CN104422131A

CN104422131A - Integral air energy water heater and draining structure thereof

Info

Publication number: CN104422131A
Application number: CN201310407764.8A
Authority: CN
Inventors: 黄俊豪; 向以华
Original assignee: Gree Electric Appliances Inc of Zhuhai
Current assignee: Gree Electric Appliances Inc of Zhuhai
Priority date: 2013-09-09
Filing date: 2013-09-09
Publication date: 2015-03-18
Anticipated expiration: 2033-09-09
Also published as: CN104422131B

Abstract

The invention discloses an integral air energy water heater and a draining structure thereof. The draining structure comprises a chassis, a water pan and a draining joint, wherein a first draining hole and a second draining hole are formed in the chassis; the second draining hole is positioned below an evaporator of the water heater; the water pan is arranged below the chassis; a water storage tank is formed in the water pan; a first draining opening is formed in the bottom of the water storage tank and is communicated with a water inlet of the draining joint; a flume is formed in the water pan; an opening of the flume is opposite to the second draining hole; a second draining opening is formed in the bottom of the flume and is communicated with the water inlet of the draining joint. Due to the adoption of the structure, the draining structure disclosed by the invention forms a second-stage draining structure; external rain water of a unit and condensate water left during working of the evaporator are drained by the second-stage draining structure, so that the draining speed of the unit is improved, the draining is smoother, and the condition of icing caused by the drainage of the unit under the low-temperature environment is improved.

Description

Monoblock type air-source water heater and discharge structure thereof

Technical field

The present invention relates to the water storage heater utilizing heat pump, particularly relate to a kind of monoblock type air-source water heater and discharge structure thereof.

Background technology

Existing monoblock type air-source water heater is made up of the outer machine parts on top and the tank parts of bottom usually, wherein, outer machine parts comprise chassis, and the compressor be arranged on this chassis and evaporimeter etc., and tank parts comprises inner water tank body, condenser coil and drip tray.When air-source water heater carries out work, evaporimeter ceaselessly can absorb the heat of air, air themperature is reduced, hydrogenesis in air is on the fin of evaporimeter, the globule formed finally drops onto on chassis, be discharged to from the osculum on chassis again in the aqua storage tank drip tray, finally enter drainage joint from the discharge outlet bottom aqua storage tank, discharge from drainage joint.The discharge structure of monoblock type air-source water heater of the prior art, the condensed water produced due to outer machine parts must pass through chassis, drip tray and drainage joint discharge, and due to the area of the aqua storage tank on drip tray large, condensation flow is caused to pass by length, draining has some setbacks, and at low ambient temperatures, easily freezes at evaporimeter and chassis contact surface and drainage joint corner, cause condensed water to discharge smoothly, therefore drainage effect is poor.

Summary of the invention

For above-mentioned prior art present situation, technical problem to be solved by this invention is, the discharge structure of the monoblock type air-source water heater providing a kind of drainage effect good.Another technical problem to be solved by this invention is to provide a kind of monoblock type air-source water heater with this discharge structure.

In order to solve the problems of the technologies described above, the discharge structure of a kind of monoblock type air-source water heater provided by the present invention, comprise chassis, drip tray and drainage joint, described chassis is provided with first row water hole and second row water hole, and described second row water hole is positioned at the below of the evaporimeter of described water heater, described drip tray is arranged on the below on described chassis, described drip tray is provided with aqua storage tank, the bottom of this aqua storage tank is provided with the first row mouth of a river, and this first row mouth of a river is connected with the water inlet of described drainage joint; Described drip tray is provided with gutter, and the notch of this gutter is relative with described second row water hole, and the bottom of this gutter is provided with the second row mouth of a river, and this second row mouth of a river is connected with the water inlet of described drainage joint.

Wherein in an embodiment, described second row water hole is multiple, and multiple described second row water hole is arranged along the length direction interval of described evaporimeter bottom surface, and the notch of described gutter is relative with all described second row water holes.

