CN210463380U - Water distribution structure for water distribution on wet curtain - Google Patents

Abstract

The utility model discloses a water diversion structure for water distribution on wet curtain, including the water distribution board, set firmly the water inlet of the connection suction pump in the water distribution board bottom, set firmly the manger plate cap that corresponds water inlet department in the water distribution board top, the top of water distribution board is located the interval in the left side border and the right side border of manger plate cap and is encircleed and has set firmly a plurality of passageways that divide, the end of intaking of each passageway that divides is located the below of manger plate cap, each passageway intercommunication that divides has a passageway of walking water, walk the passageway and set firmly in the top of water distribution board, the end of intaking of each passageway of walking water feeds through the water outlet of the passageway that divides, the play water outlet of each passageway of walking water is located the border department of the front end at the top of water distribution board, a delivery port has been seted up to the play water outlet of the passageway of walking water, the water outlet of each passageway is arranged protruding a plurality of mang.

Description

Water distribution structure for water distribution on wet curtain

Technical Field

The utility model relates to an air conditioning equipment field especially relates to a water diversion structure that is used for wet curtain to go up water distribution.

Background

The evaporative air cooler comprises a shell and a water storage tank, wherein an air outlet is formed in the front side of the shell, air inlets are formed in the rear side, the left side and the right side of the shell, fan blades, a motor and a wet curtain are sequentially arranged in the shell from front to back, and the wet curtain is also respectively arranged on the left side and the right side of the shell. The water storage tank is arranged at the lower end of the shell and is fixed with the shell. When the air cooler operates, water in the water storage tank is pumped to the upper part of the wet curtain through the water suction pump and the conveying pipeline, the wet curtain is wetted, one part of water is evaporated to be gas, the other part of water flows back into the water storage tank again, the motor drives the fan to rotate, hot air is sucked into the shell from the air inlet and is transmitted to the wet curtain, heat is required to be absorbed due to water evaporation on the wet curtain, the heat in the hot air is changed into cold air after being absorbed, and the cold air is discharged from the air outlet, so that the cooling and refrigerating functions are achieved. The hot air enters the shell from the air inlet and is transmitted to the wet curtain, and in order to ensure that the sucked hot air is cooled, the whole wet curtain is ensured to be wetted. There is therefore a need for a structure that evenly distributes the water delivered by the suction pump to the wet curtain.

Accordingly, the present inventors have made extensive studies on the water-splitting structure and have made this finding.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a water diversion structure that is used for wet curtain upper water distribution.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a water distribution structure for distributing water on a wet curtain comprises a water distribution plate, a water inlet which is fixedly arranged at the bottom of the water distribution plate and is connected with a water suction pump, a water retaining cap which is fixedly arranged at the top of the water distribution plate and corresponds to the water inlet, a plurality of water distribution channels are fixedly arranged at the top of the water distribution plate at the left side circumferential edge and the right side circumferential edge of the water retaining cap at intervals, the water inlet end of each water distribution channel is positioned below the water retaining cap, each water distribution channel is communicated with a water outlet channel which is fixedly arranged at the top of the water distribution plate, the water inlet end of each water outlet channel is communicated with the water outlet end of the water distribution channel, the water outlet end of each water outlet channel is positioned at the edge of the front end of the top of the water distribution plate, a water outlet is arranged at the water outlet end of the water outlet channel, a plurality of water retaining convex blocks are arranged at the water outlet end of each water outlet channel along the opening direction of the water outlet, each the manger plate lug is laid at the interval, and each the manger plate lug has out the water clearance, the manger plate lug has respectively towards walk in the water passageway and the both ends of outside direction, the manger plate lug orientation walk the outer one end of water passageway all extend to the side of water distribution plate, the side downwardly extending of water distribution plate has the curb plate, the manger plate lug orientation walk the outer one end of water passageway along the curb plate extends there is diversion lug down.

Furthermore, the edge of the water retaining cap is provided with a convex ring in a downward convex mode.

Furthermore, the middle part of the bottom surface of the water retaining cap is provided with a water dividing convex block in a downward convex mode, and the bottom surface of the water retaining cap is divided into a left part and a right part by the water dividing convex block.

Furthermore, the water distribution plate is provided with a stop block which limits the water retaining cap to move left and right and move backwards at the rear end of the water retaining cap.

