CN206037497U - Efficient evaporation formula condenser - Google Patents

Efficient evaporation formula condenser Download PDF

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Publication number
CN206037497U
CN206037497U CN201620962974.2U CN201620962974U CN206037497U CN 206037497 U CN206037497 U CN 206037497U CN 201620962974 U CN201620962974 U CN 201620962974U CN 206037497 U CN206037497 U CN 206037497U
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CN
China
Prior art keywords
cooling
condenser coil
condenser
shower nozzle
water
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Application number
CN201620962974.2U
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Chinese (zh)
Inventor
宁用
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Guangdong Deweiyuan Air Conditioning Equipment Co., Ltd.
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Guangzhou De Wei Source Air Conditioning Equipment Co Ltd
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Abstract

The utility model provides an efficient evaporation formula condenser, include: casing, casing pass through the cross slab and separate into first installation room and second installation room, and the water catch bowl is installed in the bottom of second installation room, and cooling water pump installs in one side of water catch bowl, and the compressor is installed in the second installation indoorly with cooling water pump side by side, a plurality of cooling chambers are separated into through erecting the baffle in first installation room, all install condenser coil in every cooling chamber, and the fan is installed under condenser coil, and the shower nozzle is installed directly over condenser coil, and the air exit setting is in the top of shower nozzle, and the shower nozzle passes through pipe connection to cooling water pump, and condenser coil passes through the pipeline and is connected with air compressor. This efficient evaporation formula condenser uses the mode of fan initiative air inlet, and the cooling amount of wind is big, not only can strengthen condenser coil's the heat speed of scattering and disappearing greatly, can also take away the partial heat in the shower water simultaneously, and then reach energy saving and consumption reduction and water -saving purpose.

