CN205066246U - Backwater device reaches indirect heating equipment including this backwater device - Google Patents

Abstract

The utility model provides a backwater device reaches indirect heating equipment including this backwater device, wherein, this backwater device includes: water conduction sections and water reservoir section, water conduction sections have at least one inclined plane or a curved surface, water conduction sections will the water that falls down in the indirect heating equipment is introduced water reservoir section to, water conduction sections still will inhale indirect heating equipment's air is guided into indirect heating equipment's condensation part. Through the water conduction sections that the setting has the wind -guiding function, in guide water, condensation part is guided into to the air that will suck indirect heating equipment to can make the amount of wind of flow direction condensation part's air even, improve the condensation effect, in addition, inclined plane or curved surface that this water conduction sections has can prevent that the air from forming the convection current between the air intake of indirect heating equipment both sides, thereby prevent that the air from blowing off the water droplet that falls down, has practiced thrift the water resource.

Description

Water recovery apparatus and comprise the heat transmission equipment of this water recovery apparatus

Technical field

The utility model relates to refrigeration technology field, particularly relates to a kind of water recovery apparatus and comprises the heat transmission equipment of this water recovery apparatus.

Background technology

Along with generally application and the worsening shortages of the energy of Refrigeration Technique, for the refrigeration of Refrigeration Technique and energy-conservation requirement also more and more higher.Heat transmission equipment is the vitals in refrigeration system, and general heat transmission equipment mainly comprises air cooled condenser, water cooled condenser and evaporative condenser.There is the defects such as operational efficiency is low, system cloud gray model expense is high, bulky in air cooled condenser, water cooled condenser needs configuration cooling tower and cooling water recirculation system, and water consumption is large and need the expense increasing water treatment.Evaporative condenser is a kind of compact heat transmission equipment, and the evaporation of main dependence moisture makes condensation of refrigerant dispel the heat, and operational efficiency is higher, and it has lower energy consumption relative to air cooled condenser and water cooled condenser.

Fig. 1 is the structural representation of existing evaporative condenser.As shown in Figure 1, evaporative condenser 100 comprises: the air inlet 101 of both sides, 102, water storage part 103, water pump 104, water pipe 105, spray portion 106, multiple condenser pipe 107, fan 108, air outlet 109 and dehydrator 110, wherein, outside air passes through the air inlet 101 of suction by both sides of fan 108, 102 inside entering evaporative condenser 100, cold-producing medium from top to bottom enters each condenser pipe 107, water in water storage part 103 is evacuated to spray portion 106 by water pump 104, heat exchange is carried out on the surface by spray portion 106 water being sprayed uniformly condenser pipe 107, and the air entering the inside of evaporative condenser 100 from bottom to top by each condenser pipe, substantially increase heat transfer effect, part sprays the water storage part 103 falling into bottom after the water on condenser pipe is heated, part spray is evaporated to water vapour after the water on condenser pipe is heated, part water vapour condenses into water droplet and falls into water storage part 103 on dehydrator 110, after the cold-producing medium of high-temperature gas enters condenser pipe 107, liquid is become to flow out from bottom through cooling condensation.

Above it should be noted that, just conveniently to the technical solution of the utility model, clear, complete explanation is carried out to the introduction of technical background, and facilitate the understanding of those skilled in the art to set forth.Only can not think that technique scheme is conventionally known to one of skill in the art because these schemes have carried out setting forth in background technology part of the present utility model.

Utility model content

Inventor of the present utility model finds, above-mentioned existing evaporative condenser is when sucking air, and the air quantity blowing to condenser pipe is uneven, have impact on condensation effect.Fig. 2 is the schematic diagram that existing evaporative condenser air flow moves, as shown in Figure 2, outside air is entered the inside of evaporative condenser 100 by the air inlet 101,102 of both sides by the suction of fan 108, the air from bottom to top flowing to condenser pipe 107 is comparatively large at the air quantity from the both sides close to air inlet, and less at the air quantity of centre.

In addition, inventor of the present utility model also finds, when strong wind weather, above-mentioned existing evaporative condenser can form convection current by the air inlet in both sides, is dispelled by the water droplet fallen, thus causes the loss of water.Fig. 3 is the schematic diagram forming convection current in existing evaporative condenser, and as shown in Figure 3, when strong wind weather, air forms convection current between the air inlet 101,102 of both sides, is easily dispelled by the water droplet fallen and causes the loss of water.

