CN219474408U - Basin structure is broadcast to cooling tower - Google Patents

Abstract

The utility model discloses a cooling tower water sowing basin structure, which is applied to the technical field of cooling towers, wherein a baffle plate is arranged between a water sowing basin bottom plate and a cooling tower side plate; the baffle is connected with the bottom plate of the water sowing basin, and the inner side edge of the water sowing basin and the outer side edge of the water sowing basin are connected to form the end face of the water sowing basin; four sides of the partition plate are bent outwards at right angles to form thickness edges; the thickness edge is connected with the inner side edge of the water sowing basin and the outer side edge of the water sowing basin through bolts; the thickness edge spaces the tub from the cooling tower side plate. The utility model effectively prevents water from overflowing from the outer wall of the cooling tower under the condition of no need of viscose by changing the structure between the bottom plate of the water sowing basin and the side plate of the cooling tower.

Description

Basin structure is broadcast to cooling tower

Technical Field

The utility model is applied to the technical field of cooling towers, and particularly relates to a water sowing basin structure of a cooling tower.

Background

The water sowing basin is a key part in the cooling tower and has the main function of realizing uniform water distribution. The water-sowing basin cover is used for shielding the water-sowing basin and preventing water from splashing.

The structure of the current water sowing basin of the cooling tower is shown in fig. 1-3, all parts are sheet metal parts and are connected through bolts, wherein the side plate 6 of the cooling tower directly forms the side wall of the water sowing basin, and the bottom plate 4 of the water sowing basin is directly connected with the side plate 6 of the cooling tower through bolts; in the operation process of the cooling tower, water in the water sowing basin can permeate from a gap between the water sowing basin bottom plate 4 and the cooling tower side plate 6, then flows downwards along the cooling tower side wall 6, permeates from the joint of the outer wall of the cooling tower, and causes running water on the outer wall of the cooling tower. To solve this problem, glue or glue strips are currently used to fill the gap between the tub bottom plate 4 and the cooling tower side plate 6 to prevent water from leaking out the sides.

However, the process operation of sealing by adopting glue or adhesive tape is relatively complex, the assembly efficiency is low, the sealing service life of the glue is limited, and water seepage can be caused on the outer wall of the cooling tower after a long time.

Disclosure of Invention

Aiming at the problems, the utility model provides a cooling tower water sowing basin structure, which can effectively prevent water from overflowing from the outer wall of a cooling tower without viscose by changing the structure between a water sowing basin bottom plate and a cooling tower side plate.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a cooling tower water sowing basin structure, a baffle plate is arranged between a water sowing basin bottom plate and a cooling tower side plate; the baffle is connected with the bottom plate of the water sowing basin, and the inner side edge of the water sowing basin and the outer side edge of the water sowing basin are connected to form the end face of the water sowing basin; four sides of the partition plate are bent outwards at right angles to form thickness edges; the thickness edge is connected with the inner side edge of the water sowing basin and the outer side edge of the water sowing basin through bolts; the thickness edge spaces the tub from the cooling tower side plate.

Compared with the prior art, the utility model has the technical effects that:

because the baffle is additionally arranged between the bottom plate of the water sowing basin and the side plate of the cooling tower, the bottom plate of the water sowing basin is spaced from the side plate of the cooling tower, the baffle forms the end face of the water sowing basin, and even if water permeates into a gap between the bottom plate of the water sowing basin and the baffle, the permeated water can not flow onto the side plate of the cooling tower, so that the water can not permeate onto the outer wall of the cooling tower even if water leaks, but can not directly drip onto the filler.

As a further improvement of the technical scheme, the thickness edges of the two side ends of the partition plate are connected with the inner side edge of the water sowing basin and the outer side edge of the water sowing basin through bolts; the thickness edges of the upper end and the lower end of the partition plate are connected with the upper edge and the lower edge of the inner side edge of the water sowing basin and the outer side edge of the water sowing basin through bolts.

The improved technical effects are as follows: so that the baffle plate can form firm connection with the water sowing basin through bolts.

As a further improvement of the technical scheme, the upper and lower end folds and the two side folds of the inner side edge of the water sowing basin and the outer side edge of the water sowing basin are connected with the side plate of the cooling tower through bolts.

The improved technical effects are as follows: so that the water sowing basin and the side plate of the cooling tower form firm connection. Meanwhile, the distance between the side plate of the cooling tower and the bottom plate of the water sowing basin is increased, so that water flow can not flow to the side plate of the cooling tower.

As a further improvement of the technical scheme, a baffle is arranged on the inner side surface of the outer side edge of the water sowing basin; one side edge of the water sowing basin cover is clamped below the baffle; a hexagonal handle bolt is arranged on the water sowing basin cover and close to the inner side edge of the water sowing basin; the hexagonal handle bolt is in threaded connection with the inner side edge of the water sowing basin.

The improved technical effects are as follows: the water-sowing basin cover can be opened by a worker only by standing on the inner side of the cooling tower, so that the convenience of the water-sowing basin cover when being opened is improved.