Description

A kind of high-efficiency evaporation type condenser
Technical field
This utility model is related to a kind of condenser, and in particular to a kind of high-efficiency evaporation type condenser.
Background technology
Traditional central air conditioner system is mainly by refrigerator system, cooling water recirculation system, freezing water circulation system, blower fan Coil system and cooling tower composition.During refrigeration work, cold-producing medium becomes low by throttling arrangement blood pressure lowering (while also lowering the temperature) The gas-liquid mixture of warm low pressure, is then delivered to evaporator evaporation heat absorption, freezes to freezing the water in water circulation system;Then Chilled water is sent in each coil pipe by chilled water pump, and the wind for coil pipe being blowed to from blower fan can carry out heat exchange with coil pipe and become cold Wind, and blow to the room for needing cooling.Meanwhile, the low-pressure gaseous refrigerant Jing after evaporation is inhaled into compressor, is compressed into height The gas refrigerant of warm high pressure, the water for being discharged in heat, with cooling circulating water system within the condenser carry out heat exchange;Then The cooling water for bringing heat is sent on cooling tower by cooling water pump, then spraying cooling is carried out to which by water tower fan, it is and big Heat exchange is carried out between gas, is distributed heat in air.
In the cooling water recirculation system of conventional central air conditioning system, the output water temperature degree of condenser is usually 37 degrees Celsius, And be input into coolant-temperature gage and be usually 32 degrees Celsius, therefore, within the condenser, the heat exchange carried out by cooling water is that a kind of sensible heat is handed over Change, cooling water flow is big, temperature is high, heat exchanger effectiveness is relatively low.Condenser coil heat transfer effect is also not reaching to most preferably, from condensate pans The water that pipe surface is passed through is smoked recyclings soon, and the water after heat absorption is not also able to do in time fully to lower the temperature, and is entered again Row heat exchange, causes heat exchanger effectiveness not high.And, in the condenser system in traditional central air conditioner system, for condensation Air after heat exchange to air intake, is then discharged by the exhaust fan on top, this kind of heat exchange mode, heat by air typically using side Exchange efficiency is low, and takes the radiating mode of the passive air draft of exhaust fan so that heat dissipation exhaust it is less efficient.
Utility model content
For solving the deficiencies in the prior art, this utility model provides a kind of high-efficiency evaporation type condenser.
This utility model adopts the following technical scheme that, a kind of high-efficiency evaporation type condenser, including:Casing, cooling water pump, sky Air compressor, water leg, blower fan, condenser coil, shower nozzle and exhaust outlet, the casing are separated into the first installation room by diaphragm plate With second install room, water leg installed in second install room bottom, cooling water pump be arranged on water leg side, at least one It is indoor that air compressor is mounted side by side on the second installation with cooling water pump;The first installation room is distributed by polylith spacing side by side Vertical clapboard be separated into multiple cooling chambers, each cooling interior is respectively mounted condenser coil, assembling condenser coil just under Side, the shower nozzle of multiple spacing side by side distributions are arranged on the surface of condenser coil, and exhaust outlet is arranged on the top of shower nozzle, the row With blower fan just to arranging, the shower nozzle is connected to cooling water pump by pipeline in air port, and the condenser coil passes through pipeline and air Compressor connects.
In above-mentioned technical proposal, after the air air inlet compressor for freezing is compressed, into condensate pans Pipe carries out heat exchange condensation, and the air after heat exchange cooling is blown from the outlet of condenser coil, to reach the effect of blowout cold air Really.During condenser coil exchanges heat, cooling water is extracted out from water leg by cooling water pump, and is delivered to by water-supply-pipe cold The top of solidifying coil pipe, then sprays out through shower nozzle, is directly contacted and takes away part sensible heat with condenser coil by cooling water, together When blower fan immediately below condenser coil toward the air blast of condenser coil direction, and the exhaust outlet from above condenser coil is discharged, By the active air blast of blower fan, the air quantity of cooling is far longer than the cooling air quantity of exhaust fan used in traditional air conditioner, and such one Come, the lost speed of heat of condenser coil can be greatly reinforced, while cooling wind can also take away the portion after exchanging heat in shower water Divide heat, can effectively reduce cooling water temperature in water leg so that cooling water keeps relatively low during recycling Temperature, so as to improve the heat exchanger effectiveness of cooling water and condenser coil, and then reaches energy-saving and water-saving mesh 's.
Preferably, the first installation room is separated into three cooling chambers by the vertical clapboard that two pieces of spacing side by side are distributed, often Individual cooling is indoor to install blower fan, condenser coil, shower nozzle and exhaust outlet from bottom to up successively.Each cooling chamber can correspond to a list Only refrigeration unit, but three cooling chambers share a set of cooling water pump system and air compression system, save production to reach The purpose of cost and operating cost, while be also beneficial to the independent control of each refrigeration unit.
Preferably, the second installation indoor location has one or multiple stage air compressor, is respectively arranged in cooling water The left and right sides of pump.
Preferably, the condenser coil surface is socketed with radiated rib.It is to improve condenser coil to arrange radiated rib Contact area between shower water, improves heat exchange efficiency.
The beneficial effect of a kind of high-efficiency evaporation type condenser that this utility model is provided is:
