CN208833027U - A kind of condenser water recovery system - Google Patents
A kind of condenser water recovery system Download PDFInfo
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- CN208833027U CN208833027U CN201821161543.1U CN201821161543U CN208833027U CN 208833027 U CN208833027 U CN 208833027U CN 201821161543 U CN201821161543 U CN 201821161543U CN 208833027 U CN208833027 U CN 208833027U
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- water
- cooling water
- condenser
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- water outlet
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Abstract
The utility model discloses a kind of condenser water recovery systems, belong to condenser auxiliaries field, solve the problems, such as that condenser will cause the waste of water resource in cleaning.It includes condenser ontology, and condenser ontology includes cooling water inlet and cooling water outlet, further includes heat-exchanging component, the greenhouse that connect with heat-exchanging component;Heat-exchanging component includes heat exchange box and heat exchanger tube;Heat-exchanging component is also connected with water tank, the water pump for going out the hydraulic pressure in water tank;The valve for switching water tank is provided on water tank;Heat exchanger tube includes the inlet segment connecting with cooling water outlet, the water exit end connecting with cooling water inlet, the conveying section for connecting inlet segment and water exit end;Water tank is connect with water exit end;The connection component for connecting with cooling water inlet and cooling water outlet is provided on inlet segment and water exit end.The utility model is used for greenhouse and storage by the way that cooling water is carried out heat exchange, realizes the recycling of cooling water.
Description
Technical field
The utility model relates to condenser auxiliaries field, in particular to a kind of condenser water recovery system.
Background technique
Steam power plant is the place for converting the thermal energy of burning to electric energy, and steam turbine is the capital equipment of modern steam power plant, and
The steam discharge of steam turbine is condensed into a kind of equipment of water when condenser.The main function of condenser, first is that in turbine discharge mouth
Establish and keep high vacuum, second is that turbine discharge condensation water be used as boiler feedwater, constitute one completely recycle.
Due in the steam discharge of steam turbine contain more acidic materials, steam discharge be condensed in after water, can generate scale and
Deposit, so that steam turbine needs fixed time cleaning to guarantee its operating status.
And when to cleaning maintenance is carried out to condensing engine, it needs to discharge the water in condensing engine, in the prior art, water
It is directly discharged to the external world, to cause the waste of water resource.
Utility model content
The purpose of the utility model is to overcome condensers in the prior art will cause the waste of water resource in cleaning
Deficiency, and a kind of condenser water recovery system is provided, achieve the effect that recycle cooling water.
The above-mentioned technical purpose of the utility model has the technical scheme that
A kind of condenser water recovery system, including condenser ontology, condenser ontology include cooling water inlet and cooling water
The greenhouse that outlet further includes heat-exchanging component, is connect with heat-exchanging component;The heat-exchanging component includes heat exchange box and heat exchanger tube;Heat exchange
Component is also connected with water tank, the water pump for going out the hydraulic pressure in water tank.
By adopting the above technical scheme, since cooling water had carried out heat exchange with the steam in condenser, so cooling
Water has certain temperature;It has surplus heat in cooling water, when needing to clean condenser, the cooling water in condenser is passed through into cooling
Water out is expelled in heat-exchanging component, and the waste heat in cooling water is swapped, so that cooling water temperature reduces, cooling water temperature
Entered in water tank after reduction, when condenser cleaning after the completion of, can by the water in water tank by water pump re-enter to
It is used in condenser as cooling water;And the water for passing through heat exchange and having certain temperature then supplies greenhouse use, can be big
Canopy provides certain temperature.It is a kind of pair of waste heat and the technology that water resource is recycled.
Further preferably are as follows: the heat exchanger tube includes the inlet segment connecting with cooling water outlet, connect with cooling water inlet
Water exit end, connect inlet segment and water exit end conveying section;Conveying section is located in heat exchange box, and inlet segment and water exit end one end are pierced by
Heat exchange box;Water tank is connect with water exit end.
By adopting the above technical scheme, cooling water is delivered in heat exchanger tube, so that cooling water is small flow, outer water flowing is big
Flow can sufficiently swap the waste heat of cooling water;So that cooling water is sufficiently cooled down, after condenser has cleaned,
The cooling water of condenser can be again acted as.And the outer water flowing being heated then is fed directly at greenhouse;It can be cold by being arranged
But water and the flow velocity of outer water flowing carry out the time of heat exchange to control outer water flowing with cooling water, to guarantee the temperature of outer water flowing.
Further preferably are as follows: the conveying section is spiral setting.