The utility model embodiment provides a kind of water recovery apparatus and comprises the heat transmission equipment of this water recovery apparatus, the air quantity of the air flowing to condensation part can be made even, thus improve condensation effect, in addition, can prevent air from being dispelled by the water of condensation, thus save water resource.

According to the first aspect of the utility model embodiment, a kind of water recovery apparatus is provided, it is for heat transmission equipment, described water recovery apparatus comprises: water guide sector and water storage part, it is characterized in that, the water fallen in described heat transmission equipment is introduced described water storage part by described water guide sector, and, described water guide sector has at least one inclined-plane or curved surface, and the air sucking described heat transmission equipment is also guided into the condensation part of described heat transmission equipment by described water guide sector.

According to the second aspect of the utility model embodiment, wherein, described water guide sector has two symmetrical inclined-planes or curved surface, and described two inclined-planes or curved surface are in its roof intersection.

According to the third aspect of the utility model embodiment, wherein, described two curved surfaces are configured to the structure of " people " font.

According to the fourth aspect of the utility model embodiment, wherein, the angle of described inclined-plane and horizontal direction is 30 degree ~ 60 degree.

According to the 5th aspect of the utility model embodiment, wherein, the line of two end points of described curved surface and the angle of horizontal direction are 30 degree ~ 60 degree.

According to the 6th aspect of the utility model embodiment, wherein, described water guide sector also has: extension, and described extension extends in the horizontal direction from the bottom of at least one inclined-plane described or curved surface.

According to the 7th aspect of the utility model embodiment, wherein, described water guide sector also has: opening portion, and described opening portion is arranged on the junction of described inclined-plane or curved surface and described extension.

According to the eighth aspect of the utility model embodiment, wherein, described water guide sector also has: aqueduct, and described aqueduct is connected with described opening portion, so that water is introduced described water storage part.

According to the 9th aspect of the utility model embodiment, wherein, described water guide sector also has: gutter, and described gutter is arranged on described inclined-plane or curved surface, and/or is arranged on described extension.

According to the tenth aspect of the utility model embodiment, wherein, described water guide sector also has: water retaining wall, and described water retaining wall is arranged on the edge of described inclined-plane or curved surface, and/or is arranged on the edge of described extension.

According to the 11 aspect of the utility model embodiment, wherein, described water storage part has lid.

According to the 12 aspect of the utility model embodiment, wherein, provide a kind of heat transmission equipment, described heat transmission equipment comprises according to the first aspect of the utility model embodiment to the water recovery apparatus described in the 11 any one of aspect.

According to the 13 aspect of the utility model embodiment, wherein, described heat transmission equipment also comprises: shell and be arranged on the air inlet of described shell side, the position at least one inclined-plane of the water guide sector of described water recovery apparatus or the place, top of curved surface is higher than the position at the place, bottom of described air inlet, and the position at least one inclined-plane of the water guide sector of described water recovery apparatus or the place, bottom of curved surface is lower than the position at the place, top of described air inlet.

According to the fourteenth aspect of the utility model embodiment, wherein, at least one inclined-plane of the water guide sector of described water recovery apparatus or the height of curved surface are greater than the height of described air inlet.

According to the 15 aspect of the utility model embodiment, wherein, the position at least one inclined-plane of the water guide sector of described water recovery apparatus or the place, top of curved surface is higher than the position at the place, top of described air inlet.

According to the 16 aspect of the utility model embodiment, wherein, the both sides of described shell respectively arrange an air inlet, and at least one inclined-plane of the water guide sector of described water recovery apparatus or curved surface are arranged on the central position of the horizontal direction of the air inlet of both sides.

According to the 17 aspect of the utility model embodiment, wherein, described heat transmission equipment also comprises: compressor and evaporimeter, and the water storage part of described compressor, described evaporimeter and described water recovery apparatus is arranged on the bottom of described heat transmission equipment.

The beneficial effects of the utility model are: by arranging the water guide sector with wind-guiding function, while guiding water, guide the air sucking heat transmission equipment into condensation part, thus the air quantity of the air flowing to condensation part can be made even, improve condensation effect, in addition, the inclined-plane that this water guide sector has or curved surface can prevent air between the air inlet of heat transmission equipment both sides, forming convection current, thus prevent air from being dispelled by the water droplet fallen, save water resource.