Wherein in an embodiment, the bottom surface of described gutter is inclined-plane, and the described second row mouth of a river is positioned at its lowest position of described gutter bottom surface.

Wherein in an embodiment, the described second row mouth of a river is near the middle part along its length of described gutter bottom surface.

Wherein in an embodiment, the U-shaped profile of described gutter.

Wherein in an embodiment, described drip tray comprises drip tray main body and gutter parts, described drip tray main body is provided with described aqua storage tank and the mounting groove for installing described gutter parts, described gutter parts are arranged in described mounting groove, and described gutter parts are provided with described gutter.

Wherein in an embodiment, described gutter parts and described drip tray main body are provided with the buckle and draw-in groove that match, described buckle snaps in described draw-in groove and is fixed in described mounting groove by described gutter parts.

Wherein in an embodiment, the position corresponding with described evaporimeter bottom surface, described chassis is provided with poly tank, and described second row water hole is arranged at the bottom of described poly tank.

Wherein in an embodiment, the cross section of described poly tank is V-shaped.

Wherein in an embodiment, the described second row mouth of a river is positioned at the top at the described first row mouth of a river, and described drainage joint is arranged on the below of described drip tray, and the water inlet of described drainage joint is relative with the described second row mouth of a river with the described first row mouth of a river.

Wherein in an embodiment, described drainage joint comprises water-accepting part and drainpipe portion, and the top of described water-accepting part is provided with described water inlet, and the bottom of described water-accepting part is provided with outlet, and this outlet is connected with the one end in described drainpipe portion.

Wherein in an embodiment, described drainpipe portion comprises the first paragraph and second segment that are connected, described first paragraph is obliquely installed, higher one end of described first paragraph is connected with the outlet of described water-accepting part, described second segment is vertically arranged, and one end lower with described first paragraph, the upper end of described second segment is connected.

A kind of monoblock type air-source water heater provided by the present invention, comprises above-mentioned discharge structure.

The discharge structure of monoblock type air-source water heater provided by the present invention is owing to have employed said structure, define Municipal secondary effluent structure, one-level is formed by chassis, first row water hole, aqua storage tank, the first row mouth of a river and drainage joint, is discharged after the outside rainwater of unit etc. enters unit by this one-level discharge structure; Secondary is formed by chassis, second row water hole, gutter, the second row mouth of a river and drainage joint, the condensed water flowed down during evaporator operation is discharged by this Municipal secondary effluent structure, because the water stream channel of gutter is short relative to the water stream channel of aqua storage tank, gradient is large, improve unit drainage speed, make draining more smooth and easy, thus drained water from freezing situation under improving Unit Low environment.

The beneficial effect that additional technical feature of the present invention has will be described in detail in detailed description of the invention part.

Accompanying drawing explanation

Fig. 1 is the decomposition texture schematic diagram of the monoblock type air-source water heater of the discharge structure had in one of them embodiment of the present invention;

Fig. 2 is the structural representation of the outer machine parts of monoblock type air-source water heater in Fig. 1;

Fig. 3 is the structural representation of the tank parts of monoblock type air-source water heater in Fig. 1;

Fig. 4 is the decomposition texture schematic diagram of the discharge structure in one of them embodiment of the present invention;

Fig. 5 is the broken section structural representation of the discharge structure in one of them embodiment of the present invention;

Fig. 6 a, 6b and 6c are the structural representation of the gutter of discharge structure in one of them embodiment of the present invention, and wherein Fig. 6 a is front view, and Fig. 6 b is top view, and Fig. 6 c is left view;

Fig. 7 is the drainage joint of discharge structure in one of them embodiment of the present invention and the installation diagram of drip tray.