By adopting the above technical scheme, spiral setting can lengthen the length of conveying section, to extend cooling water in conveying section
The interior time guarantees that cooling water and outer water flowing carry out sufficient heat exchange, so that cooling water is sufficiently cooled, outer water flowing is abundant
Heating.
Further preferably are as follows: the conveying section is horizontally extending.
By adopting the above technical scheme, if conveying section is arranged in vertical direction, cooling water can be accelerated under the influence of gravity
The flow velocity of its own, to influence the heat-exchange time of itself and outer water flowing;Horizontal direction extension ensure that a certain extent changes
It is hot abundant.
Further preferably are as follows: be provided with transformation segment on the inlet segment, transformation segment inner wall and cooling water outlet, cooling water into
The outer wall of mouth abuts;The connection for connecting with cooling water inlet and cooling water outlet is provided on the inlet segment and water exit end
Component.
By adopting the above technical scheme, it is connected between heat-exchanging component and condenser ontology by connection component, so that condenser
It is removable between ontology and heat-exchanging component to fill;Meanwhile transformation segment is set, by the biggish cooling water inlet of outer diameter and cooling water outlet
Inlet segment and water exit end are attached.
Further preferably are as follows: the inlet segment, water exit end, cooling water inlet, cooling water outlet cross section be equal annulus,
First sliding groove is circumferentially offered on the transformation segment, and second sliding slot is axially offered on cooling water inlet and cooling water outlet, the
Two sliding slots run through place cooling water inlet and cooling water outlet far from one end of condenser ontology, and second sliding slot is close to condenser sheet
One end of body is communicated with the third sliding slot circumferentially opened up;The connection component includes connector sleeve, is set on connector sleeve and first
First sliding block of sliding slot cooperation is set to the second sliding block cooperated on connector sleeve with second sliding slot and third sliding slot.
By adopting the above technical scheme, by after the alignment second sliding slot insertion of the second sliding block, into third sliding slot, rotation is connected
Set, the second sliding block are abutted with third sliding slot inner wall, realize the installation of connector sleeve;And first sliding block and first sliding groove ensure that,
When connector sleeve rotates, heat exchanger tube not will drive.
Further preferably are as follows: the cross section of the first sliding groove is L shape or T shape.
By adopting the above technical scheme, prevent the first sliding block from deviating from from first sliding groove.
Further preferably are as follows: the third sliding slot is provided with the first magnetic sheet far from one end of second sliding slot, on the second sliding block
It is provided with for the second magnetic sheet with the mutual magnetic of the first magnetic sheet.
By adopting the above technical scheme, when the second sliding block reaches one end of third sliding slot, reinforce the second sliding block and third is sliding
Fixation between slot, that is, strengthen the connection of inlet segment and cooling water outlet, ensure that cooling water from condensing to a certain extent
The stability being delivered in device ontology in heat-exchanging component.
Further preferably are as follows: the water tank includes inlet and outlet, and water outlet is connect with greenhouse;Water outlet and big
Spray equipment is provided between canopy.
By adopting the above technical scheme, the outer water flowing being heated is greenhouse humidification heating by spray equipment, and is plant
Moisture is provided.
Further preferably are as follows: be additionally provided with conditioner between the water outlet and greenhouse.
By adopting the above technical scheme, outer water flowing is passed into greenhouse by way of the gas with temperature, is protected for greenhouse
Temperature.
In conclusion the utility model has the following beneficial effects:
1, by setting heat-exchanging component, water tank, the waste heat of cooling water is swapped, and the cooling water of cooling is carried out
Storage, can be passed through use again after condenser has cleaned;
2, by the way that spiral helicine conveying section is arranged, length of the cooling water in heat exchange box is lengthened, realizes sufficiently heat exchange;
3, by setting connection component, the releasable connection between condenser ontology and heat-exchanging component is realized;
4, by setting spray equipment and conditioner, outer water flowing is entered in the form of warming gas and warm water big
Canopy provides temperature, humidity, moisture for greenhouse.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the utility model;
Fig. 2 is partial structure diagram in Fig. 1;
Fig. 3 is the explosive view of cooling water outlet, connection component, transformation segment, the second horizontal segment.
Appended drawing reference: 1, condenser ontology;11, cooling water inlet;12, cooling water outlet;121, second sliding slot;122,
Three sliding slots;2, heat-exchanging component;21, heat exchange box;211, water inlet;212, water outlet;213, first sliding groove;22, heat exchanger tube;221,
Inlet segment;2211, first horizontal segment;2212, the second horizontal segment;222, conveying section;223, water exit end;224, transformation segment;3, even
Connected components;31, connector sleeve;32, the first sliding block;33, the second sliding block;4, water tank;5, water inlet pipe;6, water pump;7, the first magnetic sheet;
8, the second magnetic sheet;9, spray equipment;10, conditioner;100, greenhouse.
