KR20090038049A - A tank of radiator - Google Patents

Abstract

A radiator tank is provided to prevent an inlet pipe and an outlet pipe from being separated and prevent damage to a fixing part and improve durability by having high bonding strength without lowering distance between the fixing parts. A radiator tank comprises a first fixing part(121) and a second fixing part(122) which are protruded to fix an inlet pipe(220) or an outlet pipe(230) parallel to a longitudinal direction of a radiator tank. The first and second fixing parts comprise: a clearance portion(123) isolating the pipe from the radiator tank(100) at constant distance; a mounting portion(125) formed in the upper part of the clearance portion in order to corresponding to the boundary surface of the pipe; an insertion portion(124) having a slope to the mounting portion; and an extension portion extended to the upper part of the mounting portion and the insertion portion.

Description

Radiator Tank {A Tank of Radiator}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radiator tank, and more particularly, to a radiator tank that uses an anchoring portion having a seating portion and an inclined portion to prevent an inlet pipe or an outlet pipe of an oil cooler from being easily detached and to facilitate an assembly process.

Radiator is configured to prevent the temperature of the engine rises above a certain temperature, the high temperature cooling water absorbing the heat generated by the combustion while circulating inside the engine is circulated by the water pump to pass through the radiator to the outside It is a heat exchanger that releases heat to prevent overheating of the engine and maintains an optimal operating condition.

On the other hand, the oil cooler (Oil Cooler) is provided in the automatic transmission vehicle is a device for cooling the engine oil of the torque converter or power transmission system. Since the temperature of the automatic transmission oil communicating with the inside of the oil cooler is higher than the temperature of the radiator, heat is exchanged by using the engine coolant of the radiator and cooled.

The oil cooler can be largely classified into a built-in oil cooler provided inside the radiator tank and an external oil cooler, and in the case of the built-in oil cooler, an oil cooler pipe for introducing or discharging oil into the oil cooler includes a wall of one side of the radiator. Is fixed to.

First, the conventional built-in oil cooler is an oil cooler which is installed in the radiator tank in which a pair of hollow parts are formed to be spaced apart by a predetermined distance, and is fixed therein. An inner pin is interposed between the double pipes in the form of a double pipe, and oil is circulated. main body; It is formed in a tubular shape on one side of the outer surface of the main body and penetrates the radiator tank to protrude outside the radiator tank, and a thread is formed on the outer surface of the protruding tube, and an inner seat having a circumferential surface protruding to be in close contact with the inner surface of the radiator tank. An boss formed with an additional portion; Fixing means coupled to the thread of the boss to fix the body; And an inlet pipe and an outlet pipe which are fastened by the end of the boss and fastened by means of fastening. Characterized in that it is formed to include.

1 is a perspective view showing the oil cooler and oil cooler pipe mounting of the conventional radiator, Figure 2 is an enlarged perspective view of the mounting structure of the oil cooler pipe of the radiator.

As shown in the figure, the inlet pipe 21 or the outlet pipe 22 of the oil cooler 20 is fixed by the fixing means 12 on one side of the radiator tank 10.

The fixing means 12 is a means which is formed at the same position in the width direction of the hollow portion 11 and the radiator tank 10 to fix the oil cooler pipes 21 and 22 (inlet pipe or outlet pipe). The outer wall of the radiator tank 10 and the oil cooler pipes 21 and 22 at a lower distance together with the first fixing means 13 and the first fixing means 13 for determining a reference position in a vertical direction on one side. Position spaced portion 15 is formed to be spaced apart, the pipe seating portion 16 is formed so that the oil cooler pipe (21, 22) is seated on the upper side of the position spaced portion 15, the upper portion of the pipe seating portion 1 the distance from the fixing means 13 is formed smaller than the distance between the pipe seat and the first fixing means 13 to form a tightening portion 17 to prevent the oil cooler pipes 21 and 22 from being separated. It is formed by the second fixing means (14).

