CN208458547U - A kind of cooling tower - Google Patents

Abstract

The utility model relates to a kind of cooling towers, including pylon, tower body, water inlet pipe, hot water feeding pipe, header tank and several thermo-electric generation chips；Tower body is fixedly installed on the top of pylon；Header tank is placed in the lower section of tower body, the middle part genesis analysis of header tank has the first heat conduction baffle, the second heat conduction baffle, and cavity is formed between the first heat conduction baffle, the second heat conduction baffle, several thermo-electric generation chips are elaborated in cavity, and the two sides of thermo-electric generation chip contact the first heat conduction baffle, the second heat conduction baffle respectively, and two output ends of each thermo-electric generation chip are electrically connected with two output leads being located at outside header tank；Header tank bottom is formed in the hot hydroecium of the lower section of the second heat conduction baffle, and water inlet pipe one end is connected to hot hydroecium, and the other end of water inlet pipe is placed in the upper inner of tower body.The temperature difference entered before and after tower body using hot water is generated electricity, to convert electric energy for partial heat energy, a small amount of energy regenerating may be implemented.

Description

A kind of cooling tower

Technical field

The utility model relates to electric power factory equipment field, in particular a kind of cooling tower.

Background technique

Power plant steam turbine in operation, need still to remain the offgas outlet part of steam turbine the waste vapour of higher heat into Row cooling down, to increase the pressure difference of steamer two sides, has so that the air pressure of the offgas outlet part of steam turbine reduces Conducive to the acting of Steam Actuation steamer；Need to enter cooling tower cooling after absorbing heat heating to cooling cooling water so as to again Heat absorption；It is readily apparent that the above process is that will do that remain a large amount of thermal energy in steam after function direct in steam turbine It scatters and disappears in cooling tower；On the other hand, when cooling tower operation, the functional components such as blower, water pump is needed to consume electric energy.

Summary of the invention

The utility model aim is to provide a kind of cooling tower that can be realized portion of energy recycling, specifically by following technology Scheme is realized:

A kind of cooling tower, including pylon, tower body, water inlet pipe, hot water feeding pipe, header tank and several thermo-electric generation cores Piece；The tower body is fixedly installed on the top of the pylon；The header tank is placed in the lower section of the tower body, the middle part of header tank Genesis analysis has the first heat conduction baffle, the second heat conduction baffle, and is formed between the first heat conduction baffle, the second heat conduction baffle empty Chamber, several thermo-electric generation chips are elaborated in cavity, and the two sides of thermo-electric generation chip contact respectively first it is thermally conductive every Plate, the second heat conduction baffle, two output ends of each thermo-electric generation chip are electrically connected with two output leads being located at outside header tank It connects；The header tank bottom is formed in the hot hydroecium of the lower section of second heat conduction baffle, the hot water feeding pipe and the heat Water chamber is connected to which into hot hydroecium, hot-water supply, described water inlet pipe one end are connected to the hot hydroecium, the other end of water inlet pipe It is placed in the upper inner of the tower body, hot water falls in tower body from the end of water inlet pipe and falls in header tank after downlink radiating and cooling On first heat conduction baffle.

The cooling tower, further design is that two output leads are connect with DC boosting voltage regulator circuit, The DC boosting voltage regulator circuit connects several blowers, and the air outlet of the blower is opposite with tower body lower part.

The cooling tower, further design is, the water inlet pipe is located at the setting of the part of horizontal in tower body, side Wall is vertically provided with several apopores.

The cooling tower, further design be, be provided in the middle part of the tower body can supply water, the heat exchange that gas passes through Plate.

The cooling tower, further design is that the lower sides of the tower body are connected with several blast pipes, described The air outlet of blower is connected to the blast pipe.

The utility model has the beneficial effects that:

The temperature difference entered before and after tower body using hot water is generated electricity, to convert electric energy, Ke Yishi for partial heat energy Now a small amount of energy regenerating；Fan is supplied by the electric energy for collecting thermo-electric generation, the air stream inside tower body can be reinforced Logical effect, improves the heat dissipation effect of cooling tower, and the tower body specification of cooling tower can be then reduced in certain scale, reduces production Cost.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model embodiment.

Fig. 2 is the section structure diagram of header tank.

Fig. 3 is A-A direction view shown in Fig. 2.