As a further improvement of the technical scheme, a handle is arranged on one side, close to the hexagonal handle bolt, of the water sowing basin cover.

The improved technical effects are as follows: the handle is additionally arranged, so that the handle is more convenient to open.

Drawings

FIG. 1 is a schematic view of a conventional cooling tower tub.

Fig. 2 is an enlarged schematic view of a portion a in fig. 1.

FIG. 3 is a schematic view of the water flow leakage path of a conventional water basin.

Fig. 4 is a schematic view of an improved water basin structure.

Fig. 5 is a schematic view of a mounting structure of a basin spacer.

Fig. 6 is a schematic view of the installation structure of the cover of the water sowing basin.

Fig. 7 is a schematic view of the structure of the cover of the water sowing basin.

FIG. 8 is a schematic view of the water flow leakage trajectory in the improved multicast basin.

In the figure: 1-thickness sides; 2-a butterfly bolt; 3-a water sowing basin cover; 4-a bottom plate of the water sowing basin; 5-sowing the edges of the basin; 6-cooling tower side plates; 7-the inner side of the water sowing basin; 8-connecting edges; 9, the outer side edge of the water sowing basin; 10-a separator; 31-cover side panels; 32-hexagonal handle bolts; 33-handle; 34-baffle.

Detailed Description

In order that those skilled in the art may better understand the technical solutions of the present utility model, the following detailed description of the present utility model with reference to the accompanying drawings is provided for exemplary and explanatory purposes only and should not be construed as limiting the scope of the present utility model.

As shown in fig. 1-8, a cooling tower water basin structure is provided with a baffle plate 10 between a water basin bottom plate 4 and a cooling tower side plate 6; the baffle plate 10 is connected with the bottom plate 4 of the water sowing basin, and the inner side 7 of the water sowing basin and the outer side 9 of the water sowing basin are connected to form the end face of the water sowing basin; four sides of the partition board 10 are bent outwards at right angles to form a thickness side 1; the thickness edge 1 is connected with the inner side edge 7 of the water sowing basin and the outer side edge 9 of the water sowing basin through bolts; the thickness rim 1 separates the tub from the cooling tower side plate 6.

Specifically, the partition board 10 is a sheet metal part formed by bending a steel plate, wherein four sides are bent towards the same surface at right angles to form a thickness side 1, and two opposite sides are bent outwards at right angles again to form a connecting side 8; the upper and lower surfaces of the two ends of the inner side 7 and the outer side 9 of the water sowing basin extend out to be connected with the corresponding thickness side 1 through bolts; the two connecting edges 8 of the partition plate 10 are connected with the cooling tower side plate 6 by bolts.

The water in the water basin can permeate out from the gap between the water basin bottom plate 4 and the partition plate 10, but the permeated water can directly fall into the filling under the influence of gravity; since the gap is spaced apart from the cooling tower side plate 6 by the width of one thickness side 1, the permeated water cannot flow up the cooling tower side plate 6.

As shown in fig. 5, further optimized on the basis of the above embodiment, the thickness edges 1 at two sides of the partition board 10 are connected with the inner side 7 of the water basin and the outer side 9 of the water basin through bolts; the thickness edges 1 at the upper and lower ends of the partition plate 10 are connected with the upper and lower folded edges of the inner side edge 7 of the water sowing basin and the outer side edge 9 of the water sowing basin through bolts. In particular, the separator 10 may generally be a galvanized plate or a stainless steel plate.

As shown in fig. 5, further optimized on the basis of the above embodiment, the upper and lower end folds and the two side folds of the inner side edge 7 of the water basin and the outer side edge 9 of the water basin are connected with the side plate 6 of the cooling tower through bolts.

Specifically, as shown in fig. 5, the two side ends of the inner side edge 7 of the water basin and the outer side edge 9 of the water basin are outwards bent to form folded edges, and the folded edges are directly connected with the side plate 6 of the cooling tower through bolts; the upper and lower ends of the inner side 7 and the outer side 9 of the water basin are provided with folded edges which extend out to be connected with the side plate 6 of the cooling tower through bolts.

As shown in fig. 6-7, further optimized on the basis of the above embodiment, a baffle 34 is arranged on the inner side surface of the outer side edge 9 of the water sowing basin; one side edge of the water sowing basin cover 3 is clamped below the baffle 34; a hexagonal handle bolt 32 is arranged on the water sowing basin cover 3 and close to the inner side edge 7 of the water sowing basin; the hexagonal handle bolt 32 is in threaded connection with the inner side edge 7 of the water sowing basin.