However, since the oil cooler pipe is mounted in the vertical direction to the radiator tank, the fixing means has a problem in that one side fixing means is damaged due to a large stress applied to the first fixing means and the second fixing means.

In addition, there is a problem that the oil cooler pipe is frequently released when the hose is connected to the oil cooler pipe because the fastening force by the tightening unit is weak enough to perform a fixed role.

In order to solve the above problems, Japanese Patent Laid-Open No. 2001-180299 (name of the invention: an oil cooler built-in radiator tank) has been disclosed, which is illustrated in FIG. 3.

The oil cooler built-in radiator tank 30 shown in FIG. 3 is a pair having an oil cooler 40 embedded therein in a shape of an enclosure having one side opened and spaced apart by a predetermined distance so that the oil cooler pipe protrudes outward. Hollow portion 31 of the formed, the oil cooler pipe corresponding to the study 31 is directed toward the other hollow portion 31 in the radiator tank 30 along the outer wall of the tank 30, the other hollow portion A pair of the first fixing part 32 and the second fixing part 33 fixing the outer surface of the oil cooler pipe near the vicinity of the 31 are spaced apart from each other by a predetermined distance to protrude outside the radiator tank 30. The first fixing part 32 has a seating portion on which the oil cooler pipe is seated toward the bottom surface 34 of the radiator tank 30, and the second fixing portion 33 has the seating portion on the first side. In the reverse direction of the seating part direction of the fixing part 32 It is characterized in that the arrangement.

The radiator tank is formed by the first fixing part and the second fixing part spaced apart by a predetermined distance so as to insert the oil cooler pipe at an angle, and to be seated at the seating part of the first fixing part and the second fixing part, and Since it is fixed in parallel, excessive force in the vertical direction is not applied for mounting, so that the first fixing part and the second fixing part are prevented from being broken, and the first fixing part and the second fixing part are moved upward and downward through the upper side. There is an advantage of preventing the termination of the fastening.

However, in the radiator tank, since the first fixing part and the second fixing part should be inserted at an angle of about 60 ° or more from the mounting position as the first fixing part and the second fixing part are spaced apart, the width of the position of the oil cooler pipe is increased. There is a difficulty in assembling the Kerr, and the portion fixing the oil cooler pipe is very narrow so that the stress is concentrated on the first fixing portion and the second fixing portion has a large risk of breakage in the portion.

Accordingly, the present invention has been made to solve the problems as described above, the object of the present invention is to adjust the angle of the oil cooler pipe is inserted to simplify the assembly process and increase the fixing force for fixing the oil cooler pipe and durability It is to provide a radiator tank raised.

Radiator tank of the present invention is the oil cooler 200, the body 220 is built therein, a pair of hollow portion 110 is formed in a hollow spaced apart a predetermined distance on one side is the inlet pipe of the oil cooler 200 In the radiator tank 100 to which the 220 and the outlet pipe 230 are coupled, the radiator tank 100 has the inlet pipe 220 or the outlet pipe 230 on one side where the hollow part 110 is formed. The separation unit 123 spaced apart from the outer surface of the radiator tank 100 in the height direction by a predetermined distance, the inlet pipe 220 or the outlet pipe 230 on the upper side of the separation unit 123 of the tank 100 A seating portion 125 corresponding to the circumferential surface of the inlet pipe 220 or the outlet pipe 230, an insertion portion 124 formed to be inclined with the seating portion 125 to be mounted parallel to the longitudinal direction; and The mouth above the seating portion 125 and the insertion portion 124 The first fixing part 121 to form an extension part 126 extending inclined at a predetermined angle with a longitudinal direction of the tank 100 to guide the pipe 220 or the outlet pipe 230 to the insertion part 124. And a second fixing part 122 is formed to protrude.

