe 10 and the refrigerant pipe 130), the welding can be more firmly welded together.

5 to 6, the flange 100 is formed with a pair of connection holes 102. The connection holes 102 are formed in the flange 100, Both ends of the evaporation pipe 10 are inserted into the connection hole 102 so that both end portions of the evaporation pipe 10 are not protruded from the other surface.

The evaporation pipe 10 is fixed to the flange 100 by welding at the first welding portion 120 and the refrigerant pipe 130 is fitted to both ends of the fixed evaporation pipe 10, The flange 100, the evaporation pipe 10, and the refrigerant pipe 130 are simultaneously welded at the welded portion 140.

The evaporator 10 and the flange 100 are located inside the body housing 1 and the refrigerant pipe 130 is connected to the evaporator 10 through the installation hole of the body housing 1, An installation step 132 is formed at an end of the pipe 130 to determine the length of the pipe 130 to be inserted into the evaporation pipe 10.

In other words, at the end of the refrigerant pipe 130, a locking protrusion 132 protruding outwardly is formed at a position spaced apart from the end portion by a certain distance.

This determines the insertion distance with the evaporator tube 10 and widens the welding area at the second welder 140 so that the flange 100 can be securely fixed to the evaporator tube 10 and the refrigerant tube 130 have.

When the flange 100, the evaporator tube 10 and the refrigerant tube 130 are fixed, the ends of at least two fixing bolts 110 fixed to the flange 100 are fixed to the fixing holes of the body housing 1 And the fixing nut 150 is coupled to the protruding fixing bolt 110 to fix the evaporator tube 10 to the body housing 1. [

At this time, the flange 100 is formed with a protrusion 104 protruding along the outer side of the edge of the connection hole 102 on one side so that the upper side of the protrusion 104 is welded during the welding of the first welding part 120, 10 from being generated due to overheating.

In addition, since the thickness of the flange 100 itself is thinner than that of the conventional one, the material of the flange 100 can be prevented from being wasted because the film 104 has an effect of increasing the contact area between the evaporation pipe 10 and the flange 100.

Accordingly, the thickness of the flange 100 is 3 to 6 mm, and it is preferable that the flange 100 is 4 mm in the present invention.

The flange 100 is formed with a depression 106 along the outer side of the edge of the connection hole 102 on the other surface so that the flange 100 and the evaporation pipe 10 and the refrigerant pipe 130), the welding can be more firmly welded together.

The fixing bolt 110 is fixed to the flange 100 and is welded by spot welding so that the flange 100 and the fixing bolt 110 are positively (+ ) Pole and a negative (-) pole are connected to each other, and then the flange 100 and the fixing bolt 110 are mutually abutted to each other.

The evaporation pipe 10 fixed to the body housing 1 is further provided with a packing 160 and a flange cover 170 so that the inner and outer surfaces of the body housing 1 are not damaged. Has elasticity and is installed between the flange 100 and the body housing 1. [

The flange cover 170 is installed on the outer side of the body housing 1 to prevent the fixing nut 150 from directly contacting the body housing 1 when the fixing nut 150 is fastened.

At this time, the packing 160 and the flange cover 170 are formed with through holes through which the fixing bolts 110 and the refrigerant pipe 130 can pass.

1 is a view showing a fixing state of a conventional evaporator tube,

2 is a view showing a structure of an evaporating pipe fixing flange for a water purifier according to the present invention,

3 is an exploded view of the evaporator tube fixing flange structure for a water purifier according to the present invention,

4 is a sectional view of the evaporator tube fixing flange structure for a water purifier according to the present invention,

5 is a view showing another embodiment of the installation of the evaporation pipe in the evaporator tube fixing flange structure for a water purifier according to the present invention,

FIG. 6 is a sectional view of FIG. 5,

7 is a view showing fixing bolt spot welding of the evaporator tube fixing flange structure for a water purifier according to the present invention.

Description of the Related Art

1: Body housing 10: Evaporation tube

100: flange 102: connecting hole

104:

110: fixing bolt 120: first welding portion

130: Refrigerant pipe 140: Second welded part

150: Fixing nut 160: Packing

170: Flange cover

Claims (6)

An evaporator tube having an inlet end and an outlet end, a refrigerant tube for supplying / discharging the refrigerant to / from the evaporation tube, and a plurality of fixing holes into which a plurality of fixing members for fixing the evaporation tube are inserted A water purifier having a body housing, A flange disposed inside the body housing and having a pair of connection holes through which the opposite ends of the evaporation pipe are respectively inserted; At least two fixing bolts formed on the other surface of the flange and projecting outward through fixing holes of the body housing; A first welding portion for fixing the fitted evaporator tube to one surface of the flange; A second welding portion for fixing the fitted evaporator tube to the other surface of the flange; And And a fixing nut coupled to the fixing bolt protruding outside the body housing to couple the flange to the body housing, Wherein the evaporator tube is arranged to be mutually fixed by being welded at the flange and the first weld portion and is arranged to be simultaneously welded by the second weld portion to the evaporator tube and the flange second surface by being simultaneously welded to both ends of the fixed evaporator tube Wherein the evaporator tube and the flange are welded at the same time while applying a second weld only to the refrigerant tube and the evaporator tube. delete The method according to claim 1, Wherein the flange has a depression along an outer edge of an edge of the connection hole on the other surface so as to firmly fix the welded portion of the flange to the welded portion of the evaporator when the second weld is welded, Fixed flange construction. The method according to claim 1, Wherein the fixing bolt is welded to the flange by spot welding. The method according to claim 1, Wherein a flange cover is further provided on an outer side surface of the body housing from which the fixing bolt protrudes to prevent breakage of the body housing when the fixing nut is engaged. The method according to claim 1, The flange is formed with a protrusion protruding along the outer edge of the connection hole on one side so as to prevent welding cracking due to overheating of the evaporator due to welding of the upper side of the above- , And the contact area between the evaporating pipe and the flange is increased.

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