With reference to explanation hereinafter and accompanying drawing, disclose in detail particular implementation of the present utility model, specifying principle of the present utility model can adopted mode.Should be appreciated that, thus embodiment of the present utility model is not restricted in scope.In the spirit of claims and the scope of clause, embodiment of the present utility model comprises many changes, amendment and is equal to.

The feature described for a kind of embodiment and/or illustrate can use in one or more other embodiment in same or similar mode, combined with the feature in other embodiment, or substitutes the feature in other embodiment.

Should emphasize, term " comprises/comprises " existence referring to feature, one integral piece, step or assembly when using herein, but does not get rid of the existence or additional of one or more further feature, one integral piece, step or assembly.

Accompanying drawing explanation

Included accompanying drawing is used to provide the further understanding to the utility model embodiment, which constituting a part for description, for illustrating embodiment of the present utility model, and coming together to explain principle of the present utility model with text description.Apparently, the accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.In the accompanying drawings:

Fig. 1 is the structural representation of existing evaporative condenser;

Fig. 2 is the schematic diagram that existing evaporative condenser air flow moves;

Fig. 3 is the schematic diagram forming convection current in existing evaporative condenser;

Fig. 4 is the structural representation of the water recovery apparatus of the utility model embodiment 1;

Fig. 5 is another structural representation of the water guide sector of the utility model embodiment 1;

Fig. 6 is the another structural representation of the water guide sector of the utility model embodiment 1;

Fig. 7 is the another structural representation of the water guide sector of the utility model embodiment 1;

Fig. 8 is the schematic diagram utilizing the water recovery apparatus of the utility model embodiment 1 to guide air;

Fig. 9 utilizes the water recovery apparatus of the utility model embodiment 1 to prevent cross-ventilated schematic diagram;

Figure 10 is the structural representation of the heat transmission equipment 1000 of the utility model embodiment 2;

Figure 11 is the three-dimensional structure diagram of the heat transmission equipment 1000 of the utility model embodiment 2;

Figure 12 is the outside drawing of the heat transmission equipment 1000 of the utility model embodiment 2.

Detailed description of the invention

With reference to accompanying drawing, by description below, aforementioned and further feature of the present utility model will become obvious.In the specification and illustrated in the drawings, specifically disclose particular implementation of the present utility model, which show the some embodiments that wherein can adopt principle of the present utility model, will be appreciated that, the utility model is not limited to described embodiment, on the contrary, the utility model comprises the whole amendments fallen in the scope of claims, modification and equivalent.

Embodiment 1

Fig. 4 is the structural representation of the water recovery apparatus of the utility model embodiment 1.As shown in Figure 4, this water recovery apparatus 400 comprises: water guide sector 401 and water storage part 402, wherein, water guide sector 401 has two inclined-planes 403-1,403-2-1,403-1,403-2-2, the water that water guide sector 401 will fall in heat transmission equipment (not shown) introduces water storage part 402, further, the also available condensation part by this inclined-plane, the air sucking this heat transmission equipment being guided into this heat transmission equipment, water guide sector.

From above-described embodiment, by arranging the water guide sector with wind-guiding function, while guiding water, guide the air sucking heat transmission equipment into condensation part, thus the air quantity of the air flowing to condensation part can be made even, improve condensation effect, in addition, the inclined-plane that this water guide sector has or curved surface can prevent air between the air inlet of heat transmission equipment both sides, forming convection current, thus prevent air from being dispelled by the water droplet fallen, and have saved water resource.

In the present embodiment, this water recovery apparatus 400 can be used for heat transmission equipment, and this heat transmission equipment is such as evaporative condenser, also can be the condenser of other types, and the type of the utility model embodiment not heat exchanging equipment limits.

In the present embodiment, water guide sector 401 can have inclined-plane, also can have curved surface, and Fig. 4 has inclined-plane for water guide sector and is illustrated.Fig. 5 is another structural representation of the water guide sector of the utility model embodiment 1, and as shown in Figure 5, water guide sector 401 has two curved surfaces 404-1,404-2, and other structures are identical with Fig. 4, repeat no more herein.

In the present embodiment, water guide sector 401 can have an inclined-plane or curved surface, also can have two or more inclined-plane or curved surface.Such as, if respectively there is an air inlet these heat transmission equipment both sides, then water guide sector 401 can be set to correspond to each air inlet respectively has an inclined-plane, or respectively has multiple inclined-plane corresponding to each air inlet; If this heat transmission equipment only has an air inlet in side, then water guide sector 401 can be set to there is an inclined-plane, also can be set to that there is multiple inclined-plane.The utility model embodiment does not limit the quantity of inclined-plane or curved surface.