Furthermore, the channel axle lines of the water channels on the left side of the water retaining cap are parallel, and the channel axle lines of the water channels on the right side of the water retaining cap are parallel.

Adopt above-mentioned technical scheme, the utility model discloses a water diversion structure for water distribution on wet curtain, through set up the diversion passageway, walk behind water passageway and manger plate lug with the border department of the front end of rivers dispersion to the water distribution plate, finally by the diversion lug with water drainage to wet curtain on. Simple structure and water distribution are reasonable, can be with even and comprehensive the drenching of rivers on the wet curtain.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic view of another angle structure of the present invention.

Description of reference numerals:

water distribution plate-1 water inlet-2

Water retaining cap-3 water diversion channel-4

Water passage-5 water-retaining projection-51

Water outlet gap-511 water diversion projection-52

Side plate-6 stop-7

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail with reference to the accompanying drawings and specific embodiments.

The utility model relates to a water diversion structure for water distribution on wet curtain, as shown in fig. 1, including water distribution plate 1, set firmly in water distribution plate 1 bottom the water inlet 2 of connecting the suction pump, set firmly in water distribution plate 1 top and correspond water retaining cap 3 of 2 departments of water inlet. The water outlet end of the water inlet 2 is arranged corresponding to the middle part of the bottom of the water retaining cap 3, and a water leakage gap exists between the water retaining cap 3 and the water outlet end of the water inlet 2. The water blocking cap 3 can completely block the water flowing out from the water outlet end of the water inlet 2.

The top of the water distribution plate 1 is provided with a plurality of water distribution channels 4 at the left side circumferential edge and the right side circumferential edge of the water retaining cap 3 at intervals, the water inlet end of each water distribution channel 4 is positioned below the water retaining cap 3, each water distribution channel 4 is communicated with a straight water channel 5, and the water channel 5 is fixedly arranged at the top of the water distribution plate 1. The channel axle lines of the water channels 5 positioned on the left side of the water retaining cap 3 are parallel, and the channel axle lines of the water channels 5 positioned on the right side of the water retaining cap 3 are parallel. Therefore, the arrangement of the water channel 5 is simpler, and the water flow in the water channel 5 flows more smoothly.

The water inlet end of each water channel 5 is communicated with the water outlet end of the water distribution channel 4, the water outlet end of each water channel 5 is positioned at the edge of the front end of the top of the water distribution plate 1, the water outlet end of each water channel 5 is provided with a water outlet, the water outlet end of each water channel 5 is convexly provided with a plurality of water-retaining lugs 51 along the opening direction of the water outlet, the water-retaining lugs 51 are arranged at intervals, and each water-retaining lug 51 has a water outlet gap 511 of 2mm to 4 mm.

The water blocking convex block 51 has two ends facing the inner and outer directions of the water passage 5, the end of the water blocking convex block 51 facing the outer direction of the water passage 5 extends to the side of the water distribution plate 1, the side of the water distribution plate 1 extends downwards to form a side plate 6, the end of the water blocking convex block 51 facing the outer direction of the water passage 5 extends along the side plate 6 to form a downward water diversion convex block 52, and the water diversion convex block 52 extends to the bottom surface of the side plate 6. When the water separator is installed, the bottom surface of the side plate 6 is contacted with the top surface of the wet curtain.

When the evaporative air conditioner is installed, the water distribution structure for distributing water on the wet curtain is installed at the top of each wet curtain.

When the evaporative air conditioner works, water is conveyed into the water inlet 2 by the water suction pump, water flow flowing out of the water inlet 2 impacts the water retaining cap 3 and then flows into the water diversion channels 4, then flows into the water passing channel 5 communicated with the water diversion channels 4, when the water flow entering the water passing channel 5 is at the water outlet end of the water passing channel 5, most of the water is blocked by the water retaining lugs 51, a small part of the water slowly flows out through the water outlet gap 511 between the two water retaining lugs 51, and the water flow flows out from one end of the water retaining lugs 51 facing the outside of the water passing channel 5 and slowly flows to the wet curtain along the water diversion lugs 52.

The utility model relates to a divide water structure simple structure for water distribution on wet curtain, when using, with rivers dispersion to a plurality of in 5 back of walking water channel, set up the clearance that a plurality of manger plate lugs formed a plurality of shunts in each is walked water channel 5 again, further dispersion rivers. And because each water channel 5 and each manger plate lug 51 evenly distributed for the water yield of the rivers that finally flow from diversion lug 52 is comparatively even, can be even and comprehensive wet curtain.

