CN205957552U - Water wind combined cooling formula condenser - Google Patents

Abstract

The utility model discloses a water wind combined cooling formula condenser, including air -cooled system and water cooling system, air -cooled system includes air -cooled heat exchanger and fan, and water cooling system includes water spray plate and locate the water -cooling heat exchanger under the water spray plate that the water -cooling heat exchanger includes horizontal cascade arrangement's many heat exchange tubes, -Offset about two adjacent heat exchange tubes feed through just, water -cooling heat exchanger and air -cooled heat exchanger intercommunication. The utility model discloses can make on the whole water -cooling heat exchanger can both in contact with water, increases water -cooled effective heat radiating area for the heat dissipation is abundant, even and high -efficient. And because wherein each heat exchange tube is that the level is arranged, it is mutually perpendicular with the trickle direction, the contact time of every piece multiplicable heat exchange tube and water. Furthermore, the heat exchange tube is on a parallel with water spray plate and sets up, takes place the heat exchange for guaranteeing that the homoenergetic is enough on the whole root heat exchange tube with water, and water spray plate can design to putting in order disk water sprinkling hole for increasing the watering volume, making the heat exchange tube form water and drench sharp potentiation heat exchange mode, the heat transfer is more abundant, high -efficient.

Description

Water wind composite cooling condenser

Technical field

The utility model is related to air-conditioning technical field, especially relates to a kind of water wind composite cooling condenser.

Background technology

Water wind composite cooling condenser gradually occuping market with the advantage such as its high energy efficiency ratio and high condensation efficiency.Existing Water wind composite cooling condenser be usually to place air cooling heat exchanger in the top of water drenching heat exchanger or side, due to this water wind Composite cooling condenser must reserve the air draft passage of air cooling heat exchanger in water drenching heat exchanger, and its conventional design is as follows：Adjacent Two heat exchanger tubes are uprightly set up in parallel, middle reserved wind passage, design sprinkling disk, this sprinkling disk is designed like above heat exchanger tube In alphabetical " E " font, it includes basal disc and multiple sub-disk, and multiple sub-disk parallel interval are arranged in order to be corresponded with heat exchanger tube.

There are the following problems for above-mentioned design：Water drenches and sputters to surrounding during the top to every heat exchanger tube, enters in inlet air passage, Water drenching on adjacent two heat exchanger tubes can not intersect sputtering so that the heat exchanger tube bottom portion amount of drenching with rain is less, even without every On heat exchanger tube, effective area of dissipation of water-cooled reduces；Water drench direction consistent with heat exchanger tube arranged direction so that shower water is in heat exchange The pipe upper time of staying is shorter.The problems referred to above all will lead to that condenser refrigeration is inconspicuous, and energy consumption for cooling is higher, operating cost Higher.

Utility model content

Based on this, the utility model is to overcome the defect of prior art, provides a kind of water wind composite cooling condenser, It can increase effective area of dissipation of heat exchanger tube it is ensured that radiating uniformly, fully, lifts condensation efficiency.

Its technical scheme is as follows：

A kind of water wind composite cooling condenser, including air cooling system and water-cooling system, described air cooling system includes air-cooled Heat exchanger and blower fan, described water-cooling system includes sprinkling disk and the water cooling heat exchanger immediately below described sprinkling disk, described water Cold heat exchanger includes many heat exchanger tubes of horizontal stacking arrangement, adjacent two described heat exchanger tube connections and up and down dislocation arrangement, institute State water cooling heat exchanger to connect with described air cooling heat exchanger.

Wherein in an embodiment, between adjacent two described heat exchanger tubes, form wind passage, the exhausting side of described blower fan To parallel with described wind passage, described wind passage is located at the inlet side of described blower fan.

Wherein in an embodiment, described heat exchanger tube is coiled pipe.

Wherein in an embodiment, described watering tray bottom offers multiple water sprayering holes, and multiple described water sprayering holes are uniform It is distributed in the surface of described water cooling heat exchanger.

Wherein in an embodiment, also include the drip tray immediately below described water cooling heat exchanger and described water receiving The water tank of disk connection and for connecting described water tank and the circulating water pipe of described sprinkling disk, described circulating water pipe is provided with circulation Water pump.

Wherein in an embodiment, described water tank is additionally provided with automatic water-replenishing device, for drawing water from the external world.