In the present embodiment, this inclined-plane or curved surface can be formed as various shape, as long as the air sucking heat transmission equipment can be guided into the condensation part of this heat transmission equipment.Such as, water guide sector 401 has two symmetrical inclined-planes or curved surface, and these two inclined-planes or curved surface are in its roof intersection, and when water guide sector has two symmetrical curved surfaces, these two curved surfaces can be configured to " people " character form structure.The utility model embodiment does not limit the shape of inclined-plane or curved surface.

What Fig. 4 and Fig. 5 was exemplary give, and water guide sector has two symmetrical inclined-planes or the situation of curved surface.Fig. 6 is the another structural representation of the water guide sector of the utility model embodiment 1, as shown in Figure 6, this heat transmission equipment only has an air inlet in side, then water guide sector 401 only has an inclined-plane 403, other structures are identical with Fig. 4, in addition, the inclined-plane in Fig. 6 also can replace with curved surface, repeats no more herein.

Fig. 7 is the another structural representation of the water guide sector of the utility model embodiment 1, as shown in Figure 7, water guide sector 401 has 4 inclined-planes, corresponding to the air inlet of heat transmission equipment side, respectively have two continuous print inclined-planes, other structures are identical with Fig. 4, in addition, inclined-plane in Fig. 7 also can replace with curved surface, repeats no more herein.

In the present embodiment, can arrange the inclined degree of inclined-plane or curved surface.As shown in Figure 4, the angle α of inclined-plane 403-1,403-2 and horizontal direction 30 degree ~ 60 degree can be set to, as shown in Figure 5, the angle β of the line of two of a curved surface end points and horizontal direction 30 degree ~ 60 degree can be set to.

Arranged by the angle of above-mentioned scope, wind effect can be improved further, make the air quantity of the air flowing to condensation part more even, thus further improve condensation effect.

In the present embodiment, water guide sector 401 can also have extension 405, and this extension 405 extends in the horizontal direction from the bottom of at least one inclined-plane or curved surface.As shown in Figure 4, extension 405 stretches out in the horizontal direction from the bottom of two inclined-planes 403-1,403-2 respectively, as shown in Figure 5, extension 405 stretches out in the horizontal direction from the bottom of two curved surfaces 404-1,404-2 respectively, as shown in Figure 6, extension 406 stretches out in the horizontal direction from the bottom on inclined-plane 403.

In the present embodiment, extension 405 can with at least one inclined-plane or curved surface one-body molded, also can be set to independent parts with at least one inclined-plane or curved surface, be connected by existing method of attachment.

In the present embodiment, extension guides the air sucking heat transmission equipment into condensation part together with inclined-plane or curved surface, by arranging extension, can guide the air of suction into inclined-plane or curved surface preferably, thus improving wind effect further.

In the present embodiment, the water fallen in heat transmission equipment can be introduced water storage part 402 by water guide sector 401, such as, as shown in Figure 4, an opening 406 can be set in the junction of inclined-plane 403-1,403-2 or curved surface 404-1,404-2 and extension 405, so that the water collected by inclined-plane 403-1,403-2 or curved surface 404-1,404-2 and extension 405 is introduced water storage part 402.

In the present embodiment, the size of opening 406 and position can be arranged according to actual needs, such as, as shown in Figure 4, the length of opening 406 is about 1/2nd of the junction length of inclined-plane 403-1,403-2 or curved surface 404-1,404-2 and extension 405, and the length of opening 406 also can be slightly less than the length of whole junction.The utility model embodiment does not limit the size of opening 406 and position.

In the present embodiment, water guide sector 401 can also comprise aqueduct, and as shown in Figure 4, aqueduct 407 is connected with opening 406, and the water for flowing out from opening 406 is introduced in water storage part 402; Also can not arrange aqueduct, the water that water guide sector 401 is collected directly is flowed in water storage part 402 by opening 406.

In the present embodiment, water guide sector 401 can also be included on inclined-plane 403-1,403-2 or curved surface 404-1,404-2, and/or extension 405 arranges gutter, opening 406 is guided into for by the water of collection, such as, as shown in Figure 4, gutter 408 is set in the centre of inclined-plane 403-1,403-2 and extension 405.In addition, also only on inclined-plane 403-1,403-2 or only, gutter 408 can be set on extension 405, also gutter can be set.

