CN208108915U - A kind of efficient open cooling tower of multi-cycle - Google Patents

Abstract

The utility model is related to a kind of efficient open cooling tower of multi-cycle, including tower body, cooling blower, spray port, heat exchanger, mixed flow tube, waste-heat recovery device and control circuit, mixed flow tube and heat exchanger are embedded in tower body and mixed flow tube is located at right above heat exchanger, mixed flow tube and heat exchanger pass through locating rack and tower body inner surface is connected with each other, cooling blower is connected to by diversion pipe with mixed flow bottom of the tube, spray port is embedded in mixed flow tube upper surface, and waste-heat recovery device and control circuit pass through sliding rail and be mounted on tower body outer surface.On the one hand the utility model can effectively slow down the equipment mechanism and dynamic structure of cooling tower, while meeting to water body progress temperature with high efficiency operation, cooling tower operation energy consumption is effectively reduced, on the other hand can effectively realize the needs for carrying out efficiently confluence operation to cooling water.

Description

A kind of efficient open cooling tower of multi-cycle

Technical field

The utility model relates to a kind of cooling tower structures, are exactly a kind of efficient open cooling towers of multi-cycle.

Background technique

Cooling tower is the important equipment for currently being cooled down and being realized water circulation to high temperature water body and utilize, and usage amount is big, But it finds in actual use, traditional device structure that currently used cooling tower is often all made of, although can be with Meet the needs that cooling operation is carried out to water body, but on the one hand there are cooling tower device structure complexity, layout is chaotic, main zero On the other hand part disassembly and upkeep operation difficulty and large labor intensity, construction working inefficiency also result in current cooling Heat exchanger effectiveness of the tower when carrying out cooling operation is low, while also easily leading to water body confluence inefficiency after cooling, To seriously affect total group of efficiency of cooling cycle operation, therefore it is directed to this problem, there is an urgent need to develop a kind of novel Cooling tower, to meet the needs of actual use.

Utility model content

In view of the shortcomings of the prior art, the utility model provides a kind of efficient open cooling tower of multi-cycle, this is new Type structure is simple, flexible and convenient to use, and integration degree is high, heat exchange efficiency is high, on the one hand can effectively slow down setting for cooling tower Standby host structure and dynamic structure effectively reduce cooling tower operation while meeting to water body progress temperature with high efficiency operation On the other hand energy consumption can effectively realize the needs for carrying out efficiently confluence operation to cooling water, improve the work of cooling cycle operation Make efficiency and resource recycling rate.

To achieve the goals above, the utility model is to realize by the following technical solutions：

A kind of efficient open cooling tower of multi-cycle, including tower body, cooling blower, spray port, heat exchanger, mixed flow tube, waste heat Recyclable device and control circuit, wherein tower body axis and horizontal plane are distributed, and mixed flow tube and heat exchanger are embedded in tower body simultaneously With tower body axis parallelly distribute on, and mixed flow tube is located at right above heat exchanger, and mixed flow tube and heat exchanger pass through locating rack and tower body Inner surface is connected with each other, and mixed flow tube is hollow tubular structures, and inner surface is evenly distributed with several deflectors, and side surface is evenly distributed with several drainings Mouthful, deflector is slidably connected with mixed flow pipe internal surface by sliding rail and is coaxially distributed with mixed flow tube, if uniformly distributed on deflector parch Hole, and open-work axis and mixed flow tube axis parallelly distribute on, cooling blower are connected to by diversion pipe with mixed flow bottom of the tube, and spray port is embedding In mixed flow tube upper surface, and each mixed flow tube upper surface is all provided at least one spray port, wherein cooling blower at least one, installation In tower body outer surface, spray port is mounted on tower body top inner surface, and waste-heat recovery device and control circuit are installed by sliding rail It is slidably connected in tower body outer surface, and with tower body outer surface, waste-heat recovery device and heat exchanger are interconnected, cooling blower difference It is interconnected with heat exchanger, mixed flow tube and waste-heat recovery device, control circuit is electric with cooling blower and waste-heat recovery device respectively Gas connection.

Further, the locating rack is the frame structure being coaxially distributed with tower body, in the locating rack and tower body It is mutually slidably connected between surface by sliding rail, the sliding rail and tower body axis parallelly distribute on, at least three and circular tower body axis Line is uniformly distributed.

Further, the mixed flow tube axial cross section is any one in rectangle, hourglass configuration and hyperbolic configuration, The deflector is conical structure, any one in frustum cone structure.

Further, the discharge outlet aperture is 1-5 millimeters, and draining open area is mixed flow tube total surface area 50%—80。

Further, in the deflector, two neighboring water conservancy diversion spacing between plates is the 1/3 of 0-mixed flow length of tube.