Specific embodiment

The utility model is further described below in conjunction with Figure of description and embodiment:

A kind of cooling tower as shown in Figure 1, including pylon 1, tower body 2, water inlet pipe 3, hot water feeding pipe 4, header tank 5 and Several thermo-electric generation chips 6；The tower body 2 is fixedly installed on the top of the pylon, and tower body and pylon concrete shape may not As shown in fig. 1, tower body structure is not excluded for curved surface tubular structure；The header tank is placed in the lower section of the tower body, header tank Middle part genesis analysis has the first heat conduction baffle 7, the second heat conduction baffle 8, and shape between the first heat conduction baffle, the second heat conduction baffle At cavity, several thermo-electric generation chips are elaborated in cavity, and the two sides of thermo-electric generation chip contact first respectively and lead Hot partition, the second heat conduction baffle, two output ends of each thermo-electric generation chip and two output leads 9 being located at outside header tank Electrical connection；5 bottom of header tank is formed in the hot hydroecium 10 of the lower section of second heat conduction baffle, the hot water feeding pipe with The hot hydroecium is connected to which into hot hydroecium, hot-water supply, described water inlet pipe one end are connected to the hot hydroecium, water inlet pipe The other end is placed in the upper inner of the tower body, and hot water falls within from the end of water inlet pipe and falls within collection in tower body after downlink radiating and cooling In water tank on the first heat conduction baffle.

Embodiment in use, hot water feeding pipe's hot-water supply into hot hydroecium, the second heat conduction baffle contact hot water to Heating, the hot water of hot hydroecium enters tower body top via water inlet pipe, and sprays downwards on tower body top, due to cooling tower top Temperature it is higher to air pressure it is smaller, the high pressure low temperature air of bottom is walked upwards, thus hot water decline during and Cryogenic air Head-on collision, to make air take away the heat of hot water, so that hot water has become cold water when dropping down onto tower body lower part；Cold water is fallen into The first heat conduction baffle is contacted in header tank, so that the first heat conduction baffle has lower temperature, then the two of thermo-electric generation chip Side is separately connected the second heat conduction baffle of high temperature and the first heat conduction baffle of low temperature, so that thermo-electric generation chip exports certain power Electric current.

Parallel output power is concatenated defeated greater than between thermo-electric generation chip between thermo-electric generation chip in actual operation Power out, so, in the present embodiment, thermo-electric generation chip is parallel between two output leads.

Two output leads are connect with DC boosting voltage regulator circuit, if the DC boosting voltage regulator circuit connects dry-air blast Machine, and the air outlet of the blower is opposite with tower body lower part.Further, the lower sides of the tower body are connected with several air inlets Pipe 12, the air outlet of the blower are connected to the blast pipe.DC boosting voltage regulator circuit belongs to relatively common circuit structure, The circuit that can be provided using the utility model patent such as Patent No. " 201420178635.6 " in the present embodiment, output electricity Pressure can satisfy the demand of the functional components such as blower.

The water inlet pipe is located at the setting of the part of horizontal in tower body, and side wall is vertically provided with several apopores；To make Hot water is obtained uniformly to spray downwards.

Be provided in the middle part of the tower body can supply water, the heat exchanger plates 11 that gas passes through, heat exchanger plates use reticular structure, Ke Yizeng The time of contact of water and air is heated, heat dissipation effect is enhanced.

Claims (5)

1. a kind of cooling tower, which is characterized in that including pylon, tower body, water inlet pipe, hot water feeding pipe, header tank and several temperature Poor power-generating chip；The tower body is fixedly installed on the top of the pylon；The header tank is placed in the lower section of the tower body, catchments The middle part genesis analysis of case has the first heat conduction baffle, the second heat conduction baffle, and between the first heat conduction baffle, the second heat conduction baffle Cavity is formed, several thermo-electric generation chips are elaborated in cavity, and the two sides of thermo-electric generation chip contact first respectively Heat conduction baffle, the second heat conduction baffle, two output ends of each thermo-electric generation chip are led with two outputs being located at outside header tank Line electrical connection；The header tank bottom is formed in the hot hydroecium of the lower section of second heat conduction baffle, the hot water feeding pipe with The hot hydroecium is connected to which into hot hydroecium, hot-water supply, described water inlet pipe one end are connected to the hot hydroecium, water inlet pipe The other end is placed in the upper inner of the tower body, and hot water falls within from the end of water inlet pipe and falls within collection in tower body after downlink radiating and cooling In water tank on the first heat conduction baffle.

2. cooling tower according to claim 1, which is characterized in that two output leads and DC boosting voltage regulator circuit Connection, the DC boosting voltage regulator circuit connects several blowers, and the air outlet of the blower is opposite with tower body lower part.

3. a kind of cooling tower according to claim 1, which is characterized in that the water inlet pipe is located at the part of horizontal in tower body Setting, side wall are vertically provided with several apopores.

4. a kind of cooling tower according to claim 1, which is characterized in that be provided in the middle part of the tower body can supply water, gas By heat exchanger plates.

5. a kind of cooling tower according to claim 2, which is characterized in that the lower sides of the tower body be connected with it is several into Air hose, the air outlet of the blower are connected to the blast pipe.