In the present embodiment, this gutter can be set to extend to whole inclined-plane and extension, also can arrange in subregion.

By arranging aqueduct and gutter, preferably the water that water guide sector is collected can be introduced water storage part, improving diversion effect.

In the present embodiment, water guide sector 401 can also be included on the edge of inclined-plane 403-1,403-2 or curved surface 404-1,404-2, and/or the water retaining wall that the edge of extension 405 is arranged.Such as, as shown in Figure 4, the edge of extension 405 arranges water retaining wall 409.In addition, also water retaining wall can be set on the edge of inclined-plane 403-1,403-2 or curved surface 404-1,404-2, or on the edge of inclined-plane 403-1,403-2 or curved surface 404-1,404-2, and the edge of extension 405 all arranges water retaining wall.

In the present embodiment, the height of water retaining wall can set according to actual needs, as long as can prevent the water collected from overflowing.

By arranging water retaining wall, the water that can prevent water guide sector from collecting flows out to outside water storage part, further saving water resource.

In the present embodiment, the shape of water storage part 402 can be arranged according to actual needs, such as, water storage part 402 can be designed to box shape.

In the present embodiment, water storage part 402 can have lid 410, wherein, the size of the shape of lid 410 can adapt with the opening of water storage part 402, in addition, lid 410 can also be provided with the hole for inserting aqueduct 407, thus make aqueduct 407 can insert the inside of water storage part.

By arranging lid in water storage part, evaporation of water and pollution in water storage part can be reduced, further saving water resource.

In the present embodiment, the position of water recovery apparatus 400 in heat transmission equipment can set according to actual needs, as long as make water guide sector the water fallen can be introduced water storage part and the air sucking this heat transmission equipment is guided into the condensation part of this heat transmission equipment.

Fig. 8 is the schematic diagram utilizing the water recovery apparatus of the utility model embodiment 1 to guide air.As shown in Figure 8, suck the guiding of air by the inclined-plane of water guide sector 401 of heat transmission equipment, uniformly the condensation part flowing to heat transmission equipment from bottom to top, the structure of water recovery apparatus 400 is identical with Fig. 4, repeats no more herein.

Fig. 9 utilizes the water recovery apparatus of the utility model embodiment 1 to prevent cross-ventilated schematic diagram.As shown in Figure 9, even if when strong wind weather, due to the stop on inclined-plane, cannot form convection current between the both sides of water recovery apparatus 400, the structure of water recovery apparatus 400 is identical with Fig. 4, repeats no more herein.

From above-described embodiment, by arranging the water guide sector with wind-guiding function, while guiding water, guide the air sucking heat transmission equipment into condensation part, thus the air quantity of the air flowing to condensation part can be made even, improve condensation effect, in addition, the inclined-plane that this water guide sector has or curved surface can prevent air between the air inlet of heat transmission equipment both sides, forming convection current, thus prevent air from being dispelled by the water droplet fallen, and have saved water resource.

Embodiment 2

The utility model embodiment provides a kind of heat transmission equipment, and this heat transmission equipment comprises water recovery apparatus, and the structure and fuction of this water recovery apparatus is identical with the record in embodiment 1, repeats no more herein.

In the present embodiment, this heat transmission equipment is such as evaporative condenser, also can be the condenser of other types, and the type of the utility model embodiment not heat exchanging equipment limits.The present embodiment is described for evaporative condenser.

Figure 10 is the structural representation of the heat transmission equipment 1000 of the utility model embodiment 2.As shown in Figure 10, heat transmission equipment 1000 comprises: shell 1001, the air inlet 1002 and 1003 being arranged on shell both sides, water guide sector 1004, water storage part 1005, compressor 1006, evaporimeter 1007, condensation part 1008, fan 1009, air outlet 1010, water pipe 1011, spray portion 1012 and dehydrator 1013, wherein, compressor 1006, evaporimeter 1007 are connected by pipeline with condensation part 1008, water in water storage part 1005 is evacuated in water pipe 1011 by water pump (not shown), and is evenly sprayed onto on condensation part 1008 by water by spray portion 1012.Wherein, water pump can be arranged on the inside of shell 1001, in addition, water pump structure, compressor 1006, evaporimeter 1007 can use existing structure with the syndeton of condensation part 1008 and the syndeton of water storage part 1005 and water pipe 1011, and arrange according to the size of heat transmission equipment and layout.