Wherein in an embodiment, described water tank is additionally provided with blowdown apparatus, for periodically discharging sewage.

Wherein in an embodiment, described air cooling heat exchanger is provided with refrigerant away from one end of described water cooling heat exchanger Entrance, described water cooling heat exchanger is provided with the outlet of refrigerant away from one end of described air cooling heat exchanger.

Wherein in an embodiment, described water cooling heat exchanger also includes the first gathering tube and the second gathering tube, adjacent Two described heat exchanger tubes pass through a connecting tube connection and consist of a heat exchanging piece, the entrance of each described heat exchanging piece all with described First gathering tube connection, the outlet of each described heat exchanging piece is all connected with described second gathering tube.

Below the advantage or principle of preceding solution is illustrated：

Water wind composite cooling condenser described in the utility model, its water cooling heat exchanger includes being laminated and misplacing arrangement Many heat exchanger tubes, sprinkling disk is located at the surface of water cooling heat exchanger.When water is spilt the heat exchanger tube to top by sprinkling disk, heat exchange Guan Shangshui sputters to surrounding, and because adjacent two heat exchanger tubes dislocation arrangement is so that the water of sputtering just falls to positioned at this top layer On second layer heat exchanger tube below heat exchanger tube, the like, the water on second layer heat exchanger tube is sputtered onto third layer heat exchanger tube Upper ... therefore, the utility model can make can contact with water on whole water cooling heat exchanger, the effective radiating surface increasing water-cooled Amass so that radiating is abundant, uniformly and efficient.And because heat exchanger tube each in the utility model is horizontally disposed, it is with water drenching side To perpendicular, the time of contact of every heat exchanger tube and water can be increased.Additionally, described heat exchanger tube is arranged parallel to sprinkling disk, for protecting All with water, heat exchange can occur on whole heat exchanger tube of card, sprinkling disk may be designed as whole disc type water sprayering hole, in order to increase watering amount, So that heat exchanger tube is formed water and drench and swash enhanced heat transfer mode, heat exchange is more fully, efficiently.Condenser refrigeration effect described in the utility model Fruit substantially, has reached the effect of energy-conservation, it is possible to reduce operating cost.

By the way of side air-out, wind flows into and out it is ensured that in wind passage the utility model in the horizontal direction Wind speed is uniformly so that refrigerant cooling is fully and efficient.And traditional top air-out mode, because wind is during circulation First horizontally enter into and vertically flow out again, the circulating direction of wind occurs to change so that wind speed changes, that is, in heat exchange bottom of the tube wind speed Relatively low, at top, at blower fan, wind speed is higher, so that wind speed is uneven in wind passage, heat exchanger tube cooling effect is poor.With When the utility model water cooling heat exchanger located at the inlet side of blower fan so that in water cooling heat exchanger refrigerant both can pass through water drenching Heat exchange cooling is it is also possible to carry out heat exchange cooling by the air of flowing.

, for coiled pipe so that refrigerant circuitous flow in heat exchanger tube, refrigerant is from one end process for described heat exchanger tube The other end is flowed to, its abundant disturbance in heat exchanger tube, it is ensured that heat exchange is abundant, reaches the effect of high efficient heat exchanging after repeatedly turning.

Watering tray bottom have multiple water sprayering holes being evenly arranged it is ensured that uniform fluid flow trickle down water cooling heat exchanger Heat exchanger tube on, realize uniform, sufficient water-cooled heat exchange.

The utility model also includes the drip tray immediately below water cooling heat exchanger, and drip tray reclaims in order to collect water drenching It is stored in water tank, and by water circulating pump, the shower water collected in water tank is delivered in sprinkling disk again, thus realizing cold But the recycling of water, is saved greatly water resource.

Described water tank is provided with automatic water-replenishing device, in order to make up the loss causing because of cooling water evaporation.Meanwhile, water tank It is provided with blowdown apparatus, for automatically periodically sewage being discharged it is ensured that the cleannes of cycle water in water cooling heat exchanger and hardness, Reduce the fouling of heat exchange pipe external surface.