Further, drainage plate is set between the mixed flow tube lower end surface and heat exchanger, the drainage plate passes through turntable machine Structure and tower body inner surface are hinged, and drain plate surface and tower body axis in 0 ° -90 ° angles.

Further, the control circuit is the automation control circuit based on industrial computer, and the control Circuit separately sets wireless data communication module and online data communication module.

The utility model structure is simple, flexible and convenient to use, and integration degree is high, heat exchange efficiency is high, on the one hand can effectively subtract The equipment mechanism and dynamic structure of slow cooling tower effectively reduce cold while meeting to water body progress temperature with high efficiency operation But on the other hand tower operation energy consumption can effectively realize the needs for carrying out efficiently confluence operation to cooling water, improve cooling The working efficiency and resource recycling rate of cycle operation.

Detailed description of the invention

It is described in detail the utility model with reference to the accompanying drawings and detailed description.

FIG. 1 is a schematic structural view of the utility model.

Specific embodiment

To be easy to understand the technical means, creative features, achievement of purpose, and effectiveness of the utility model, below In conjunction with specific embodiment, the utility model is further described.

A kind of efficient open cooling tower of multi-cycle as described in Figure 1, including tower body 1, cooling blower 2, spray port 3, heat exchanger 4, mixed flow tube 5, waste-heat recovery device 6 and control circuit 7, wherein 1 axis of tower body and horizontal plane are distributed, and mixed flow tube 5 and are changed Hot device 4 in the tower body 1 and with 1 axis parallelly distribute on of tower body, and mixed flow tube 5 is located at 1 surface of heat exchanger, 5 He of mixed flow tube Heat exchanger 1 is connected with each other by locating rack 8 and 1 inner surface of tower body, and mixed flow tube 5 is hollow tubular structures, and inner surface is uniformly distributed Several deflectors 51, side surface are evenly distributed with several discharge outlet 52, and deflector 51 is slidably connected by sliding rail 9 and 5 inner surface of mixed flow tube And with the coaxial distribution of mixed flow tube 5, uniformly distributed several open-works 53 on deflector 51, and 53 axis of open-work is parallel with 5 axis of mixed flow tube divides Cloth, cooling blower 2 are connected to by diversion pipe 8 with 5 bottom of mixed flow tube, and spray port 3 is embedded in 5 upper surface of mixed flow tube, and each mixed flow 5 upper surface of pipe is all provided at least one spray port 3, wherein cooling blower 2 at least one, be mounted on 1 outer surface of tower body, spray port 3 It is mounted on 1 top inner surface of tower body, waste-heat recovery device 6 and control circuit 7 are mounted on 1 outer surface of tower body by sliding rail 9, and Be slidably connected with 1 outer surface of tower body, waste-heat recovery device 6 and heat exchanger 4 are interconnected, cooling blower 2 respectively with heat exchanger 4, Mixed flow tube 5 and waste-heat recovery device 6 are interconnected, and control circuit 7 electrically connects with cooling blower 2 and waste-heat recovery device 6 respectively It connects.

In the present embodiment, the locating rack 8 is the frame structure being coaxially distributed with tower body 1, the locating rack 8 and tower It is mutually slidably connected between 1 inner surface of body by sliding rail 9, the sliding rail 9 and 1 axis parallelly distribute on of tower body, at least three and ring It is uniformly distributed around 1 axis of tower body.

In the present embodiment, 5 axial cross section of mixed flow tube is any one in rectangle, hourglass configuration and hyperbolic configuration Kind, the deflector 51 is conical structure, any one in frustum cone structure.

In the present embodiment, 52 aperture of discharge outlet is 1-5 millimeters, and 52 area of discharge outlet is 5 total surface of mixed flow tube 50%-the 80 of area.

In the present embodiment, in the deflector 51,51 spacing of two neighboring deflector are 0-mixed flow tube, 5 length 1/3。

In the present embodiment, drainage plate 10 is set between 5 lower end surface of mixed flow tube and heat exchanger 4, the drainage plate 10 is logical It crosses turntable mechanism 11 and 1 inner surface of tower body is hinged, and 10 surface of drainage plate and 1 axis of tower body are in 0 ° -90 ° angles.

In the present embodiment, the control circuit 7 is the automation control circuit based on industrial computer, and the control Circuit processed separately sets wireless data communication module and online data communication module.

