CN212902735U - Water collector and cooling tower - Google Patents

Abstract

The utility model discloses a receive hydrophone and cooling tower, receive the hydrophone and include crossbeam and multi-disc receipts water piece, all receive the water piece and all wear the cover and be in on the crossbeam, the both ends of crossbeam are equipped with connection structure, the crossbeam passes through connection structure detachably fixes on receiving hydrophone installation position. The water collector is convenient to install, and when one water collecting piece of the water collector is damaged, only the water collecting piece can be replaced, so that the maintenance cost is low. The cooling tower comprises the water collector and is also provided with a draught fan, a heat exchanger, a water distribution groove and other components, and can operate in an air cooling mode and a water cooling mode and has low operation cost.

Description

Water collector and cooling tower

Technical Field

The utility model relates to a cooling arrangement technical field especially relates to a receive hydrophone and have this cooling tower who receives hydrophone

Background

In the ventilation cooling process, the water loss caused by blowing wind exists, and the water collector can be installed to reduce the water loss caused by blowing wind, so that the operation cost of the cooling equipment is reduced.

The water collector is assembled by a plurality of water collecting sheets, the installation scheme of the existing water collector is that the plurality of water collecting sheets are glued or connected by connecting rods in a penetrating way to form unit blocks, then the plurality of unit blocks are fixed between two supports, and then the supports are fixed on a frame of cooling equipment. This kind of installation scheme, the installation is loaded down with trivial details, and the installation effectiveness is low, and if because of one of them piece is received the water piece damage and is leaded to the rate of wafing to increase, just need change this piece and receive the whole unit piece that the water piece belonged to, lead to cost of maintenance height.

In view of this, how to simplify the installation process of the water collector and reduce the maintenance cost of the water collector is a technical problem to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a receive hydrophone, receive hydrophone includes crossbeam and multi-disc receipts water piece, all receive the water piece all wear to overlap on the crossbeam, the both ends of crossbeam are equipped with connection structure, the crossbeam passes through connection structure detachably fixes on receiving hydrophone installation position.

Optionally, the water collecting sheet is sequentially provided with a corrugated sheet part and a flat sheet part along the width direction, and a through hole for the cross beam to pass through is formed in the flat sheet part.

Optionally, the water collecting pieces comprise a first water collecting piece and a second water collecting piece, and the first water collecting piece and the second water collecting piece are alternately sleeved on the cross beam in a one-to-one penetrating manner; the adjacent first water collecting sheet and the second water collecting sheet are mutually staggered in the way that the protrusions of the first water collecting sheet and the second water collecting sheet protrude towards the same side.

Optionally, the adjacent first water collecting sheet and the second water collecting sheet have mutually abutted corrugated bulges protruding to different sides, so that a plurality of channels are formed between the first water collecting sheet and the second water collecting sheet.

Optionally, the connection structure is a connection hole, a hook, a slot or a latch.

The invention also provides a cooling tower, which comprises a frame and the water collector, wherein the water collector is arranged in the frame, the water collecting sheet of the water collector is pressed tightly by two opposite side frames of the frame, and two ends of a cross beam of the water collector are respectively fixed on the two side frame bodies through connecting structures.

Optionally, a threaded hole is formed in the side frame body, the connecting structure is a connecting hole, and a bolt is screwed into the threaded hole through the connecting hole, so that the cross beam is fixed on the side frame body.

Optionally, the cooling tower is provided with two water collectors, the two water collectors are both arranged between the two side frame bodies, and a water collecting tank is arranged below the water collectors.

Optionally, the cooling tower still includes the draught fan, the draught fan is fixed roof-rack body middle part top of frame, two receive the hydrophone about draught fan symmetrical arrangement.

Optionally, the cooling tower further comprises two heat exchangers, the two heat exchangers are respectively arranged outside the two water collectors and are close to the water collectors, and a water distribution tank is arranged above the heat exchangers.

The water collector provided by the invention is simple and convenient to mount and high in mounting efficiency, and when one water collecting piece of the water collector is damaged, only the water collecting piece can be replaced, so that the maintenance cost is low.

The cooling tower provided by the invention has the effects of the water collector, and also has the advantages of dual modes (an air cooling mode and a water cooling mode) of operation, low operation cost and the like.

Drawings

Fig. 1 is a schematic view of an embodiment of a water collector provided by the present invention;

FIG. 2 is a schematic view of an embodiment of a cooling tower provided by the present invention;

fig. 3 is an enlarged view of the connection position of the cross beam of the water collector and the frame of the cooling tower in fig. 2.

