JP5226454B2 - Divided cooling tower - Google Patents

Description

  The present invention relates to a divided cooling tower obtained by dividing a large cooling tower into upper and lower units to facilitate transportation and assembly, and more particularly, to a connection structure between a lower unit and an upper unit of the divided cooling tower. .

Conventionally, in a large cross flow type cooling tower, in order to facilitate transportation and assembly, it is divided into a plurality of units and assembled on site (see, for example, Patent Document 1). In addition, the lower unit and the upper unit are connected by forming corresponding through holes in the connecting brackets formed in the connecting portions of both units, and fastening the nuts to the bolts inserted through the through holes. It is common to connect a unit and an upper unit (for example, refer patent document 2).
JP-A-8-189784 JP-A-5-264196

  However, in the large divided cooling tower as described above, the upper unit is lifted with a crane and connected to the upper unit at a predetermined position on the lower unit. When the upper unit is lowered from above, the upper unit is moved to the lower unit. Positioning to be installed at a predetermined position is troublesome, and the connecting work takes time and effort.

  Therefore, an object of the present invention is to provide a split type cooling tower in which the upper unit can be reliably installed on the upper part of the lower unit, and the connecting operation of both units can be easily performed in a short time. .

  In order to achieve the above object, the split type cooling tower of the present invention is a direct cooling system formed by placing an upper unit on the upper part of the lower unit and connecting the upper end of the lower unit and the lower end of the upper unit. In the AC divided cooling tower, a connection frame member is provided at each of an upper end portion of the lower unit and a lower end portion of the upper unit, and either the connection frame member of the lower unit or the connection frame member of the upper unit is provided. One of the connecting frame members is provided with a guide member that abuts the other connecting frame member and guides the position where the upper unit is placed on the lower unit to an appropriate position. .

  Furthermore, the split type cooling tower of the present invention is such that the guide member is divided into a plurality of projections at the lower part of the connecting frame member of the upper unit, and the height of the guide member is such that the fork of the forklift can be inserted. The space between the divided guide members is such that a pair of forks of the forklift can be inserted.

  According to the split type cooling tower of the present invention, when the upper unit lifted by the crane is lowered above the lower unit, the connecting frame members of both units are brought into contact with each other while being guided by the guide member. The upper unit can be easily and reliably installed at a predetermined position on the upper part of the unit, and the connecting operation of both units can be performed in a short time. Further, by providing the guide member in the upper unit so that it can be transported by a forklift, it is possible to easily load and unload it onto a truck.

  FIGS. 1 to 4 are views showing a first embodiment of the divided cooling tower of the present invention, FIG. 1 is a cross-sectional explanatory view of the main part at the time of connecting the lower unit and the upper unit, and FIG. FIG. 3 is a front view of the main part of the split type cooling tower, and FIG. 4 is a perspective view of the split type cooling tower.

  The split type cooling tower 11 is a cross-flow type split type cooling tower formed by connecting an upper unit 13 also having a rectangular parallelepiped shape to an upper part of a lower unit 12 having a rectangular parallelepiped shape. The lower unit 12 is provided with a water tank 12a at the lower portion and a plurality of legs 12b at the four corners of the lower end portion, and both sides are provided with outside air inlets having louvers 12c, respectively, inside each outside air inlet port. Is provided with a filler for gas-liquid contact. An upper frame (connecting frame member) 14 having a substantially U-shaped cross section is provided on the outer periphery of the upper side plate of the lower unit 12 so that the outer side is open. The receivers 15 and 15 are attached.

  The upper unit 13 is provided with an exhaust port 13b having an exhaust fan 13a at the center of the top plate portion, and the outside air inlets having a louver 13c are provided on both side surfaces as in the case of the lower unit 12. A filler is disposed inside the outside air inlet, and a water sprinkling unit for sprinkling circulating cooling water toward the filler is provided on the top of the filler.

  A lower frame (connecting frame member) 16 having a substantially U-shaped cross section is provided on the outer periphery of the lower side plate of the upper unit 13. The upper plate 16a of the lower frame 16 also serves as a panel receiver. Further, a guide member 17 is attached to the inside of the vertical plate 16b of the lower frame 16.

  The guide member 17 is provided at four positions on both the front side portion and the rear side portion of the lower frame 16. The mounting portion 17a is attached to the vertical plate 16b of the lower frame 16, and the lower frame is continuous with the mounting portion 17a. And a guide portion 17c provided with an inclined surface 17b that protrudes downward from 16 and inclines downward toward the inside. In addition, as shown in FIG. 3, both ends of the guide portion 17c are inclined surfaces 17d that are inclined downward toward the inside.

  A plurality of lower unit side connection holes 14c for connecting the upper unit 13 are formed on the upper plate 14b of the upper frame 14, and a plurality of connections for connecting the lower unit 12 are formed on the lower plate 16c of the lower frame 16. An upper unit side connection hole 16d is formed corresponding to the lower unit side connection hole 14c.

  The lower unit 12 and the upper unit 13 formed as described above are each manufactured in a factory, and then are separately transported to a setting place by a truck, and are connected at the setting place to form the divided cooling tower 11.