Specific embodiment
The utility model is described in further detail below in conjunction with attached drawing.
A kind of condenser water recovery system, as shown in Figure 1, being changed including condenser ontology 1, with what condenser ontology 1 was connect
Hot component 2, the water tank 4 being connect with heat-exchanging component 2 and water pump 6, the greenhouse 100 being connect with heat-exchanging component 2.Condenser ontology 1
Including cooling water inlet 11 and cooling water outlet 12.
As shown in Fig. 2, heat-exchanging component 2 includes heat exchange box 21 and heat exchanger tube 22.Heat exchange box 21 is hollow cuboid;Heat exchange box
21 include the water outlet 212 for being set to the water inlet 211 of lower section and being set to top.Heat exchanger tube 22 includes successively interconnected
Inlet segment 221, conveying section 222, water exit end 223;Inlet segment 221 and water exit end 223 include the first water being connected to conveying section 222
Flat section 2211 is connected to second horizontal segment 2212 of the first horizontal segment 2211 far from 222 one end of conveying section;Conveying section 222 is spiral shell
It revolves shape and is horizontally arranged.
As shown in Fig. 2, the second horizontal segment 2212 is fixed with transformation segment 224 far from one end of first horizontal segment 2211, conversion
The inner wall of section 224 is abutted with the outer wall of cooling water inlet 11, cooling water outlet 12.The internal diameter of second horizontal segment 2212 is cooling water
Import 11,12 internal diameter of cooling water outlet a quarter.Second horizontal segment 2212, first horizontal segment 2211, conveying section 222 it is interior
Diameter and outer diameter are all the same.
As shown in Fig. 2, being provided with connection component 3 on transformation segment 224.As shown in figure 3, circumferentially being offered on transformation segment 224
Cross section is the first sliding groove 213 of T shape, and first sliding groove 213 is from beginning to end;Equal axis on cooling water inlet 11, cooling water outlet 12
To offering two second sliding slots 121, the one end of second sliding slot 121 far from condenser ontology 1 through place cooling water inlet 11,
Cooling water outlet 12;Second sliding slot 121 is communicated with the third sliding slot 122 circumferentially opened up close to one end of condenser ontology 1, and second
The cross section of sliding slot 121 and third sliding slot 122 is rectangle and size is identical.Connection component 3 includes inner wall and the second horizontal segment
The connector sleeve 31 of 2212 outer walls abutting is fixed on two the first sliding blocks 32 cooperated on connector sleeve 31 with first sliding groove 213, is fixed
In two the second sliding blocks 33 cooperated on connector sleeve 31 with second sliding slot 121 and third sliding slot 122.
As shown in figure 3, third sliding slot 122 is far from being adhesive with the first magnetic sheet 7 on one end inner wall of second sliding slot 121, second
The second magnetic sheet 8 being attracted with the first magnetic sheet 7 is adhesive on sliding block 33.When the second sliding block 33 reaches one end of third sliding slot 122,
First magnetic sheet 7 and the second magnetic sheet 8 are attracted.
As shown in Fig. 2, being communicated with vertical water inlet pipe 5 in the first horizontal segment 2211 of water exit end 223, water tank 4 is arranged
In outside water inlet pipe 5, water inlet pipe 5 extends to 4 lower half portion of water tank.Water pump 6 is installed on the second horizontal segment 2212 of water exit end 223
On.At the end of the cleaning of condenser ontology 1, the connector sleeve 31 on inlet segment 221 is removed from cooling water outlet 12, starts water
Water in water tank 4 is re-fed into condenser ontology 1 by cooling water inlet 11 and is used by pump 6.
As shown in Fig. 2, the top of greenhouse 100 is fixed with spray equipment 9, water outlet 212 is connected to spray equipment 9.Greenhouse
Air inlet is additionally provided on 100 sides, air inlet is communicated with conditioner 10, conditioner 10 and water outlet 212
Connection.
In the present embodiment, cooling water inlet 11, water inlet 211, water outlet 212, inlet segment 221, goes out cooling water outlet 12
Water section 223 is cylinder type hollow pipe.