As a preferred embodiment: the edge of the water retaining cap 3 is provided with a convex ring in a downward convex way. After the water through the water inlet 2 impacts the bottom of the water retaining cap 3, water flow is spread along the bottom surface of the water retaining cap 3, and when the spread water flow flows to the convex ring, the water flow flows downwards under the guidance of the convex ring and finally flows into the water inlet end of the water diversion channel 4.

Furthermore, the middle part of the bottom surface of the water retaining cap 3 is provided with a water dividing convex block in a downward convex mode, and the bottom surface of the water retaining cap 3 is divided into a left part and a right part by the water dividing convex block. After impacting the water retaining cap 3, the water is intercepted by the water dividing convex block and then is divided into two parts to form two water flows which flow towards the left and the right respectively, and the two water flows respectively flow to the two sides of the water distribution plate 1 through the water dividing channel 4 and the water passing channel 5.

The water distribution plate 1 is provided with a stop dog 7 which limits the water retaining cap 3 to move left and right and move backwards at the rear end of the water retaining cap 3. The stop block 7 can assist in positioning the water retaining cap 3, so that the positioning and fixing of the water retaining cap 3 are facilitated; the stop 7 can also stop the water flow from flowing out of the water diversion channel 4.

The pipe of buckling of 2 preferred adoption in water inlet, the pipe of buckling is "L" type, and the suction pump is connected through the hose with buckling intertube, and the "L" type structure of the pipe of buckling makes the pipe of buckling intake end level setting, and the hose overlaps on the pipe of buckling along the horizontal direction. The contrast and the structure that the hose cup jointed perpendicularly have the advantage that the hose is difficult for droing.

The present invention has been described in detail with reference to the accompanying drawings, but the embodiments of the present invention are not limited to the above embodiments, and those skilled in the art can make various modifications according to the prior art, and all belong to the protection scope of the present invention.

Claims (5)

1. The utility model provides a water diversion structure that is used for wet curtain upper water distribution which characterized in that: the water distribution device comprises a water distribution plate, a water inlet fixedly arranged at the bottom of the water distribution plate and connected with a water suction pump, and a water retaining cap fixedly arranged at the top of the water distribution plate and corresponding to the water inlet, wherein a plurality of water diversion channels are fixedly arranged at the left side peripheral edge and the right side peripheral edge of the water retaining cap at intervals in a surrounding manner, the water inlet end of each water diversion channel is arranged below the water retaining cap, each water diversion channel is communicated with a water running channel, the water running channel is fixedly arranged at the top of the water distribution plate, the water inlet end of each water running channel is communicated with the water outlet end of the water diversion channel, the water outlet end of each water running channel is arranged at the edge of the front end of the top of the water distribution plate, the water outlet end of the water running channel is provided with a water outlet, and a plurality of water retaining convex blocks are arranged at the water outlet end of each water running channel along the opening direction of the, each the manger plate lug is laid at the interval, and each the manger plate lug has out the water clearance, the manger plate lug has respectively towards walk in the water passageway and the both ends of outside direction, the manger plate lug orientation walk the outer one end of water passageway all extend to the side of water distribution plate, the side downwardly extending of water distribution plate has the curb plate, the manger plate lug orientation walk the outer one end of water passageway along the curb plate extends there is diversion lug down.

2. The water distribution structure for water distribution on a wet curtain as claimed in claim 1, wherein: the edge of the water retaining cap is provided with a convex ring in a downward convex mode.

3. The water distribution structure for water distribution on a wet curtain as claimed in claim 1, wherein: the middle part of the bottom surface of the water retaining cap is provided with a water dividing convex block in a downward convex mode, and the water dividing convex block divides the bottom surface of the water retaining cap into a left part and a right part.

4. The water distribution structure for water distribution on a wet curtain as claimed in claim 1, wherein: the water distribution plate is provided with a stop block which limits the water retaining cap to move left and right and move backwards at the rear end of the water retaining cap.

5. The water distribution structure for water distribution on a wet curtain as claimed in claim 1, wherein: the channel axle lines of the water channels on the left side of the water retaining cap are parallel, and the channel axle lines of the water channels on the right side of the water retaining cap are parallel.

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