In addition, the insertion part 124 of the first fixing part 121 and the insertion part 124 of the second fixing part 122 are positioned in parallel to each other in a diagonal direction and the maximum separation distance is the inlet pipe 220 or the outlet pipe. Same as the outer diameter D of 230, and the seating portion 125 of the first fixing portion 121 and the seating portion 125 of the second fixing portion 122 are also positioned in parallel to each other in a diagonal direction and spaced apart from each other. The distance is characterized by the same as the outer diameter D of the inlet pipe 220 or the outlet pipe 23.

In addition, the spacer 123 is characterized in that the deformation preventing groove 127 is further formed in the longitudinal direction of the tank 100 on the side in contact with the inlet pipe 220 or outlet pipe 230.

Accordingly, the radiator tank of the present invention is formed such that the insertion portion and the extension portion are inclined with the seating portion on which the inlet pipe or the outlet pipe is seated so that the inlet pipe or the outlet pipe is easily separated even if the force in the up and down directions is applied. It has a high bonding force even without narrowing the distance between the fixing parts has the advantage of reducing the risk of breakage of the fixing part during assembly and increase the durability to secure the oil cooler pipe more stably.

Hereinafter, the radiator tank 100 of the present invention having the features as described above will be described in detail with reference to the accompanying drawings.

Figure 4a is a perspective view of the radiator tank 100 of the present invention, Figure 4b is an exploded perspective view of the radiator tank according to the invention, Figure 5 is a plan view showing the mounting structure of the oil cooler pipe of the radiator tank 100 of the present invention 6 is an enlarged perspective view of the radiator tank 100 of the present invention, Figure 7 is a conceptual diagram showing the mounting of the radiator tank 100 of the present invention, Figure 8 is a plan view showing the mounting of the radiator tank according to the present invention. 9 is a cross-sectional view of the radiator tank 100 of the present invention.

Radiator tank 100 of the present invention is one side is hollow, is formed long in the longitudinal direction is the oil cooler 200, the body 220 is built therein, to fix the oil cooler 200, the main body 220 A pair of hollow portions 110 are formed to be spaced apart from each other by a predetermined distance.

The oil cooler 200 main body 220 is spaced a predetermined distance on one side of the outer surface is formed with a screw thread on the outer surface is formed a boss portion is coupled to the inlet pipe 220 and the outlet pipe 230, the nut for fixing to the radiator tank And a sealing member for reinforcing airtightness.

As shown above, the radiator tank 100 of the present invention has a first fixing part for fixing the inlet pipe 220 or the outlet pipe 230 coupled to the boss portion to the outer surface of the radiator tank 100 ( 121) and the second fixing part 122, the radiator tank 100 is combined with the header to form a header tank of the radiator.

The first fixing part 121 and the second fixing part 122 correspond to each other to fix the inlet pipe 220 or the outlet pipe 230 to a surface on which the hollow part 110 of the radiator tank 100 is formed. It is formed in a shape that is, by the first fixing part 121 and the second fixing part 122 spaced apart from the outer surface of the radiator tank 100 in the upward direction 123, the seating portion 125 and the insertion portion ( 124, and an extension part 126 are formed, and the insertion part 124 is formed to be inclined with the seating part 125.

The spaced portion 123, the inserting portion 124, the extension portion 126, and the seating portion 125 are formed by the first fixing portion 121 or the second fixing portion 122. The unit 123 is configured to fix the inlet pipe 220 or the outlet pipe 230 spaced apart from the outer surface of the radiator tank 100 by a predetermined distance from the inlet pipe 220 or the outlet pipe 230. Contact.

In addition, the spacer 123 is preferably a strain preventing groove 127 is further formed in the longitudinal direction of the tank 100 on the side in contact with the inlet pipe 220 or outlet pipe 230.

The deformation preventing groove 127 is configured to prevent excessive force from being concentrated in the first fixing part 121 and the second fixing part 122, and the inlet pipe 220 and the outlet pipe 230 may be formed. It is formed smaller than the outer diameter D.

