JP2007085560A - Module radiator - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a module radiator capable of easily performing replacement work of a core unit. <P>SOLUTION: This module radiator 11 comprises a plurality of the core units 14 arranged parallel with one another, and each of the core units 14 comprises an upper sub tank 19 and a lower sub tank 20 installed on upper and lower sides thereof, a plurality of tubes 21 arranged parallel with each other between the upper sub tank 19 and the lower sub tank 20, and fins 22 formed around the tubes 21. An upper main tank 12 is installed on the upper part of the core units 14, and the core units 14 are installed on the upper main tank 12 detachably from the underside. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a radiator used in automobiles, construction machines, and the like, and more particularly to a module radiator in which a core is divided into a plurality of units.

  2. Description of the Related Art Conventionally, in automobiles, construction machines, etc., module radiators are used so that when a part of the radiator is damaged due to vibration or impact, only the damaged part can be replaced.

  As shown in FIG. 3, this type of module radiator 1 includes an upper main tank 2 and a lower main tank 3 which are provided in parallel in the vertical direction, and between the upper main tank 2 and the lower main tank 3. Each core unit 4 is detachably provided to the upper main tank 2 and the lower main tank 3.

  In such a module radiator 1, when replacing the core unit 4, as shown by the arrow in FIG. 3, the core unit 4 is once tilted rearward and then pulled obliquely upward to be removed. Then, another core unit 4 was newly attached in the reverse procedure of the removal work. (For example, refer to Patent Document 1).

U.S. Pat. No. 4,741,392

  However, in the conventional module radiator 1 described above, the replacement work of the core unit 4 is performed from above the core unit 4, so that it is difficult to perform the replacement work in an automobile or a construction machine with a high vehicle height. was there.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a module radiator capable of easily performing a core unit replacement operation.

  The module radiator 11 according to the present invention includes an upper sub-tank 19 and a lower sub-tank 20 that are respectively provided above and below, a plurality of tubes 21 that are arranged in parallel between the upper sub-tank 19 and the lower sub-tank 20, and around each tube 21. A plurality of core units 14 provided with fins 22 provided on the upper side are arranged side by side, and an upper main tank 12 is provided above each core unit 14, and each core unit 14 can be attached to and detached from the upper main tank 12 from below. It is provided in.

  Preferably, the core unit 14 can be inserted and connected to the upper main tank 12 via the O-ring 25.

  Further, the lower main tank 13 may be provided so as to communicate with each lower sub-tank 20, and the lower main tank 13 may be disposed at a position offset in a plane with respect to the core unit 14.

  According to the module radiator according to the present invention, the replacement operation of the core unit can be performed from below the core unit. Therefore, in a vehicle having a sufficient space below the radiator such as an automobile or a construction machine having a high vehicle height. The replacement operation of the core unit can be easily performed.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Here, FIG. 1 is a front view showing the module radiator according to the present embodiment, FIG. 2 is a side view thereof, and in FIG. 2, the frame is shown by a two-dot chain line for convenience.

  The module radiator 11 includes an upper main tank 12 and a lower main tank 13 provided in parallel in the vertical direction, and a plurality of (four in FIG. 1) cores provided between the upper main tank 12 and the lower main tank 13. The unit 14 is mainly composed of a pair of frames 15 provided in the vertical direction so as to hang from both ends of the upper main tank 12 to both side surfaces of the core unit 14 and to the rear of both ends of the lower main tank 13.

  The upper main tank 12 has a rectangular parallelepiped shape, and four core unit connection ports 16 are formed in the lower surface thereof, and a cooling water inlet 17 is provided on one end side (left side in FIG. 1) of the front surface. It has been. On the other hand, the lower main tank 13 has a rectangular parallelepiped shape, and four core unit connection ports (not shown) are formed on the rear surface thereof, and cooling is provided on the other end portion side (right side in FIG. 1) of the front surface. A water outlet 18 is provided. The lower main tank 13 is disposed at a position that is offset forward in plan with respect to the core unit 14, and does not overlap with the core unit 14 in plan.

  The core unit 14 is provided around the tubes 21, which are flat rectangular parallelepiped upper subtanks 19 and lower subtanks 20 provided above and below, a plurality of tubes 21 arranged in parallel between the upper subtanks 19 and lower subtanks 20, and the tubes 21. The cores 23 are formed by arranging a plurality of core units 14 side by side.