1) this high-efficiency evaporation type condenser high cooling efficiency.In the condenser of conventional air conditioner system, it is by cooling water Sensible heat change is cooled down to water, and institute's water requirement is larger, and the temperature of cooling water is higher;And in this utility model, be by water The latent heat of vaporization takes away heat to cool down to water, and institute's water requirement is few, and using the mode of blower fan active air intake, cooling air quantity is big, The lost speed of heat of condenser coil not only can be greatly reinforced, while cooling wind can also take away the portion after exchanging heat in shower water Divide heat, can effectively reduce cooling water temperature in water leg so that cooling water keeps relatively low during recycling Temperature, so as to improve the heat exchanger effectiveness of cooling water and condenser coil, and then reaches energy-saving and water-saving mesh 's.
2) this high-efficiency evaporation type condenser installation maintenance cost is low.First installation room and the second installation room are structure as a whole, Great convenience is brought so as to the length of the connecting line needed for can greatly reducing, reduces cost and to installation and maintenance.
3) this high-efficiency evaporation type condenser realize can with multiple cooling chamber arranged in parallel, and share a set of cooling water system and Compressed air system, production cost and operating cost it is low, while being also beneficial to the independent control of each refrigeration unit.
Description of the drawings
Fig. 1 is structural representation of the present utility model.
In figure:100th, casing;110th, diaphragm plate;120th, vertical clapboard;200th, cooling water pump;300th, air compressor;400、 Water leg;500th, blower fan;600th, condenser coil;700th, shower nozzle;800th, exhaust outlet.
Specific embodiment
Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is carried out Clear, complete description, it is clear that described embodiment is only this utility model a part of embodiment, rather than whole Embodiment.The every other embodiment obtained under the premise of creative work is not made by this area ordinary person, belongs to Protection domain of the present utility model.
Embodiment:A kind of high-efficiency evaporation type condenser.
With reference to shown in Fig. 1, a kind of high-efficiency evaporation type condenser, including:Casing 100, cooling water pump 200, air compressor 300th, water leg 400, blower fan 500, condenser coil 600, shower nozzle 700 and exhaust outlet 800, the casing 100 pass through diaphragm plate 110 It is separated into the first installation room and second and room is installed, water leg 400 is installed installed in the second bottom for installing room, cooling water pump 200 In the side of water leg 400, it is indoor that at least one air compressor 300 is mounted side by side on the second installation with cooling water pump 200;Institute State the first installation room and multiple cooling chambers are separated into by the vertical clapboard 120 that polylith spacing side by side is distributed, each cooling interior is pacified Dress condenser coil 600, blower fan 500 are arranged on the underface of condenser coil 600, and the shower nozzle 700 of multiple spacing side by side distributions is installed In the surface of condenser coil 600, exhaust outlet 800 is arranged on the top of shower nozzle 700, and the exhaust outlet 800 is just right with blower fan 500 Arrange, the shower nozzle 700 is connected to cooling water pump 200 by pipeline, the condenser coil 600 passes through pipeline and air compressor 300 connections.
In above-mentioned technical proposal, after the air air inlet compressor 300 for freezing is compressed, into condensation Coil pipe 600 carries out heat exchange condensation, and the air after heat exchange cooling is blown from the outlet of condenser coil 600, cold to reach blowout The effect of air.During condenser coil 600 exchanges heat, cooling water is extracted out from water leg 400 by cooling water pump 200, and The top of condenser coil 600 is delivered to by water-supply-pipe, is then sprayed out through shower nozzle 700, it is directly and cold by cooling water Part sensible heat is taken away in the contact of solidifying coil pipe 600, while the blower fan 500 immediately below condenser coil 600 is toward 600 side of condenser coil To air blast, and the exhaust outlet 800 from above condenser coil 600 is discharged, by the active air blast of blower fan 500, the air quantity of cooling The cooling air quantity of exhaust fan used in traditional air conditioner is far longer than, consequently, it is possible to the heat of condenser coil 600 can be greatly reinforced Lost speed, while cooling wind can also take away the partial heat after exchanging heat in shower water, effectively can reduce in water leg 400 Cooling water temperature so that cooling water keeps relatively low temperature during recycling, so that improve cooling water and condensation The heat exchanger effectiveness of coil pipe 600, and then reach energy-saving and water-saving purpose.
With reference to shown in Fig. 1, the first installation room by the vertical clapboard 120 of two pieces of spacing side by side distributions be separated into three it is cold But room, each cooling is indoor to install blower fan 500, condenser coil 600, shower nozzle 700 and exhaust outlet 800 from bottom to up successively.Each Cooling chamber can correspond to a single refrigeration unit, but three cooling chambers share a set of cooling water system and air compression system System, to reach the purpose for saving production cost and operating cost, while be also beneficial to the independent control of each refrigeration unit.
With reference to shown in Fig. 1, the second installation indoor location has two air compressors 300, and is respectively arranged in cooling The left and right sides of water pump 200.Using a set of during normal work, while standby a set of, two sets of air compressors 300 are used alternatingly, To ensure that this evaporative condenser can be run well with twenty four hours.
In the present embodiment, 600 surface of the condenser coil is socketed with radiated rib.It is cold in order to improve to arrange radiated rib Contact area between solidifying coil pipe 600 and shower water, improves heat exchange efficiency.
The above be preferred embodiment of the present utility model, but this utility model should not be limited to the embodiment and Accompanying drawing disclosure of that, thus it is every without departing from the equivalent or modification completed under spirit disclosed in the utility model, all fall Enter the scope of this utility model protection.

