CN202709408U - Drainage system of air-condition heat exchanger - Google Patents

Abstract

The utility model discloses a drainage system of an air-condition heat exchanger. The drainage system of the air-condition heat exchanger drains condensed water from the air-condition heat exchanger timely and comprises the air-condition heat exchanger and a water containing tank located below the air-condition heat exchanger, wherein a water-guiding device is arranged between the air-condition heat exchanger and the water containing tank, and one end of the water-guiding device contacts the bottom of the air-condition heat exchanger. According to the preferable arrangement mode of the water-guiding device, the water-guiding device comprises a plate body, baffles are connected with two sides of the plate body, the upper portion of the plate body is connected with a cross plate which is perpendicular to the surface of the plate body, the plate body, the baffles and the cross plate form a water containing space on the cross plate, the plate body, the baffles and the cross plate form a water-guiding space under the cross plate, a vertical water-guiding rib and a horizontal water-guiding rib which correspond to positions of heat exchange pieces of the air-condition heat exchanger and contact the heat exchange pieces of the air-condition heat exchange are arranged inside the water containing space, and a draining hole communicating the water containing space and the water-guiding space is arranged at the junction between the cross plate and the plate body. The drainage system of the air-condition heat exchanger is especially suitable for drainage of a split and vertical type package air-condition heat exchanger.

Description

The air-condition heat exchanger drainage system

Technical field

The utility model relates to field of air conditioning, relates in particular to Split floor type cabinet air-conditioner field.

Background technology

The heat exchanger of refrigeration system is in operation and all can forms condensed water, and getting rid of fast and effectively condensed water is the refrigeration product problem needing to overcome, and drainage pattern commonly used all is to rely on the gravity of water automatically to drip with discharging.The air-condition heat exchanger condensed water is exactly automatically drippage discharging.Be provided with water receiving tank below air-condition heat exchanger, condensing drip is in water receiving tank, and air-conditioning is discharged in unification again.Above-mentioned drainage pattern need to wait the globule to form enough and just can fall after large, the untimely heat exchange efficiency that can affect heat exchanger of draining, and also water droplet drippage process can produce noise because clash into water receiving tank or water receiving tank internal water accumulation.

The utility model content

The technical problems to be solved in the utility model is: a kind of air-condition heat exchanger drainage system that condensed water is in time drawn from air-condition heat exchanger is provided.

For the technical scheme that addresses the above problem employing is: the air-condition heat exchanger drainage system, comprise air-condition heat exchanger and the water receiving tank that is positioned at the air-condition heat exchanger below, be provided with priming device between air-condition heat exchanger and the water receiving tank, an end of priming device contacts with the bottom of air-condition heat exchanger.

Further be: described priming device comprises plate body, plate body width and air-condition heat exchanger width coupling, and the plate body both sides are connected with baffle plate, and the plate body top is connected with the transverse slat with the plate body Surface Vertical; Plate body, baffle plate and transverse slat form the water receiving space above transverse slat; Plate body, baffle plate and transverse slat form the water guide space below transverse slat; Be provided with vertical water guide rib and the horizontal water guide rib of and contact corresponding with air-condition heat exchanger heat exchanger fin position in the water receiving space; Transverse slat and plate body intersection are provided with the osculum that water receiving space and water guide space are communicated with; The relative vertical direction with priming device of air-condition heat exchanger is in tilted layout, and the relative vertical direction with priming device of air-condition heat exchanger angle of inclination is identical.

Further be: vertical water guide rib and horizontal water guide rib upper surface arrive water receiving tank apart from coupling to plate body bottom distance and air-condition heat exchanger.

Further be: osculum is positioned at adjacent

Laterally between the water guide rib.

Further be: described priming device comprises water guide rib, and water guide rib is connected with plate body and vertically runs through the water guide space, and water guide rib is corresponding with the osculum position.

Further be: top, water guide space is symmetrically arranged with tilted ribs on the water guide rib both sides, and tilted ribs is connected with plate body, and paired tilted ribs forming V-shape forms the water guide gap between tilted ribs bottom and water guide rib.

Further be: every water guide rib comprises one section symmetrically arranged two sections arc water guide rib of vertical water guide rib and below of top, vertically water guide rib be connected the arc water guide rib and connect, adjacent water guide rib bottom forms water space.

Further be: go out the water space both sides and be provided with the water outlet projection, the water outlet projection is connected with the arc water guide rib.

Further be: described baffle plate medial recess, depressed part laterally runs through the water guide space.

The beneficial effects of the utility model are:

Be provided with priming device between air-condition heat exchanger and water receiving tank, air-condition heat exchanger one has condensed water to produce, and priming device is just drawn condensed water, guarantees the air-condition heat exchanger operating efficiency.

