CN211739937U - Novel prevent floating water device - Google Patents

Abstract

A novel water floating prevention device comprises a plurality of shutters arranged at the top of a cornice at an air inlet of a cooling tower, wherein the shutters are arranged up and down, and each shutter is obliquely arranged; the window blind comprises a window blind body frame and window blind blades arranged in the window blind body frame, wherein two sides of the window blind body frame are fixedly connected and arranged on the mounting supports, and the window blind blades are perpendicular to the mounting supports. The shutter is arranged at the cornice top at the air inlet of the cooling tower, the shutter blades are arranged at a certain inclination angle, water splashed onto the shutter blades can all flow into the water pool through the reasonable inclination angle, and the shutter also plays a role in guiding the air inlet flow. The louver blades guide water flow and air flow, so that the installation of the louver can prevent the cooling water from splashing outwards to the maximum extent.

Description

Novel prevent floating water device

Technical Field

The utility model relates to a novel prevent floating water device.

Background

The cooling tower is a device which uses water as a circulating coolant to absorb heat from a system to be cooled and discharge the heat to the atmosphere so as to reduce the temperature of water. The working principle mainly lies in that hot water after absorbing heat is in flowing contact with air to perform heat exchange to generate steam, the steam volatilizes to take away the heat, and waste heat generated in an industrial system or a refrigeration air conditioner can be dissipated through modes of evaporation heat dissipation, convection heat transfer, radiation heat transfer and the like so as to ensure the normal operation of the system.

The air inlet of the cooling tower frequently floats outwards in winter, and the main reasons are as follows: firstly, the cooling fan stops running in winter, and saturated hot air which cannot rise below the filler meets external cold air at an air inlet to form a large amount of suspended water mist, so that the ground is frozen; secondly, a water distribution nozzle in the tower sprays downwards, and the jet effect (downwards) formed by spraying water flow forms the phenomenon that air in the tower flows backwards downwards; and thirdly, because the air inlet of the tower is high, the water flow drop from the bottom of the filler to the water surface of the water pool is large, water flow rushes to the water surface, partial water flow impacts the column beam exposed out of the water surface, suspended fine water drops are easily formed, and the water flow easily floats to the outside of the tower at the corner of the cooling tower under the action of oblique wind at the air inlet and is changed along with the size and the direction of external wind.

SUMMERY OF THE UTILITY MODEL

In view of the above circumstances, in order to solve the problem that the above-mentioned technique exists, the utility model provides a novel prevent floating water device to prevent that cooling water from splashing, thereby reduce the water loss, maintain the good environment around the cooling tower.

The novel water floating prevention device comprises a plurality of shutters arranged at the top of a cornice at an air inlet of a cooling tower, wherein the shutters are arranged up and down, and each shutter is obliquely arranged; the window blind comprises a window blind body frame and window blind blades arranged in the window blind body frame, wherein two sides of the window blind body frame are fixedly connected and arranged on the mounting supports, and the window blind blades are perpendicular to the mounting supports.

Preferably, a connecting support is arranged at the top of the mounting support, one end of the connecting support is fixedly connected with an air inlet of the cooling tower, and the other end of the connecting support is fixedly connected with the mounting support. The stability and reliability of the installation of the shutter are enhanced.

Preferably, the cornice is perpendicular to an air inlet of the cooling tower, and the mounting bracket is perpendicular to the cornice. The integral parallel relation between the shutter combination structure and the air inlet is favorably formed, so that tiny water drops which fly under the action of oblique wind at the air inlet are intercepted in a targeted manner, and the guiding effect on the air flow of the inlet air is not influenced. In addition, the installation and the structural stability are facilitated.

Preferably, the plurality of louvers are arranged in parallel.

Preferably, the louver is obliquely arranged such that the top of the louver is positioned outside the cornice top at the air inlet, and the bottom of the louver is positioned inside the cornice top at the air inlet.

Preferably, the tilt angle of the louver is thirty degrees.

After the technology provided by the utility model, according to the utility model discloses novel prevent floating water installation has following beneficial effect: the shutter is arranged at the cornice top at the air inlet of the cooling tower, the shutter blades are arranged at a certain inclination angle, water splashed onto the shutter blades can all flow into the water pool through the reasonable inclination angle, and the shutter also plays a role in guiding the air inlet flow. The louver blades guide water flow and air flow, so that the installation of the louver can prevent the cooling water from splashing outwards to the maximum extent.

Drawings

Fig. 1 shows the installation structure schematic diagram of the novel anti-floating device of the utility model.