The utility model air cooling heat exchanger and water cooling heat exchanger are combined into one, cold using first air-cooled, water-cooled again strengthening But technology, removes condensation sensible heat and the condensation latent heat in refrigerant respectively, completes the process that unit condenses heat abstraction.This is air-cooled In heat exchanger, the cooled wind of high temperature condensation sensible heat of refrigerant is taken away, after isolating most condensation sensible heat, in refrigerant Only it is left little part low temperature sensible heat and whole condensation latent heat, also feedwater cold heat exchanger creates good condensing condition simultaneously.Remove The refrigerant of most condensation sensible heat, spray in the fresh air of relative low temperature with from sprinkling disk after entering water cooling heat exchanger Under cold water dual-cooled, so that refrigerant is fully condensed and good degree of supercooling, remove condensation latent heat, be that indoor set is abundant Evaporation is ready.

In the utility model, two adjacent set of heat exchange tubes synthesize a heat exchanging piece, and each heat exchanging piece directly passes through the One gathering tube and the outlet of air cooling heat exchanger, and connected with the entrance of throttling arrangement by the second gathering tube, can increase Water-cooled heat exchange rate is so that the refrigerant after condensed can be rapidly reached in throttling arrangement.And, in each heat exchanging piece Further through the heat exchanger tube composition of about two arrangements that misplace, the condensation time of refrigerant can be increased so that refrigerant is cold Solidifying abundant.

Brief description

Fig. 1 is the structural representation of the water wind composite cooling condenser described in the utility model embodiment；

Fig. 2 is the structural representation of the water cooling heat exchanger described in the utility model embodiment and air cooling heat exchanger；

Fig. 3 is the top view of the heat exchanging piece described in the utility model embodiment；

Fig. 4 is the structural representation of the sprinkling disk described in the utility model embodiment.

Description of reference numerals：

100th, water-cooling system, 110, water cooling heat exchanger, 111, heat exchanging piece, 1111, heat exchanger tube, 1112, connecting tube, 1113, Wind passage, the 112, first gathering tube, the 113, second gathering tube, 120, sprinkling disk, 121, water sprayering hole, 130, drip tray, 140, water Case, 141, automatic water-replenishing device, 142, blowdown apparatus, 150, circulating water pipe, 160, water circulating pump, 200, air cooling system, 210, Air cooling heat exchanger, 220, blower fan.

Specific embodiment

For making the purpose of this utility model, technical scheme and advantage become more apparent, below in conjunction with accompanying drawing and specifically in fact Apply mode, the utility model is described in further detail.It should be appreciated that specific embodiment described herein Only in order to explain the utility model, do not limit protection domain of the present utility model.

As depicted in figs. 1 and 2, water wind composite cooling condenser described in the utility model, including water-cooling system 100 He Air cooling system 200, described air cooling system 200 includes air cooling heat exchanger 210 and blower fan 220, and described blower fan 220 is plain shaft stream wind Machine；Described water-cooling system 100 includes sprinkling disk 120 and the water cooling heat exchanger 110 immediately below described sprinkling disk 120.Described Water cooling heat exchanger 110 include horizontal stacking arrangement many heat exchanger tubes 1111, adjacent two described heat exchanger tubes 1111 connect and on Lower dislocation arrangement, described water cooling heat exchanger 110 is connected with described air cooling heat exchanger 210.When sprinkling disk 120 spills water to top Heat exchanger tube 1111 when, on heat exchanger tube 1111, water sputters to surrounding, but due to adjacent two heat exchanger tubes 1111 dislocation arrangement so that The water of sputtering just falls on the second layer heat exchanger tube 1111 positioned at this top layer heat exchanger tube 1111 lower section, the like, the second layer Water on heat exchanger tube 1111 is sputtered onto on third layer heat exchanger tube 1111 ... therefore, and the utility model can make whole water-cooled heat exchange Can contact with water on device 110, increase effective area of dissipation of water-cooled so that radiating fully, uniformly and efficiently, strengthens condenser Refrigeration.And because heat exchanger tube 1111 each in the utility model is horizontally disposed, it is perpendicular with water drenching direction, can increase Plus the time of contact of every heat exchanger tube 1111 and water.Additionally, described heat exchanger tube 1111 is arranged parallel to sprinkling disk 120, for ensureing All with water, heat exchange can occur on whole heat exchanger tube 1111, sprinkling disk 120 may be designed as whole disc type water sprayering hole 121, in order to increase Plus watering amount swashs enhanced heat transfer mode so that heat exchanger tube 1111 forms water and drenches, heat exchange is more fully, efficiently.