The reference numerals are explained below:

10, collecting water;

101a first water collecting sheet, 101b second water collecting sheet, 1011 corrugated sheet part, 1012 flat sheet part, 102 cross beam, 1021 connecting hole;

20 frames, 201 side frames, 2011 threaded holes, 202 top frames;

30 induced draft fans;

40 heat exchangers;

50 water distribution tanks;

60 a water collection trough.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the following provides a detailed description of the technical solution of the present invention with reference to the accompanying drawings.

As shown in fig. 1, the water collector 10 includes a cross beam 102 and a plurality of water collecting sheets, and all the water collecting sheets are sleeved on the cross beam 102. The number of the beams 102 can be flexibly set according to the length of the water collecting sheet, in the figure, two beams 102 are arranged, and if the length of the water collecting sheet is longer, a plurality of beams 102 can be arranged.

Both ends of crossbeam 102 are equipped with connection structure, and during the application, both ends of crossbeam 102 pass through connection structure detachably to be fixed on receiving hydrophone installation position. The connecting structure can be a connecting hole, a hook, a slot or a bolt. In the illustrated embodiment, the connecting structure is a connecting hole 1021.

In application, as shown in fig. 2 and 3, the water collector 10 is installed in the frame 20 of the cooling tower (or other cooling equipment), the water collecting sheets of the water collector 10 are located between two opposite side frame bodies 201 of the frame 20, the water collecting sheets are pressed by the two side frame bodies 201 along the length direction of the cross beam 102, all the water collecting sheets are in close contact, bolts are inserted through the connecting holes 1021 at the end part of the cross beam 102, and then the bolts are screwed into the threaded holes 2011 on the side frame bodies 201, so that two ends of the cross beam 102 are respectively fastened on the two side frame bodies 201 through the bolts.

The water collector 10 with the structure is simple and convenient to mount and high in mounting efficiency, and when one water collecting piece of the water collector 10 is damaged, only one water collecting piece can be replaced, so that the maintenance cost is low.

Specifically, as shown in fig. 1, the water receiving sheet is provided with a corrugated sheet portion 1011 and a flat sheet portion 1012 in this order in the width direction, and a through hole through which the cross beam 102 passes is provided in the flat sheet portion 1012. The through hole is formed in the flat part 1012, so that the water collecting sheet is not easily damaged when the hole is formed. Of course, in actual practice, if the hole forming workability is not taken into consideration, the through hole may be provided in the bellows portion 1011.

Specifically, as shown in fig. 1, the water collecting pieces include a first water collecting piece 101a and a second water collecting piece 101b, and the first water collecting piece 101a and the second water collecting piece 101b are alternately sleeved on the cross beam 102.

The difference between the first water collecting sheet 101a and the second water collecting sheet 101b is that: the positions of the corrugated bulges which are convex towards the same side are different, and when the end parts of the first water collecting sheet 101a and the second water collecting sheet 101b are flush with each other in the view of fig. 1, the corrugated bulges which are convex towards the right side are mutually staggered.

With the arrangement, after the two are alternately sleeved on the cross beam 102, the corrugated bulges protruding to the right side of one can be abutted against the corrugated bulges protruding to the left side of the other, so that a channel can be formed between the two for air flow to pass through.

As shown in fig. 2, the cooling tower of the present invention includes a frame 20, wherein the frame 20 has two opposite side frames 201 and a top frame 202 disposed on top of the side frames 201.

The cooling tower further comprises the water collector 10, the water collector 10 is installed in the frame 20 of the cooling tower, the water collecting sheets of the water collector 10 are located between the two side frame bodies 201, the two side frame bodies 201 compress the water collecting sheets along the length direction of the cross beam 102, so that all the water collecting sheets are in close contact with each other, and in combination with the drawing 3, the two ends of the cross beam 102 of the water collector 10 are detachably fixed on the two side frame bodies 201 respectively, and are fixed through bolts in the drawing.

In the illustrated embodiment, the cooling tower is provided with two water collectors 10, but in actual implementation, the cooling tower may be provided with only one water collector 10 or with more than two water collectors 10. A water collection tank 60 is provided below the water collector 10.