Specifically, the water sowing basin cover 3 is formed by bending a steel plate towards the same surface to form a cover side plate 31 at right angles; the baffle 34 is L-shaped in cross section; one side of the baffle 34 is directly connected with the inner side surface of the outer side 9 of the water sowing basin, and the other side is horizontally arranged; one side of the water sowing basin cover 3 is directly inserted below the horizontal edge, the other side is directly placed in the water sowing basin and is supported by a supporting plate on the inner side surface of the inner side edge 7 of the water sowing basin; then the hexagonal handle bolt 32 passes through the cover surface of the water-sowing basin cover 3 and then is in threaded connection with the supporting plate through the bolt, so that the water-sowing basin cover can be ensured to be stably installed without loosening, and meanwhile, when the water-sowing basin cover is taken out, only the hexagonal handle bolt 32 on one side needs to be unscrewed.

Further optimizing on the basis of the embodiment, a handle 33 is arranged on one side, close to the hexagonal handle bolt 32, of the water sowing basin cover 3.

The utility model has the specific working principle that:

the utility model uses the basin and basin cover of the water, its main component includes the bottom plate 4 of the water basin, through the inboard side 7 of the water basin and outboard side 9 of the water basin of bolted connection, the inboard side 7 of the water basin and outboard side 9 of the water basin are connected with baffle 10 directly, connect and fasten with the lateral plate 6 of the cooling tower at the same time through the bolted connection; the left end and the right end of the bottom plate 4 of the water sowing basin are respectively and directly connected with the partition plate 10 through bolts.

The water-sowing basin cover 3 is arranged on the inner side 7 and the outer side 9 of the water-sowing basin, the water-sowing basin cover 3 is fixed by a baffle 34 and a hexagonal handle bolt 32, and a U-shaped handle 33 is arranged on the water-sowing basin cover 3 so as to be convenient for opening.

The working principle of the utility model is as follows:

the water in the water basin can permeate out from the gap between the water basin bottom plate 4 and the partition plate 10, but the permeated water can directly fall into the filling under the influence of gravity; since the gap is spaced apart from the cooling tower side plate 6 by the width of one thickness side 1, the permeated water cannot flow up the cooling tower side plate 6.

One side of the water-sowing basin cover 3 is directly inserted under the horizontal edge of the baffle 34, and the other side is directly placed in the water-sowing basin and is supported by a supporting plate on the inner side surface of the inner side edge 7 of the water-sowing basin; then the hexagonal handle bolt 32 passes through the cover surface of the water-sowing basin cover 3 and then is in threaded connection with the supporting plate through the bolt, so that the water-sowing basin cover can be ensured to be stably installed without loosening, and meanwhile, when the water-sowing basin cover is taken out, only the hexagonal handle bolt 32 on one side needs to be unscrewed.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The principles and embodiments of the present utility model have been described herein with reference to specific examples, the description of which is intended only to facilitate an understanding of the method of the present utility model and its core ideas. The foregoing is merely illustrative of the preferred embodiments of this utility model, and it is noted that there is objectively no limit to the specific structure disclosed herein, since numerous modifications, adaptations and variations can be made by those skilled in the art without departing from the principles of the utility model, and the above-described features can be combined in any suitable manner; such modifications, variations and combinations, or the direct application of the inventive concepts and aspects to other applications without modification, are contemplated as falling within the scope of the present utility model.

Claims (5)

1. A cooling tower water sowing basin structure is characterized in that a baffle plate (10) is arranged between a water sowing basin bottom plate (4) and a cooling tower side plate (6); the baffle (10) is connected with the bottom plate (4) of the water sowing basin, and the inner side edge (7) of the water sowing basin and the outer side edge (9) of the water sowing basin are connected to form the end face of the water sowing basin; four sides of the partition board (10) are bent to the same plane at right angles to form a thickness side (1); the thickness edge (1) is connected with the inner side edge (7) of the water sowing basin and the outer side edge (9) of the water sowing basin through bolts; the thickness edge (1) separates the water sowing basin from the cooling tower side plate (6).

2. The cooling tower water basin structure according to claim 1, wherein the thickness edges (1) at two side ends of the partition plate (10) are connected with the inner side edge (7) of the water basin and the outer side edge (9) of the water basin through bolts; the thickness edges (1) at the upper end and the lower end of the partition plate (10) are connected with the upper edge and the lower edge of the inner side edge (7) of the water sowing basin and the outer side edge (9) of the water sowing basin through bolts.

3. A cooling tower tub structure according to claim 2, characterized in that the upper and lower end flaps and both side flaps of the tub inner side (7) and the tub outer side (9) are connected to the cooling tower side plates (6) by bolts.

4. A cooling tower tub structure according to claim 1, characterized in that a baffle (34) is mounted on the inner side of the tub outer side (9); one side of the water sowing basin cover (3) is clamped below the baffle plate (34); a hexagonal handle bolt (32) is arranged on the water sowing basin cover (3) and close to the inner side edge (7) of the water sowing basin; the hexagonal handle bolt (32) is in threaded connection with the inner side edge (7) of the water sowing basin.

5. The cooling tower water basin structure according to claim 4, wherein a handle (33) is arranged on one side of the water basin cover (3) close to the hexagonal handle bolt (32).