Above in each figure, 100, fan part; 200, outer machine parts; 210, chassis; 211, poly tank; 212, second row water hole; 213, first row water hole; 220, compressor; 230, evaporimeter; 300, tank parts; 310, drip tray; 311, drip tray main body; 311a, aqua storage tank; 311b, the first row mouth of a river; 311c, mounting groove; 311d, buckle; 312, gutter parts; 312a, gutter; 312b, draw-in groove; The bottom surface of 312c, gutter; 312d, the second row mouth of a river; 320, drainage joint; 321, water-accepting part; 322, drainpipe portion; 322a, first paragraph; 322b, second segment; 330, support; 340, inner bag; 350, screw.

Detailed description of the invention

And the present invention is described in detail in conjunction with the embodiments below with reference to the accompanying drawings.It should be noted that, when not conflicting, the feature in following embodiment and embodiment can combine mutually.

As shown in Fig. 1 ~ 5, the discharge structure of the monoblock type air-source water heater in one of them embodiment of the present invention comprises: chassis 210, drip tray 310 and drainage joint 320, described chassis 210 is arranged on the below of the evaporimeter 230 of described water heater, described chassis 210 is provided with first row water hole 213 and second row water hole 212, second row water hole 212 is arranged on the chassis 210 below evaporimeter 230, first row water hole 213 is arranged at all the other positions on chassis 210, more preferably, first row water hole 213 is arranged at chassis 210 groove base plate (see Fig. 4) or other lower position place, fast ponding is discharged.Described drip tray 310 is arranged on the below on described chassis 210, described drip tray 310 is provided with three-back-shaped aqua storage tank 311a and gutter 312a, the bottom of this aqua storage tank 311a is provided with first row mouth of a river 311b, and this first row mouth of a river 311b is connected with the water inlet of described drainage joint 320; The notch of described gutter 312a is relative with described second row water hole 212, and the bottom of this gutter 312a is provided with second row mouth of a river 312d, and this second row mouth of a river 312d is connected with the water inlet of described drainage joint 320.The discharge structure of the monoblock type air-source water heater in the present embodiment is owing to have employed this kind of structure, define Municipal secondary effluent structure (see Fig. 5), one-level is formed by chassis 210, first row water hole 213, aqua storage tank 311a, first row mouth of a river 311b and drainage joint 320, is discharged after the outside rainwater of unit etc. enters unit by this one-level discharge structure; Secondary is formed by chassis 210, second row water hole 212, gutter 312a, second row mouth of a river 312d and drainage joint 320, and the condensed water stayed when evaporimeter 230 works is discharged by this Municipal secondary effluent structure.Because the water stream channel of gutter 312a is short relative to the water stream channel of aqua storage tank 311a, gradient large, not only increases unit drainage speed, and make draining more smooth and easy, thus drained water from freezing situation under improving Unit Low environment.

More preferably, described second row water hole 212 is multiple, and multiple described second row water hole 212 arranges (see Fig. 2) along the length direction interval of described evaporimeter 230 bottom surface, and the notch of described gutter 312a is relative with all described second row water holes 212.The drainage speed of condensed water can be improved in multiple described second row water holes 212.

More preferably, the bottom surface 312c of described gutter 312a is inclined-plane, and described second row mouth of a river 312d is positioned at its lowest position (see Fig. 6 a, 6b and 6c) of described gutter 312a bottom surface 312c.The bottom surface 312c of gutter 312a is designed to inclined-plane, condensate water discharging can be made smooth and easy.Further preferably, described second row mouth of a river 312d, near the middle part along its length of described gutter 312a bottom surface 312c, can shorten the stream of condensed water like this.

More preferably, the U-shaped profile of described gutter 312a, can make condensate water discharging smooth and easy like this.