In the present embodiment, described air cooling heat exchanger 210 is provided with refrigerant away from one end of described water cooling heat exchanger 110 Entrance, described water cooling heat exchanger 110 is provided with the outlet of refrigerant away from one end of described air cooling heat exchanger 210.Air-cooled change The hot refrigerant-medium inlet of device 210 is connected with the exhaust outlet of compressor, and during compressor operating, high temperature and high pressure gas enter air-cooled changing After hot device 210, the condensation sensible heat of refrigerant is taken away rapidly by wind along cooling wind direction, and refrigerant temperature reduces, refrigeration Medium most condensation sensible heat is excluded, and remaining condensation heat is little partial condensation sensible heat and whole condensation latent heat, and feedwater is cold to change Good condensing condition created by hot device 110.Due in water cooling heat exchanger 110, shape between adjacent two described heat exchanger tubes 1111 Become a common practice passage 1113, and the exhausting direction of described blower fan 220 is parallel with described wind passage 1113, and described wind passage 1113 is located at The inlet side of described blower fan 220, that is, water cooling heat exchanger 110 be arranged on the air inlet side of blower fan 220, from air cooling heat exchanger 210 Out and enter the refrigerant of water cooling heat exchanger 110 to spill, in the fresh air of relative low temperature and sprinkling disk 120, the cold water getting off common Under cooling, remove remaining condensation sensible heat and whole condensation latent heat in refrigerant, make refrigerant fully condensed with good Good degree of supercooling, it is ready to be that indoor apparatus of air conditioner fully evaporates.The utility model is by the condenser of traditional air conditioner machine by single Air-cooled or single water-cooled, innovates into air-cooled adding water and sprays Compound cooling mode, first air-cooled, Water spray strengthening cooling again, Remove condensation sensible heat and the condensation latent heat in refrigerant respectively, become unit to condense the process of heat abstraction.Using the utility model The air-conditioning products of described water wind composite cooling condenser, determine cooling air quantity and the water-cooled of air cooling heat exchanger 210 by test Air-conditioner set refrigeration efficiency ratio can be brought up to 4.5, than traditional Water cooled air conditionerses energy-conservation 20% by the cooling water inflow of heat exchanger 110 More than, than traditional air cooling air conditioner energy-conservation more than 40%.

As shown in figure 3, in the present embodiment, described heat exchanger tube 1111 is stainless steel coiled pipe, and, from the beginning of one end, warp is many for it Secondary rotary bending extends to the other end, with so that refrigerant circuitous flow in heat exchanger tube 1111, refrigerant is from one end Flow to the other end after repeatedly turning, its abundant disturbance in heat exchanger tube 1111, thus ensure that heat exchange fully, reaches and efficiently changes The effect of heat.As shown in figure 4, described sprinkling disk 120 bottom offers multiple water sprayering holes 121, multiple described water sprayering holes 121 are uniform It is distributed in the surface of described water cooling heat exchanger 110 it is ensured that the heat exchanger tube trickling down water cooling heat exchanger 110 of uniform fluid flow On 1111, realize uniform, sufficient water-cooled heat exchange.

Further, incorporated by reference to shown in Fig. 2 and Fig. 3, two adjacent described heat exchanger tubes 1111 pass through a connecting tube 1112 connection one heat exchanging piece 111 of composition, described connecting tube 1112 is inclined tube, and one end connection is located at the heat exchanger tube 1111 on upper strata, Other end connection is located at the heat exchanger tube 1111 of lower floor.Described water cooling heat exchanger 110 also includes the first gathering tube 112 and second and collects Pipe 113, the entrance of each described heat exchanging piece 111 is all connected with described first gathering tube 112, and its outlet all collects with described second Pipe 113 connects.Each heat exchanging piece 111 is directly connected with air cooling heat exchanger 210 by the first gathering tube 112, and converges by second House steward 113 is connected with throttling arrangement, can increase water-cooled heat exchange rate so that the refrigerant after condensed can reach rapidly To in throttling arrangement.And, in each heat exchanging piece 111, the heat exchanger tube 1111 further through about two arrangements that misplace forms, permissible Increase the condensation time of refrigerant so that refrigerant condensation is abundant.