  An upper main tank connection pipe 24 extending upward is formed on the upper surface of the upper sub tank 19, and the upper main tank connection pipe 24 is formed so as to be plugged into the core unit connection port 16 of the upper main tank 12. . Further, double O-rings 25 are provided on the outer peripheral portion of the upper main tank connection pipe 24, and the space between the upper main tank 12 and the upper main tank connection pipe 24 is sealed by the O-ring 25. ing.

  On the other hand, a lower main tank connection pipe 26 extending forward is formed on the front surface of the lower sub tank 20, and the lower main tank connection pipe 26 is connected to the core unit connection port on the rear surface of the lower main tank 13. ing. The connection of the lower main tank connection pipe 26 to the core unit connection port can be performed by various connection means such as a flange and a union joint.

  Next, a procedure for replacing the core unit 14 of the radiator 11 according to the present embodiment will be described.

  First, when removing the core unit 14, after removing the connection between the lower main tank connecting pipe 26 and the lower main tank 13 of the core unit 14, the core unit 14 is pulled in the downward vertical direction. The lower main tank 13 is arranged so as to be offset in a plane so as not to overlap with the core unit 14, and the upper main tank connecting pipe 24 is inserted and connected to the upper main tank 12 via the O-ring 25. Thus, the core unit 14 can be detached from the upper main tank 12 simply by pulling the core unit 14 downward in the vertical direction. Therefore, the removal operation of the core unit 14 is greatly simplified.

  On the other hand, when another core unit 14 is newly attached, the upper main tank connection pipe 24 of the core unit 14 is connected to the core unit connection port 16 of the upper main tank 12 from below by a procedure reverse to the above-described removal operation. Then, the lower main tank connecting pipe 26 is connected to the lower main tank 13. Since the connection portion between the upper main tank connection pipe 24 and the upper main tank 12 is sealed by the double O-ring 25, the sealing performance can be improved.

  The lower main tank connecting pipe 26 is not limited to the above-described shape, and may be formed so as to be bent at a right angle forward from the lower surface of the lower sub tank 20 so as to be connected to the rear surface of the lower main tank 13. Alternatively, various modifications are possible, such as bending the lower sub-tank 20 into a U-shape from the lower surface of the lower sub-tank 20 so that the lower sub-tank 20 can be inserted and connected to the lower surface of the lower main tank 13. When the lower main tank connection pipe 26 is formed so as to be plugged into and connected to the lower main tank 13, no tool is required when the lower main tank connection pipe 26 is attached to or detached from the lower main tank 13. The replacement work of the core unit 14 can be further simplified.

  In the above embodiment, the lower main tank 13 is arranged so as not to overlap with the core unit 14 in a planar manner. However, depending on the shape of the lower main tank connecting pipe 26, the lower main tank 13 is somewhat overlapped with the core unit 14. It may be provided as follows. In that case, when replacing the core unit 14, it is necessary to tilt the core unit 14 somewhat backward. However, since the lower main tank 13 is arranged offset with respect to the core unit 14, the space behind Can be reduced.

  Furthermore, the lower main tank 13 may not necessarily be provided. Instead, the lower sub tanks 20 may be connected to each other by connecting the lower sub tanks 20 by piping.

It is a perspective view showing a module radiator concerning an embodiment of the invention. It is a side view showing a module radiator concerning an embodiment of the invention. It is a side view which shows a prior art example.

Explanation of symbols

11 Radiator 12 Upper main tank 13 Lower main tank 14 Core unit 19 Upper sub tank 20 Lower sub tank 21 Tube 22 Fin 25 O-ring

Claims (3)

A core unit comprising an upper sub-tank and a lower sub-tank respectively provided above and below, a plurality of tubes arranged in parallel between the upper sub-tank and the lower sub-tank, and fins provided around each of the tubes A module radiator characterized in that a plurality of side-by-side units are provided, an upper main tank is provided above each core unit, and each core unit is detachably attached to the upper main tank from below. The module-type radiator according to claim 1, wherein the core unit can be connected to the upper main tank via an O-ring. 3. The module radiator according to claim 1, wherein a lower main tank is provided so as to communicate with each of the lower sub tanks, and the lower main tank is disposed at a position offset in a plane with respect to the core unit.

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