  In the installation place, first, after the lower unit 12 is installed at a predetermined position, the upper unit 13 is lifted by a crane and placed on the lower unit 12. Next, the lifted upper unit 13 is lowered in the direction of the lower unit 12, and the guide portion 17 c of the guide member 17 is inserted inside the upper frame 14. At this time, even if the lowering position of the upper unit 13 is slightly deviated, the inclined surfaces 17b and 17d of the guide member 17 provided at the four positions on the front side and the rear side of the lower frame 16 are the upper frame. 14, the lower unit 14 is brought into contact with each of the inner corners 14 d to guide the lowering of the upper unit 13, and the position of the upper unit 13 is corrected. Therefore, the upper unit 13 can be reliably lowered to a predetermined position. it can.

  As a result, the positions of the lower unit side connecting holes 14c formed in the upper frame 14 and the upper unit side connecting holes 16d formed in the lower frame 16 can be easily aligned. The upper unit 13 can be easily and reliably connected to the lower unit 12 by inserting the connecting bolts 18 into the 14c and the upper unit side connecting holes 16d and fastening the nuts 19 respectively.

  Further, the guide members 17 provided on both the front side both sides and the rear side both sides of the lower frame 16 have such a height that the fork 20 of the forklift can be inserted, and the distance between the guide members 17 is low. However, by providing a pair of forks 20, 20 of a forklift that is appropriately expanded at an interval at which the pair of forks 20, 20 can be inserted, the pair of forks 20, 20 of the forklift can be inserted between the guide members 17. The upper unit 13 can be supported by the forks 20 and 20 in a stable state, and the work safety can be improved.

  5 and 6 show other embodiments of the present invention. Components that are the same as those in the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.

  FIG. 5 is a cross-sectional explanatory view of a main part at the time of connecting the lower unit and the upper unit according to the second embodiment of the present invention. In this embodiment, a guide member 17 is attached to the lower unit 12. In the guide member 17, mounting portions 17 a are attached to the vertical plates 14 e on both front and rear side portions of the upper frame 14 of the lower unit 12, and the guide portion 17 c protrudes above the upper frame 14.

  Since the present embodiment is formed in this way, even when the lower unit 12 and the upper unit 13 are connected at the installation location, even if the lowering position of the upper unit 13 suspended by the crane may be displaced, the guide member Since the 17 inclined surfaces 17b and 17d contact the inner corner 16e of the lower frame 16 of the upper unit 13 to guide the lowering of the upper unit 13, the upper unit 13 is reliably lowered to a predetermined position set in advance. Can be made.

  FIG. 6 is a cross-sectional explanatory view of a main part at the time of connecting the lower unit and the upper unit according to the third embodiment of the present invention. In this embodiment, the upper plate 14b of the upper frame 14 has a plurality of conical shapes. A guide member 21 is provided, and a guide hole 16 f having a slightly larger diameter than the bottom surface of the guide member 21 is formed at a position corresponding to the guide member 21 of the lower frame 16.

  As a result, even if the lowering position of the upper unit 13 suspended by the crane may be shifted, the position of the upper unit 13 is corrected as the guide hole 16f is inserted into the guide member 21, and a predetermined predetermined value is set. The upper unit 13 can be reliably lowered to the position.

  In this embodiment, the conical guide member 21 is provided in the upper frame 14 and the guide hole 16 f is provided in the lower frame 16. However, the guide member 21 is provided in the lower frame 16 and the guide hole 16 f is provided in the upper frame 14. It can also be provided.

  The lower frame 16 and the upper frame 14 may be connected by bolts and nuts as in the above-described embodiment, but may be connected by welding. Furthermore, it is possible to employ a combination of the structures shown in the above embodiments.

It is principal part sectional explanatory drawing at the time of the connection operation | work of the lower unit which shows the 1st example of this invention, and an upper unit. It is a principal part sectional drawing of a split type cooling tower. It is a principal part front view of a division type cooling tower similarly. It is a perspective view of a division type cooling tower. It is principal part cross-sectional explanatory drawing at the time of the connection operation | work of the lower unit and upper unit which show the 2nd form example of this invention. It is principal part cross-section explanatory drawing at the time of the connection operation | work of the lower unit and upper unit which show the 3rd example of this invention.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 11 ... Split type cooling tower, 12 ... Lower unit, 12a ... Water tank, 12b ... Leg part, 12c ... Louver, 13 ... Upper unit, 13a ... Exhaust fan, 13b ... Exhaust port, 13c ... Louver, 14 ... Upper frame, 14a ... Lower plate, 14b ... Upper plate, 14c ... Lower unit side connecting hole, 14d ... Inner corner, 14e ... Vertical plate, 15 ... Panel receiver, 16 ... Lower frame, 16a ... Upper plate, 16b ... Vertical plate, 16c ... Lower plate, 16d ... Upper unit side connecting hole, 16e ... Inner corner, 16f ... Guide hole, 17 ... Guide member, 17a ... Mounting part, 17b, 17d ... Inclined surface, 17c ... Guide part, 18 ... Connecting bolt, 19 ... nut, 20 ... fork, 21 ... guide member

Claims (1)

In the cross-flow divided cooling tower formed by placing the upper unit on the upper part of the lower unit and connecting the upper end of the lower unit and the lower end of the upper unit, the upper end of the lower unit and the upper A connecting frame member is provided at each of the lower end portions of the units, and one of the connecting frame member of the lower unit and the connecting frame member of the upper unit is connected to the other connecting frame member. A guide member is provided for guiding the position where the upper unit is placed on the lower unit to a proper position , and the guide member is divided into a plurality of parts below the connecting frame member of the upper unit. The height of the guide member is such that it can be inserted into the forklift, and there is a gap between the divided guide members into which the pair of forks can be inserted. Split cooling tower, characterized in that.

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