In the present embodiment, water guide sector 1004 is identical with the record in embodiment 1 with the 26S Proteasome Structure and Function of water storage part 1005, repeats no more herein.

In the present embodiment, air inlet 1002 and 1003 can have identical height and opening size, the position at least one inclined-plane of water guide sector 1004 or the place, top of curved surface is higher than the position at the place, bottom of air inlet, further, the position at least one inclined-plane of water guide sector 1004 or the place, bottom of curved surface is lower than the position at the place, top of air inlet 1002 and 1003.Like this, can guarantee at least one inclined-plane that the air sucked from air inlet 1002 and 1003 can blow to water guide sector 1004 or curved surface.

Such as, as shown in Figure 10, can by the position of the position at the place, top of at least one inclined-plane of water guide sector 1004 or curved surface higher than the place, top of air inlet.Like this, can make the air inclined-plane that is more blown to water guide sector 1004 that sucks from air inlet 1002 and 1003 or curved surface, thus improve wind effect further.

In the present embodiment, the top of inclined-plane or curved surface refers to that the end near side, condensation part 1008, the bottom of inclined-plane or curved surface refer to the end near water storage part 1005 side.

Such as, as shown in Figure 10, position in vertical direction, the inclined-plane of water guide sector 1004 can be arranged on the height roughly the same with 1003 positions with air inlet 1002.

In the present embodiment, as shown in Figure 10, the height H of at least one inclined-plane of water guide sector 1004 or curved surface can be set to the height h being greater than air inlet 1002 and 1003, like this, can make the air inclined-plane that is substantially all blown to water guide sector 1004 that sucks from air inlet 1002 and 1003 or curved surface, thus improve wind effect further.

In the present embodiment, as shown in Figure 10, at least one inclined-plane of water guide sector 1004 or curved surface can be arranged on the central position of the horizontal direction between air inlet 1002 and 1003, like this, the air of guiding condensation part into can be made more even, improve wind effect further.

In the present embodiment, compressor 1006, evaporimeter 1007 are arranged on the inside of heat transmission equipment 1000, like this, can application space flexibly, reduce the volume of whole refrigeration system.

Such as, as shown in Figure 10, by compressor 1006, evaporimeter 1007 and water storage part 1005 bottom being arranged on heat transmission equipment 1000 side by side.Wherein, compressor 1006, evaporimeter 1007 can be arranged according to actual needs with the relative position of water storage part 1005, such as, can water storage part 1005 be arranged between compressor 1006 and evaporimeter 1007, also water storage part 1005 can be arranged on the side bottom heat transmission equipment.

In the present embodiment, the size of water guide sector 1004 can be arranged according to the inner space of heat transmission equipment 1000, such as, water guide sector 1004 is set to the inside all covering whole heat transmission equipment on length direction and width, thus can guarantees that the water fallen in heat transmission equipment can both be collected by water guide sector 1004 and introduce in water storage part 1005.

In the present embodiment, shell 1001, the air inlet 1002 and 1003 being arranged on shell both sides, compressor 1006, evaporimeter 1007, condensation part 1008, fan 1009, air outlet 1010, water pipe 1011, multiple spray portion 1012 and dehydrator 1013 can use existing structure and material, such as, condensation part 1008 comprises multiple condenser pipe, fan 1009 and air outlet 1010 all adopt four, are evenly distributed on the top of heat transmission equipment.

Figure 11 is the three-dimensional structure diagram of the heat transmission equipment 1000 of the utility model embodiment 2, and Figure 12 is the outside drawing of the heat transmission equipment 1000 of the utility model embodiment 2.As is illustrated by figs. 11 and 12, compressor 1006, evaporimeter 1007 and water storage part 1005 bottom being arranged on heat transmission equipment 1000 side by side, the water in water storage part 1005 is evacuated in water pipe 1011 by water pump 1014.The symmetrical inclined-plane of two of water guide sector 1004 is arranged on the central position of the horizontal direction between air inlet 1002 and 1003, thus guide the air of suction into condensation part 1008 uniformly, and, when strong wind weather, due to the stop on two of water guide sector 1004 symmetrical inclined-planes, can prevent from forming convection current between air inlet 1002 and 1003.