Description of drawings

Fig. 1 is air-condition heat exchanger Diversion Plate structural representation;

Fig. 2 is air-condition heat exchanger Diversion Plate vertical cross-sectional;

Fig. 3 is air-condition heat exchanger Diversion Plate installation diagram;

Be labeled as among the figure: plate body 1, water guide rib 2, vertically water guide rib 3, arc water guide rib 4, water outlet projection 5, go out water space 6, water guide space 7, baffle plate 8, laterally water guide rib 9, vertical water guide rib 10, osculum 11, water guide gap 12, transverse slat 13, water receiving space 14, tilted ribs 15, depressed part 16, air-condition heat exchanger 17, priming device 18.

The specific embodiment

Below in conjunction with the drawings and specific embodiments the utility model is further specified.

For a kind of air-condition heat exchanger drainage system that condensed water is in time drawn from air-condition heat exchanger is provided, the air-condition heat exchanger drainage system comprises air-condition heat exchanger 17 and is positioned at the water receiving tank of air-condition heat exchanger 17 belows, be provided with priming device 18 between air-condition heat exchanger 17 and the water receiving tank, an end of priming device 18 contacts with the bottom of air-condition heat exchanger 17.Priming device 18 is set between air-condition heat exchanger 17 and water receiving tank, and air-condition heat exchanger 17 1 has condensed water to produce, and priming device 18 is just drawn condensed water, guarantees the air-condition heat exchanger heat exchange efficiency.

Drinking device 18 can have multiple set-up mode, and the water guide rib/bar that is connected or contacts with air-condition heat exchanger 17 each heat exchanger fins for example is set, and condensed water just flows down along water guide rib/bar after producing, and avoids condensed water to rest on air-condition heat exchanger 17.Optimal way of the present utility model is: described priming device 18 comprises plate body 1, plate body 1 width and air-condition heat exchanger 17 width coupling, and plate body 1 both sides are connected with baffle plate 8, and plate body 1 top is connected with the transverse slat 13 with plate body 1 Surface Vertical; Plate body 1, baffle plate 8 and transverse slat 13 form water receiving space 14 above transverse slat 13; Plate body 1, baffle plate 8 and transverse slat 13 form water guide space 7 below transverse slat 13; Be provided with vertical water guide rib 10 and the horizontal water guide rib 9 of and contact corresponding with air-condition heat exchanger 17 heat exchanger fin positions in the water receiving space 14; Transverse slat 13 and plate body 1 intersection are provided with the osculum 11 that water receiving space 14 and water guide space 7 are communicated with; Air-condition heat exchanger 17 is in tilted layout with priming device 18 relative vertical direction, and air-condition heat exchanger 17 is identical with priming device 18 relative vertical direction angles of inclination.Air-condition heat exchanger 17 1 has condensed water to produce will flow to water receiving space 14 because of the suction-operated of vertical water guide rib 10 and horizontal water guide rib 9; Air-condition heat exchanger 17 is in tilted layout with priming device 18 relative vertical direction, and air-condition heat exchanger 17 is identical with priming device 18 relative vertical direction angles of inclination, so osculum is positioned at water receiving space 14 minimum points, and current enter water guide space 7 through osculum 11; Current flow to plate body 1 bottom under the guiding of plate body 1, having like this condensed water just to produce can discharge, and avoids condensed water to affect the heat exchange efficiency of heat exchanger.

The noise that produces in order to reduce current, plate body 1 lower end extends in the water receiving tank.Current are guided to water receiving tank, avoid current and water receiving tank or water receiving tank internal water accumulation to impact and produce noise.

Osculum 11 can be arranged at the optional position of transverse slat 13 and plate body 1 intersection, for reduce current in the water receiving space 7 interior flowing, be convenient to draining, osculum 11 is between adjacent horizontal water guide rib 13.

In order to guide the water that enters water guide space 14 to flow out, priming device 18 comprises water guide rib 2, and water guide rib 2 is connected with plate body 1 and vertically runs through water guide space 7, and water guide rib 2 is corresponding with osculum 11 positions.Current just can flow to priming device 18 bottoms along water guide rib 2 like this.

If osculum 11 is wider, then current not necessarily flow along water guide rib 2, for the water that osculum 11 is discharged gathers water guide rib 2, it is flowed along water guide rib 2,7 tops, water guide space are symmetrically arranged with tilted ribs 15 on water guide rib 2 both sides, tilted ribs 15 is connected with plate body 1, paired tilted ribs 15 forming V-shapes, and 2 of tilted ribs 15 bottoms and water guide ribs form water guide gap 12.Even osculum 11 is wider like this, current also can converge to water guide rib 2 both sides because of the effect of the tilted ribs 15 of V-arrangement, then flow along water guide rib 2.