The cooling tower further comprises an induced draft fan 30, and the induced draft fan 30 comprises an air duct and a rotating blade fixed in the air duct. The induced draft fan 30 is fixed above the middle of the upper frame body 202. The two water collectors 10 are located on two sides of the right lower portion of the induced draft fan 30 and are symmetrical with respect to the induced draft fan 30.

The cooling tower further comprises two heat exchangers 40, and the two heat exchangers 40 are respectively arranged outside the two water collectors 10 and are adjacent to the water collectors 10. A water distribution tank 50 is provided above the two heat exchangers 40. In practice, the number of heat exchangers 40 is not limited to two. It is preferable that each heat exchanger 40 corresponds to one water collector 10.

The cooling tower can operate in a water cooling mode and an air cooling mode.

In the water cooling mode, cooling water is uniformly sprayed onto the heat exchanger 40 below through the water distribution groove 50, and the medium flowing through the heat exchanger 40 is subjected to heat dissipation and cooling;

in the air cooling mode, under the drainage action of the induced draft fan 30, cold air flows through the heat exchanger 40 and the water collector 10 in sequence and then is discharged from the air duct, so that the medium flowing through the heat exchanger 40 is cooled. When the cold air flows through the heat exchanger 40, some large water drops are carried away, and when the cold air flows through the water collector 10, the large water drops are blocked by the water collector 10 and flow into the water collecting tank 60 below along the water collector 10, so that the water can be reused, thereby reducing the loss of the floating water and lowering the operation cost of the cooling tower.

The above details are provided for the water collector and the cooling tower provided by the utility model. The principles and embodiments of the present invention have been explained herein using specific examples, and the above descriptions of the embodiments are only used to help understand the method and its core ideas of the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims (10)

1. The water collector is characterized in that the water collector (10) comprises a cross beam (102) and a plurality of water collecting sheets, all the water collecting sheets are sleeved on the cross beam (102) in a penetrating mode, connecting structures are arranged at two ends of the cross beam (102), and the cross beam (102) is detachably fixed on a water collector mounting position through the connecting structures.

2. The water collector as claimed in claim 1, characterized in that the water collecting sheet is provided with a corrugated sheet part (1011) and a flat sheet part (1012) in sequence along the width direction, and a through hole for the cross beam (102) to pass through is arranged on the flat sheet part (1012).

3. The water collector as claimed in claim 2, characterized in that the water collecting sheets comprise a first water collecting sheet (101a) and a second water collecting sheet (101b), and the first water collecting sheet (101a) and the second water collecting sheet (101b) are alternately sleeved on the cross beam (102); the adjacent first water collecting sheet (101a) and the second water collecting sheet (101b) are mutually staggered in the way that the corrugated bulges protruding to the same side.

4. The water collector as claimed in claim 3, characterized in that adjacent first water collecting sheet (101a) and second water collecting sheet (101b) have mutually abutting corrugated bulges protruding to different sides, so that a plurality of channels are formed between the two corrugated bulges.

5. A water collector as claimed in any one of claims 1-4, characterized in that the connection structure is a connection hole (1021), a hook, a slot or a latch.

6. A cooling tower, comprising a frame (20), and further comprising a water collector (10) according to any one of claims 1 to 5, wherein the water collector (10) is installed in the frame (20), a water collecting sheet of the water collector (10) is pressed by two opposite side frame bodies (201) of the frame (20), and two ends of a beam (102) of the water collector (10) are respectively fixed on the two side frame bodies (201) through a connecting structure.

7. The cooling tower according to claim 6, wherein the side frame body (201) is provided with a threaded hole (2011), the connecting structure is a connecting hole (1021), and a bolt is screwed into the threaded hole (2011) through the connecting hole (1021) so as to fix the cross beam (102) on the side frame body (201).

8. The cooling tower according to claim 6 or 7, wherein two water collectors (10) are arranged on the cooling tower, the two water collectors (10) are arranged between the two side frame bodies (201), and a water collecting tank (60) is arranged below the water collectors (10).

9. The cooling tower according to claim 8, further comprising an induced draft fan (30), wherein the induced draft fan (30) is fixed above the middle of the top frame body (202) of the frame (20), and the two water collectors (10) are symmetrically arranged with respect to the induced draft fan (30).

10. The cooling tower according to claim 9, further comprising two heat exchangers (40), wherein the two heat exchangers (40) are respectively arranged outside the two water collectors (10) and are adjacent to the water collectors (10), and a water distribution tank (50) is arranged above the heat exchangers (40).

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