Detailed Description

The present invention will be described in further detail with reference to embodiments shown in the drawings. The described embodiments include various specific details to aid understanding, but they are to be construed as merely illustrative, and not restrictive of all embodiments of the invention. Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. Meanwhile, in order to make the description more clear and concise, a detailed description of functions and configurations well known in the art will be omitted.

As shown in fig. 1, the novel water floating prevention device comprises a plurality of louvers 1 arranged at the top of a cornice 9 at an air inlet of a cooling tower, wherein the louvers 1 are arranged up and down, and each louver 1 is obliquely arranged; the cornice 9 is at least provided with two parallel mounting brackets 91, the shutter 1 comprises a shutter window frame 10 and shutter blades arranged in the shutter window frame 10, two sides of the shutter window frame 10 are fixedly connected and arranged on the mounting brackets 91, and the shutter blades are perpendicular to the mounting brackets 91.

According to the utility model provides a novel prevent floating water installation, the shutter is established on the top of cornicing in the air intake department of cooling tower, and the shutter blade is arranged with certain inclination, and during the water that reasonable inclination made the splash to the shutter blade can all flow in the pond, the shutter also played the guide effect to the air inlet stream. The louver blades guide water flow and air flow, so that the installation of the louver can prevent the cooling water from splashing outwards to the maximum extent.

The top of the mounting bracket 91 is provided with a connecting bracket 92, one end of the connecting bracket 92 is fixedly connected with an air inlet of the cooling tower, and the other end of the connecting bracket 92 is fixedly connected with the mounting bracket 91. The stability and reliability of the installation of the shutter are enhanced.

The cornice 9 is perpendicular to an air inlet of the cooling tower, and the mounting bracket 91 is perpendicular to the cornice 9. The integral parallel relation between the shutter combination structure and the air inlet is favorably formed, so that tiny water drops which fly under the action of oblique wind at the air inlet are intercepted in a targeted manner, and the guiding effect on the air flow of the inlet air is not influenced. In addition, the installation and the structural stability are facilitated.

The plurality of shutters 1 are arranged in parallel.

The louver 1 is obliquely arranged so that the top of the louver 1 is positioned on the outer side of the top of the cornice 9 at the air inlet, and the bottom of the louver 1 is positioned on the inner side of the top of the cornice 9 at the air inlet.

The tilt angle of the louver 1 is thirty degrees.

According to the novel water floating prevention device, cooling water can be effectively prevented from splashing, water loss is effectively reduced, and the surrounding environment of the tower is maintained.

The terms "upper", "lower" or "above", "below" or the like are used herein in a relative relationship with respect to a normal use in a placed state, i.e., a positional relationship as generally shown in the drawings of the present application. When the placement state changes, for example, when the placement state is turned over, the corresponding positional relationship should be changed accordingly to understand or implement the technical solution of the present application.

Claims (6)

1. The novel anti-floating device is characterized by comprising a plurality of shutters (1) arranged at the tops of cornices (9) at air inlets of a cooling tower, wherein the shutters (1) are arranged up and down, and each shutter (1) is obliquely arranged; the novel window is characterized in that at least two parallel mounting supports (91) are arranged on the cornice (9), the louver (1) comprises a louver window frame (10) and louver blades arranged in the louver window frame (10), two sides of the louver window frame (10) are fixedly connected and arranged on the mounting supports (91), and the louver blades are perpendicular to the mounting supports (91).

2. The novel anti-floating device according to claim 1, characterized in that a connecting support (92) is arranged at the top of the mounting support (91), one end of the connecting support (92) is fixedly connected with an air inlet of the cooling tower, and the other end of the connecting support (92) is fixedly connected with the mounting support (91).

3. A novel water-drifting prevention device according to claim 1, characterized in that the cornice (9) is perpendicular to the air inlet of the cooling tower, and the mounting bracket (91) is perpendicular to the cornice (9).

4. A new pattern of drift prevention devices according to any of the claims 1 to 3, characterized in that said several shutters (1) are arranged in parallel.

5. A novel anti-drift device according to any one of claims 1 to 3, wherein the louver (1) is obliquely arranged such that the top of the louver (1) is positioned outside the top of the cornice (9) at the air inlet, and the bottom of the louver (1) is positioned inside the top of the cornice (9) at the air inlet.

6. A new pattern of drift prevention devices according to any of claims 1 to 3, characterized in that the angle of inclination of the blinds (1) is thirty degrees.

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