Water guide rib 2 has multiple set-up mode, it can only be vertical muscle, in order to slow down flow to the impact velocity of 7 lower ends, water guide space and to reduce impulsive force, the preferred mode of the utility model is one section symmetrically arranged two sections arc water guide rib 4 of vertical water guide rib 3 and below that every water guide rib comprises the top, vertically water guide rib 3 be connected arc water guide rib 4 and connect, adjacent water guide rib 2 bottoms form water space 6.Current enter water receiving tank by going out water space 6 after water guide rib 2 guiding like this.

In order to guide current to enter water receiving tank, go out water space 6 both sides and be provided with water outlet projection 5, water outlet projection 5 is connected with arc water guide rib 4.

Plate body can be the plane, arrives the impact velocity of 7 lower ends, water guide space and reduces impulsive force in order to slow down flow equally, and plate body 1 medial recess, depressed part 16 laterally runs through water guide space 7.It is mobile to rise and fall regularly along depressed part 16 in the flow process like this, slows down flow to the impact velocity of 7 lower ends, water guide space and reduces impulsive force.Depressed part 16 is preferably circular arc.

Priming device 18 mounting means are installed on air-condition heat exchanger 17 belows with this air-condition heat exchanger Diversion Plate 18 as shown in Figure 3; Air-condition heat exchanger 17 has certain angle to install with vertical direction, and this air-condition heat exchanger Diversion Plate 18 is identical with air-condition heat exchanger 17 setting angles, guarantees that osculum 11 is positioned at water receiving space 14 minimum points; Horizontal water guide rib 9 is contacted with air-condition heat exchanger 17 heat exchanger fins with vertical water guide rib 10.

Because needs contact with water for a long time, for preventing corrosion, priming device 18 each several part materials are recommended as plastics, and molding mode is recommended as the integral molded plastic moulding.

Claims (9)

1. air-condition heat exchanger drainage system, comprise air-condition heat exchanger (17) and be positioned at the water receiving tank of air-condition heat exchanger (17) below, it is characterized in that: be provided with priming device (18) between air-condition heat exchanger (17) and the water receiving tank, an end of priming device (18) contacts with the bottom of air-condition heat exchanger (17).

2. air-condition heat exchanger drainage system according to claim 1, it is characterized in that: described priming device (18) comprises plate body (1), plate body (1) width and air-condition heat exchanger (17) width coupling, plate body (1) both sides are connected with baffle plate (8), and plate body (1) top is connected with the transverse slat (13) with plate body (1) Surface Vertical; Plate body (1), baffle plate (8) and transverse slat (13) form water receiving space (14) in transverse slat (13) top; Plate body (1), baffle plate (8) and transverse slat (13) form water guide space (7) in transverse slat (13) below; Be provided with vertical water guide rib (10) and the horizontal water guide rib (9) of and contact corresponding with air-condition heat exchanger (17) heat exchanger fin position in the water receiving space (14); Transverse slat (13) is provided with the osculum (11) that water receiving space (14) and water guide space (7) are communicated with plate body (1) intersection; Air-condition heat exchanger (17) is in tilted layout with the relative vertical direction of priming device (18), and the vertical direction angle of inclination is identical relatively with priming device (18) for air-condition heat exchanger (17).

3. air-condition heat exchanger drainage system according to claim 2, it is characterized in that: plate body (1) lower end extends in the water receiving tank.

4. air-condition heat exchanger drainage system according to claim 3, it is characterized in that: osculum (11) is positioned between the adjacent horizontal water guide rib (13).

5. air-condition heat exchanger drainage system according to claim 4, it is characterized in that: described priming device (18) comprises water guide rib (2), water guide rib (2) is connected with plate body (1) and vertically runs through water guide space (7), and water guide rib (2) is corresponding with osculum (11) position.

6. air-condition heat exchanger drainage system according to claim 5, it is characterized in that: water guide space (7) top is symmetrically arranged with tilted ribs (15) on water guide rib (2) both sides, tilted ribs (15) is connected with plate body (1), paired tilted ribs (15) forming V-shape forms water guide gap (12) between tilted ribs (15) bottom and water guide rib (2).

7. air-condition heat exchanger drainage system according to claim 6, it is characterized in that: every water guide rib (2) comprises one section vertical water guide rib (3) and the symmetrically arranged two sections arc water guide ribs in below (4) of top, vertically water guide rib (3) be connected arc water guide rib (4) and connect, adjacent water guide rib (2) bottom forms water space (6).

8. air-condition heat exchanger drainage system according to claim 7 is characterized in that: go out water space (6) both sides and be provided with water outlet projection (5), water outlet projection (5) is connected with arc water guide rib (4).

9. according to the described air-condition heat exchanger drainage system of 1 to 8 each claim, it is characterized in that: described plate body (1) medial recess, depressed part (16) laterally runs through water guide space (7).

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