The seating portion 125 is formed above the spacer 123 to surround the inlet pipe 220 and the outlet pipe 230 in a region where the inlet pipe 220 and the outlet pipe 230 are seated. The maximum separation distance is formed by the first fixing part 121 and the second fixing part 122 to be equal to the outer diameter D of the inlet pipe 220 and the outlet pipe 230, and the seating part 125 The inlet pipe 220 or outlet pipe 230 is mounted in parallel with the longitudinal direction of the tank (100) through.

The insertion part 124 is formed to be inclined with the seating part 125, and the extension part 126 is formed above the insertion part 124 and the seating part 125 to form the inlet pipe 220. And guide the outlet pipe 230 to be moved to the insertion portion 124.

In the radiator tank 100 of the present invention, the seating part 125, the insertion part 124, and the extension part 126 are formed, and the insertion part 124 and the extension part 126 are the tank 100. The inlet pipe 220 and the outlet pipe 230 mounted to the seating portion 125 are formed to be inclined at a predetermined angle and a predetermined angle thereof by the inserting portion 124 and the extending portion 126. It is possible to prevent the movement to the first, without forming a conventional fastening portion, and the like, since the excessive force is not required to fasten the inlet pipe 220 and the outlet pipe 230, the first fixing portion 121 and The risk of breaking the second fixing part 122 can be reduced.

In other words, the radiator tank 100 of the present invention is inserted obliquely along the inclination of the insertion portion 124 and the extension portion 126, as shown in FIG. As shown in b), it is in close contact with the seating area 125 and fixed in parallel with the longitudinal direction of the radiator tank 100.

As shown in FIG. 6, the inlet pipe 220 or the outlet pipe 230 is seated in the z-axis direction parallel to the longitudinal direction of the tank 100, and is spaced a predetermined distance in the y-axis direction. The insertion part 124 and the seating part 125 are formed to be inclined with each other in the first fixing part 121 and the second fixing part 122. In detail, the first fixing part 121 has a seating part 125 formed in the B direction, and the second fixing part 122 has a seating part 125 formed in the A direction to form the inlet pipe 220. Alternatively, the outlet pipe 230 is tightly fixed by the seating portion 125 of the first fixing portion 121 and the second fixing portion 122.

That is, the inlet pipe 220 or the outlet pipe 230 of the oil cooler 200 is connected to the first fixing part 121 and the second fixing part 122 as shown in FIG. It is inserted inclined at a predetermined angle along the extension portion 126 formed by the movement to the insertion portion 124 area, and then moved to be in close contact with the seating portion 125 region, as shown in FIG. It is fixed.

In addition, the insertion part 124 of the first fixing part 121 and the insertion part 124 of the second fixing part 122 are positioned in parallel to each other in a diagonal direction and the maximum separation distance is the inlet pipe 220 or the outlet pipe. It is the same as the outer diameter (D) of 230, the seating portion 125 of the first fixing portion 121 and the seating portion of the second fixing portion 122 are also located in a diagonal direction parallel to each other and the maximum separation distance is the inlet pipe It is formed equal to the outer diameter D of the 220 or the outlet pipe 23.

In FIG. 8, the portion indicated by the thick dotted line shows a portion where the inlet pipe 220 or the outlet pipe 230 contacts the insertion portion 124, and the portion indicated by the thick solid line indicates the inlet portion. A portion of the pipe 220 or the outlet pipe 230 in contact with the seating portion 125 is shown.

Accordingly, the first fixing part 121 and the second fixing part 122 may be dismantled by fixing the inlet pipe 220 or the outlet pipe 230 by the insertion part 124 and the extension part 126. Since it is possible to prevent the inlet pipe 220 or the outlet pipe 230 by fixing the inlet pipe 220 or the outlet pipe 230 by a conventional tightening force, so that the distance between the fixing portion can be formed wide. There is an advantage that can minimize the possibility that the fixing part is broken.