The working condition of the present embodiment is as follows: when needing to clean condenser ontology 1, by inlet segment 221 and water exit end 223
Connector sleeve 31 is connect with cooling water outlet 12 and cooling water inlet 11 respectively, and the second sliding block 33 is slid into along second sliding slot 121
122 one end of third sliding slot, the first magnetic sheet 7 and the second magnetic sheet 8 are attracted;Outer water flowing is passed through in heat exchange box 21 by water inlet 211,
Cooling water is flowed into heat exchanger tube 22 and is exchanged heat with outer water flowing;Outer water flowing is entered in greenhouse 100 by water outlet 212, cooling water
Into in water tank 4;After condenser ontology 1 cleans, the water pump 6 in water butt is entered by cooling water inlet by water pump 6
At 11.
This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability
Field technique personnel can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but
As long as all by the protection of Patent Law in the scope of the claims of the utility model.
Claims (10)
1. a kind of condenser water recovery system, including condenser ontology (1), condenser ontology (1) includes cooling water inlet (11)
With cooling water outlet (12), which is characterized in that further include heat-exchanging component (2), the greenhouse (100) being connect with heat-exchanging component (2);Institute
Stating heat-exchanging component (2) includes heat exchange box (21) and heat exchanger tube (22);Heat-exchanging component (2) is also connected with water tank (4), for that will store up
The water pump (6) that hydraulic pressure in water tank (4) goes out.
2. a kind of condenser water recovery system according to claim 1, which is characterized in that the heat exchanger tube (22) include with
The inlet segment (221) of cooling water outlet (12) connection, the water exit end (223) being connect with cooling water inlet (11), connection inlet segment
(221) and the conveying section (222) of water exit end (223);Conveying section (222) is located in heat exchange box (21), inlet segment (221) and water outlet
Section (223) one end is pierced by heat exchange box (21);Water tank (4) is connect with water exit end (223).
3. a kind of condenser water recovery system according to claim 2, which is characterized in that the conveying section (222) is spiral shell
Rotation setting.
4. a kind of condenser water recovery system according to claim 3, which is characterized in that the conveying section (222) is edge
Horizontal direction extends.
5. a kind of condenser water recovery system according to claim 2, which is characterized in that set on the inlet segment (221)
It is equipped with transformation segment (224), transformation segment (224) inner wall is abutted with the outer wall of cooling water outlet (12), cooling water inlet (11);It is described
The company for connecting with cooling water inlet (11) and cooling water outlet (12) is provided on inlet segment (221) and water exit end (223)
Connected components (3).
6. a kind of condenser water recovery system according to claim 5, which is characterized in that the inlet segment (221), water outlet
Section (223), cooling water inlet (11), cooling water outlet (12) cross section be annulus, circumferentially opened on the transformation segment (224)
Equipped with first sliding groove (213), axially offered second sliding slot (121) on cooling water inlet (11) and cooling water outlet (12), the
Two sliding slots (121) far from condenser ontology (1) one end run through place cooling water inlet (11) and cooling water outlet (12), second
Sliding slot (121) is communicated with the third sliding slot (122) circumferentially opened up close to the one end of condenser ontology (1);The connection component (3)
Including connector sleeve (31), be set on connector sleeve (31) with first sliding block (32) of first sliding groove (213) cooperation, be set to and connect
The second sliding block (33) cooperated on set (31) with second sliding slot (121) and third sliding slot (122).
7. a kind of condenser water recovery system according to claim 6, which is characterized in that the first sliding groove (213)
Cross section is L shape or T shape.
8. a kind of condenser water recovery system according to claim 6, which is characterized in that the third sliding slot (122) is remote
One end from second sliding slot (121) is provided with the first magnetic sheet (7), be provided on the second sliding block (33) for the first magnetic sheet (7)
The second magnetic sheet (8) of mutual magnetic.
9. a kind of condenser water recovery system according to claim 1, which is characterized in that the water tank (4) include into
The mouth of a river (211) and water outlet (212), water outlet (212) are connect with greenhouse (100);Between water outlet (212) and greenhouse (100)
It is provided with spray equipment (9).
10. a kind of condenser water recovery system according to claim 9, which is characterized in that the water outlet (212) and big
Conditioner (10) are additionally provided between canopy (100).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821161543.1U CN208833027U (en) | 2018-07-21 | 2018-07-21 | A kind of condenser water recovery system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821161543.1U CN208833027U (en) | 2018-07-21 | 2018-07-21 | A kind of condenser water recovery system |
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CN208833027U true CN208833027U (en) | 2019-05-07 |
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CN201821161543.1U Active CN208833027U (en) | 2018-07-21 | 2018-07-21 | A kind of condenser water recovery system |
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2018
- 2018-07-21 CN CN201821161543.1U patent/CN208833027U/en active Active
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