From above-described embodiment, by arranging the water guide sector with wind-guiding function, while guiding water, guide the air sucking heat transmission equipment into condensation part, thus the air quantity of the air flowing to condensation part can be made even, improve condensation effect, in addition, the inclined-plane that this water guide sector has or curved surface can prevent air between the air inlet of heat transmission equipment both sides, forming convection current, thus prevent air from being dispelled by the water droplet fallen, and have saved water resource.

More than being described the utility model in conjunction with concrete embodiment, but it will be apparent to those skilled in the art that these descriptions are all exemplary, is not the restriction to the utility model protection domain.Those skilled in the art can make various variants and modifications according to spirit of the present utility model and principle to the utility model, and these variants and modifications are also in scope of the present utility model.

Claims (17)

1. a water recovery apparatus, it is for heat transmission equipment, and described water recovery apparatus comprises: water guide sector and water storage part, is characterized in that,

Described water guide sector has at least one inclined-plane or curved surface,

The water fallen in described heat transmission equipment is introduced described water storage part by described water guide sector, and the air sucking described heat transmission equipment is also guided into the condensation part of described heat transmission equipment by described water guide sector.

2. water recovery apparatus according to claim 1, is characterized in that,

Described water guide sector has two symmetrical inclined-planes or curved surface, and described two inclined-planes or curved surface are in its roof intersection.

3. water recovery apparatus according to claim 2, is characterized in that,

Described two curved surfaces are configured to the structure of " people " font.

4. water recovery apparatus according to claim 1, is characterized in that,

The angle of described inclined-plane and horizontal direction is 30 degree ~ 60 degree.

5. water recovery apparatus according to claim 1, is characterized in that,

The line of two end points of described curved surface and the angle of horizontal direction are 30 degree ~ 60 degree.

6. water recovery apparatus according to claim 1, is characterized in that, described water guide sector also has:

Extension, described extension extends in the horizontal direction from the bottom of at least one inclined-plane described or curved surface.

7. water recovery apparatus according to claim 6, is characterized in that, described water guide sector also has:

Opening portion, described opening portion is arranged on the junction of described inclined-plane or curved surface and described extension.

8. water recovery apparatus according to claim 7, is characterized in that, described water guide sector also has:

Aqueduct, described aqueduct is connected with described opening portion, so that water is introduced described water storage part.

9. water recovery apparatus according to claim 6, is characterized in that, described water guide sector also has:

Gutter, described gutter is arranged on described inclined-plane or curved surface, and/or is arranged on described extension.

10. water recovery apparatus according to claim 6, is characterized in that, described water guide sector also has:

Water retaining wall, described water retaining wall is arranged on the edge of described inclined-plane or curved surface, and/or is arranged on the edge of described extension.

11. water recovery apparatuses according to claim 1, is characterized in that,

Described water storage part has lid.

12. 1 kinds of heat transmission equipments, is characterized in that, described heat transmission equipment comprises:

Water recovery apparatus according to any one of claim 1-11.

13. heat transmission equipments according to claim 12, is characterized in that, described heat transmission equipment also comprises:

Shell and be arranged on the air inlet of described shell side,

The position at least one inclined-plane of the water guide sector of described water recovery apparatus or the place, top of curved surface is higher than the position at the place, bottom of described air inlet, and the position at least one inclined-plane of the water guide sector of described water recovery apparatus or the place, bottom of curved surface is lower than the position at the place, top of described air inlet.

14. heat transmission equipments according to claim 13, is characterized in that,

At least one inclined-plane of the water guide sector of described water recovery apparatus or the height of curved surface are greater than the height of described air inlet.

15. heat transmission equipments according to claim 13, is characterized in that,

The position at least one inclined-plane of the water guide sector of described water recovery apparatus or the place, top of curved surface is higher than the position at the place, top of described air inlet.

16. heat transmission equipments according to claim 13, is characterized in that,

The both sides of described shell respectively arrange an air inlet, and at least one inclined-plane of the water guide sector of described water recovery apparatus or curved surface are arranged on the central position of the horizontal direction of the air inlet of both sides.

17. heat transmission equipments according to claim 12, is characterized in that,

Described heat transmission equipment also comprises: compressor and evaporimeter,

The water storage part of described compressor, described evaporimeter and described water recovery apparatus is arranged on the bottom of described heat transmission equipment.