Claims (4)

1. a kind of high-efficiency evaporation type condenser, it is characterised in that include:Casing (100), cooling water pump (200), air compressor (300), water leg (400), blower fan (500), condenser coil (600), shower nozzle (700) and exhaust outlet (800), the casing (100) the first installation room and second is separated into by diaphragm plate (110) and room is installed, water leg (400) installs room installed in second Bottom, cooling water pump (200) is arranged on the side of water leg (400), at least one air compressor (300) and cooling water pump (200) it is mounted side by side on the second installation indoor;The vertical clapboard (120) point that the first installation room is distributed by polylith spacing side by side Multiple cooling chambers are divided into, each cooling interior is respectively mounted condenser coil (600), and blower fan (500) is arranged on condenser coil (600) Underface, the shower nozzle (700) of multiple spacing side by side distributions are arranged on the surface of condenser coil (600), and exhaust outlet (800) is arranged In the top of shower nozzle (700), exhaust outlet (800), with blower fan (500) just to arranging, shower nozzle (700) are connected by pipeline Cooling water pump (200) is connected to, described condenser coil (600) are connected with air compressor (300) by pipeline.
2. high-efficiency evaporation type condenser as claimed in claim 1, it is characterised in that:Described first installs room passes through two pieces side by side The vertical clapboard (120) being spaced apart is separated into three cooling chambers, each cooling is indoor install successively from bottom to up blower fan (500), Condenser coil (600), shower nozzle (700) and exhaust outlet (800).
3. high-efficiency evaporation type condenser as claimed in claim 2, it is characterised in that:The second installation indoor location has one Or multiple compressors (300).
4. high-efficiency evaporation type condenser as claimed in claim 1, it is characterised in that:Condenser coil (600) surface is socketed There is radiated rib.
CN201620962974.2U 2016-08-27 2016-08-27 Efficient evaporation formula condenser Active CN206037497U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201620962974.2U CN206037497U (en) 2016-08-27 2016-08-27 Efficient evaporation formula condenser

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201620962974.2U CN206037497U (en) 2016-08-27 2016-08-27 Efficient evaporation formula condenser

Publications (1)

Publication Number Publication Date
CN206037497U true CN206037497U (en) 2017-03-22

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110044061A (en) * 2018-05-05 2019-07-23 黄永培 Heat-exchange system and air-conditioning system

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110044061A (en) * 2018-05-05 2019-07-23 黄永培 Heat-exchange system and air-conditioning system

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GR01 Patent grant
C14 Grant of patent or utility model
CP03 Change of name, title or address

Address after: 511400 Room 504, Building 9, Jieshun Road, Nancun Town, Panyu District, Guangzhou City, Guangdong Province

Patentee after: Guangdong Deweiyuan Air Conditioning Equipment Co., Ltd.

Address before: 511442 Room 504, Building 9, Jieshun Road, Nancun Town, Panyu District, Guangzhou City, Guangdong Province

Patentee before: Guangzhou De Wei source air conditioning equipment Co., Ltd.

CP03 Change of name, title or address