When carrying out cooling operations, cryogenic high pressure air draught is prepared by cooling blower, and makes cryogenic high pressure air-flow from mixed Flow tube bottom is transported in mixed flow tube, while being transported in heat exchanger, and mixed flow tube interior air-flow is along the bottom-up operation of mixed flow tube, together When high-temperature water is sprayed from mixed flow tube upper section in mixed flow tube by flow jeting port, and make high-temperature water along mixed flow tube axis from top to bottom Operation, to realize that high-temperature water and cryogenic high pressure air-flow are sufficiently mixed cooling in mixed flow tube, then by the water after hybrid cooling Body is discharged in tower body from the discharge outlet of mixed flow tube side wall, is then carried out heat exchange between water body and heat exchanger and is further cooled down, most It is collected afterwards in tower body bottom, to complete cooling operations.

Wherein heat exchanger by with its internal high temperature gas flow generated after water body heat exchange be transported to waste-heat recovery device into The recycling of row waste heat, then the tail gas by waste-heat recovery device by waste heat recycling, which returns at cooling blower, recycles.

The utility model structure is simple, flexible and convenient to use, and integration degree is high, heat exchange efficiency is high, on the one hand can effectively subtract The equipment mechanism and dynamic structure of slow cooling tower effectively reduce cold while meeting to water body progress temperature with high efficiency operation But on the other hand tower operation energy consumption can effectively realize the needs for carrying out efficiently confluence operation to cooling water, improve cooling The working efficiency and resource recycling rate of cycle operation.It should be understood by those skilled in the art that the utility model is not by upper State the limitation of embodiment.

The description of the embodiments and the specification only illustrate the principle of the present utility model.The utility model is not being departed from Under the premise of spirit and scope, the utility model also has various changes and improvements.These changes and improvements both fall within requirement and protect In the scope of the utility model of shield.The protection scope of the present invention is defined by the appended claims and their equivalents.

Claims (7)

1. a kind of efficient open cooling tower of multi-cycle, it is characterised in that：The efficient open cooling tower of the multi-cycle include tower body, Cooling blower, spray port, heat exchanger, mixed flow tube, waste-heat recovery device and control circuit, wherein the tower body axis and level Face vertical distribution, the mixed flow tube and heat exchanger be embedded in tower body and with tower body axis parallelly distribute on, and the mixed flow Pipe is located at right above heat exchanger, and mixed flow tube and heat exchanger pass through locating rack and the interconnection of tower body inner surface, the mixed flow Pipe is hollow tubular structures, and inner surface is evenly distributed with several deflectors, and side surface is evenly distributed with several discharge outlet, and the deflector passes through Sliding rail is slidably connected with mixed flow pipe internal surface and is coaxially distributed with mixed flow tube, uniformly distributed several open-works on the deflector, and thoroughly Axially bored line and mixed flow tube axis parallelly distribute on, the cooling blower are connected to by diversion pipe with mixed flow bottom of the tube, the spray It drenches mouth and is embedded in mixed flow tube upper surface, and each mixed flow tube upper surface is all provided at least one spray port, wherein the cooling blower is extremely Few one, be mounted on tower body outer surface, the spray port is mounted on tower body top inner surface, the waste-heat recovery device and Control circuit passes through sliding rail and is mounted on tower body outer surface, and is slidably connected with tower body outer surface, the waste-heat recovery device It is interconnected with heat exchanger, the cooling blower is interconnected with heat exchanger, mixed flow tube and waste-heat recovery device respectively, described Control circuit be electrically connected respectively with cooling blower and waste-heat recovery device.

2. the efficient open cooling tower of a kind of multi-cycle according to claim 1, it is characterised in that：The locating rack be with The frame structure that tower body is coaxially distributed mutually is slidably connected between the locating rack and tower body inner surface by sliding rail, described Sliding rail and tower body axis parallelly distribute on, at least three and uniformly distributed around tower body axis.

3. the efficient open cooling tower of a kind of multi-cycle according to claim 1, it is characterised in that：The mixed flow tube is axial Section is any one in rectangle, hourglass configuration and hyperbolic configuration, and the deflector is conical structure, in frustum cone structure Any one.

4. the efficient open cooling tower of a kind of multi-cycle according to claim 1, it is characterised in that：The discharge outlet aperture It is 1-5 millimeters, and drains open area as 50%-the 80 of mixed flow tube total surface area.

5. the efficient open cooling tower of a kind of multi-cycle according to claim 1, it is characterised in that：In the deflector, Two neighboring water conservancy diversion spacing between plates is the 1/3 of 0-mixed flow length of tube.

6. the efficient open cooling tower of a kind of multi-cycle according to claim 1, it is characterised in that：The mixed flow tube lower end Set drainage plate between face and heat exchanger, the drainage plate is hinged by turntable mechanism and tower body inner surface, and drain plate surface and Tower body axis is in 0 ° -90 ° angles.

7. the efficient open cooling tower of a kind of multi-cycle according to claim 1, it is characterised in that：The control circuit is Automation control circuit based on industrial computer, and the control circuit separately sets wireless data communication module and online data Communication module.