As shown in figure 1, the utility model also includes water tank 140 drip tray immediately below described water cooling heat exchanger 110 130 water tanks 140 connecting with described drip tray 130 and the circulation for connecting described water tank 140 and described sprinkling disk 120 Water pipe 150, described circulating water pipe 150 is provided with water circulating pump 160, and in the present embodiment, water tank 140 is welded in drip tray 130 Downside.Water tank 140 drip tray 130 reclaims and is stored in water tank 140 in order to collect water drenching, passes through water circulating pump afterwards 160 the shower water collected in water tank 140 is delivered in sprinkling disk 120 again, thus realizing recycling of cooling water, significantly Saved water resource.Described water circulating pump 160 is external pump, using safety, is easy to maintenance conditions.

In the present embodiment, described water tank 140 is provided with automatic water-replenishing device 141, and described automatic water-replenishing device 141 includes Entering water electromagnetic valve and ball-cock assembly etc., for drawing water from the external world, make up the loss causing because of cooling water evaporation.Meanwhile, water tank 140 It is provided with blowdown apparatus 142, described blowdown apparatus 142 are the self-cleaning function equipment such as small compact radial suction pump, for automatically fixed Sewage is discharged it is ensured that the cleannes of cycle water in water cooling heat exchanger 110 and hardness by the phase, reduces heat exchanger tube 1111 outer surface Fouling.

Each technical characteristic of embodiment described above can arbitrarily be combined, for making description succinct, not to above-mentioned reality The all possible combination of each technical characteristic applied in example is all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all it is considered to be the scope of this specification record.

Embodiment described above only have expressed several embodiments of the present utility model, and its description is more concrete and detailed, But therefore can not be interpreted as the restriction to utility model patent scope.It should be pointed out that the common skill for this area For art personnel, without departing from the concept of the premise utility, some deformation can also be made and improve, these broadly fall into Protection domain of the present utility model.

Claims (9)

1. a kind of water wind composite cooling condenser is it is characterised in that include air cooling system and water-cooling system, described air cooling system Including air cooling heat exchanger and blower fan, described water-cooling system includes sprinkling disk and the water-cooled heat exchange immediately below described sprinkling disk Device, described water cooling heat exchanger includes many heat exchanger tubes of horizontal stacking arrangement, adjacent two described heat exchanger tube connections and up and down mistake Position arrangement, described water cooling heat exchanger is connected with described air cooling heat exchanger.

2. water wind composite cooling condenser according to claim 1 it is characterised in that adjacent two described heat exchanger tubes it Between form wind passage, the exhausting direction of described blower fan is parallel with described wind passage, and described wind passage is positioned at the air intake of described blower fan Side.

3. water wind composite cooling condenser according to claim 1 is it is characterised in that described heat exchanger tube is coiled pipe.

4. water wind composite cooling condenser according to claim 1 is it is characterised in that described watering tray bottom offers Multiple water sprayering holes, multiple described water sprayering holes are uniformly distributed in the surface of described water cooling heat exchanger.

5. water wind composite cooling condenser according to claim 1 is it is characterised in that also include changing located at described water-cooled Water tank that drip tray immediately below hot device is connected with described drip tray and for connecting following of described water tank and described sprinkling disk Ring water pipe, described circulating water pipe is provided with water circulating pump.

6. water wind composite cooling condenser according to claim 5 is it is characterised in that described water tank is additionally provided with automatic benefit Water installations, for drawing water from the external world.

7. water wind composite cooling condenser according to claim 6 is it is characterised in that described water tank is additionally provided with blowdown dress Put, for periodically discharging sewage.

8. water wind composite cooling condenser according to any one of claim 1 to 7 is it is characterised in that described air-cooled Heat exchanger is provided with the entrance of refrigerant away from one end of described water cooling heat exchanger, and described water cooling heat exchanger air-cooled changes away from described One end of hot device is provided with the outlet of refrigerant.

9. water wind composite cooling condenser according to claim 1 is it is characterised in that described water cooling heat exchanger also includes First gathering tube and the second gathering tube, two adjacent described heat exchanger tubes pass through a connecting tube connection and consist of a heat exchange Part, the entrance of each described heat exchanging piece is all connected with described first gathering tube, and the outlet of each described heat exchanging piece is all with described Two gathering tube connections.