In FIG. 9, the part indicated by hatching is the insertion part 124 area, and the seating part 125 area shown in bold in the drawing is actually the inlet pipe 220 or the outlet pipe 230. 125).

Accordingly, the radiator tank 100 of the present invention forms the insertion part 124 and the extension part 126 inclined at a predetermined angle so that the inlet pipe 220 or the outlet pipe 230 is fixed in parallel and at the same time a fixed force is applied. By being able to increase, it is possible to prevent breakage and disassembly of the fastening.

The present invention is not limited to the above-described embodiments, and the scope of application is not limited, and various modifications can be made without departing from the gist of the present invention as claimed in the claims.

1 is a perspective view of a conventional radiator.

Figure 2 is an enlarged perspective view of the oil cooler pipe mounting structure of the radiator tank shown in FIG.

Figure 3 is a perspective view showing the oil cooler pipe mounting structure of another conventional radiator tank.

4a is a perspective view of a radiator tank according to the invention;

Figure 4b is an exploded perspective view of a radiator tank according to the present invention.

5 is a plan view showing the mounting structure of the oil cooler pipe of the radiator tank according to the present invention.

Figure 6 is an enlarged perspective view of the radiator tank according to the present invention.

7 is a conceptual view showing the mounting of the radiator tank according to the present invention.

8 is a plan view showing the mounting of the radiator tank according to the present invention.

9 is a cross-sectional view of the radiator tank according to the present invention.

** Description of the symbols for the main parts of the drawings **

100: radiator tank

110: hollow part

121: first fixing portion 122: second fixing portion

123: spaced portion 124: insertion portion

125: seating portion 126: extension portion

127: strain relief groove

200: oil cooler

210: body

220: inlet pipe 230: outlet pipe

D: outer diameter of inlet pipe or outlet pipe

α: inclination angle of insertion part and extension part

Claims (3)

The oil cooler 200 and the main body 220 are built therein, and a pair of hollow parts 110 are formed to be spaced apart at a predetermined distance from one side thereof so that the inlet pipe 220 and the outlet pipe of the oil cooler 200 are formed. In the radiator tank 100 to which the 230 is coupled, The radiator tank 100 Spacer 123, the spacer 123 for separating the inlet pipe 220 or outlet pipe 230 from the outer surface of the radiator tank 100 by a predetermined distance in the height direction on one side of the hollow portion 110 is formed. Seating portion corresponding to the circumferential surface of the inlet pipe 220 or outlet pipe 230 so that the inlet pipe 220 or outlet pipe 230 is mounted in parallel with the longitudinal direction of the tank 100 on the upper side of the 125, an insertion part 124 formed to be inclined with the seating part 125, and the inlet pipe 220 or the outlet pipe 230 above the seating part 125 and the insertion part 124. The first fixing part 121 and the second fixing part 122 protrude to form an extension part 126 extending inclined at a predetermined angle with a longitudinal direction of the tank 100 to guide the insertion part 124 to the insertion part 124. Radiator tank, characterized in that formed. The method of claim 1, The insertion part 124 of the first fixing part 121 and the insertion part 124 of the second fixing part 122 are positioned in parallel to each other in a diagonal direction and have a maximum separation distance from the inlet pipe 220 or the outlet pipe 230. Is the same as the outer diameter (D) of The seating part 125 of the first fixing part 121 and the seating part 125 of the second fixing part 122 are also disposed in parallel to each other in a diagonal direction and have a maximum separation distance from the inlet pipe 220 or the outlet pipe 23. Radiator tank, characterized in that the same as the outer diameter (D) of. The method according to claim 1 or 2, The spacer 123 is a radiator tank, characterized in that the deformation preventing groove (127) is further formed in the longitudinal direction of the tank 100 on the side in contact with the inlet pipe (220) or outlet pipe (230).

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