More preferably, as shown in Figure 3, described drip tray 310 comprises drip tray main body 311 and gutter parts 312, described drip tray main body 311 is provided with described aqua storage tank 311a and the mounting groove 311c for installing described gutter parts 312, described gutter parts 312 are arranged in described mounting groove 311c, and described gutter parts 312 are provided with described gutter 312a.Drip tray main body 311 and gutter parts 312 adopt this kind of structure, can simplify two Element Designs, improve condensate water discharging runner initiating terminal and destination terminal difference in height, strengthen runner gradient, make condensate water discharging more smooth and easy.More preferably, described gutter parts 312 and described drip tray main body 311 are provided with the buckle 311d and draw-in groove 312b that match, described buckle 311d snaps in described draw-in groove 312b and is fixed in described mounting groove 311c by described gutter parts 312.Certainly, gutter 312a and drip tray 310 also by adjustment drip tray 310 structural design, can integrate by gutter 312a.。

More preferably, see Fig. 2, the position corresponding with described evaporimeter 230 bottom surface, described chassis 210 is provided with poly tank 211, and described second row water hole 212 is arranged at the bottom of described poly tank 211.Condensed water is first collected in poly tank 211, then is entered in gutter 312a by second row water hole 212.More preferably, the cross section of described poly tank 211 is V-shaped, can avoid directly contacting with evaporimeter 230 bottom surface, and condensed water is discharged in time, avoids chassis 210 and evaporimeter 230 contact area water freezing.

More preferably, described second row mouth of a river 312d is positioned at the top of described first row mouth of a river 311b, described drainage joint 320 is arranged on the below (as shown in Figure 7) of described drip tray 310 by screw, and the water inlet of described drainage joint 320 is relative with second row mouth of a river 312d with described first row mouth of a river 311b.

More preferably, described drainage joint 320 comprises water-accepting part 321 and drainpipe portion 322, and the top of described water-accepting part 321 is provided with described water inlet, and the bottom of described water-accepting part 321 is provided with outlet, and this outlet is connected with the one end in described drainpipe portion 322.More preferably, described drainpipe portion 322 comprises the first paragraph 322a and second segment 322b that are connected, described first paragraph 322a is obliquely installed, higher one end of described first paragraph 322a is connected with the bottom opening of described water-accepting part 321, described second segment 322b is vertically arranged, and one end lower with described first paragraph 322a, the upper end of described second segment 322b is connected.Like this, the first paragraph 322a in described drainpipe portion 322 and second segment 322b is that obtuse angle is excessive, avoids right angle draining to have some setbacks.

In another embodiment of the present invention, a kind of monoblock type air-source water heater is provided, as shown in Figures 1 to 3, monoblock type air-source water heater comprises the discharge structure in fan part 100, outer machine parts 200, tank parts 300 and above-described embodiment, fan part 100 install with outer machine parts 200 above, described outer machine parts 200 comprise chassis 210, the compressor 220 and evaporimeter 230 etc. be fixed on chassis 210, described chassis 210 is bolted to connection with tank parts 300, and described tank parts 300 comprises support 330, inner bag 340 and drip tray 310.Monoblock type air-source water heater in the present embodiment, owing to have employed this kind of discharge structure, improves unit drainage speed, makes draining more smooth and easy, thus drained water from freezing situation under improving Unit Low environment.

The above embodiment only have expressed several embodiment of the present invention, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the scope of the claims of the present invention.It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.

Claims

1. the discharge structure of a monoblock type air-source water heater, comprise chassis, drip tray and drainage joint, described chassis is provided with first row water hole and second row water hole, and described second row water hole is positioned at the below of the evaporimeter of described water heater, described drip tray is arranged on the below on described chassis, described drip tray is provided with aqua storage tank, and the bottom of this aqua storage tank is provided with the first row mouth of a river, and this first row mouth of a river is connected with the water inlet of described drainage joint; It is characterized in that, described drip tray is provided with gutter, the notch of this gutter is relative with described second row water hole, and the bottom of this gutter is provided with the second row mouth of a river, and this second row mouth of a river is connected with the water inlet of described drainage joint.

2. the discharge structure of monoblock type air-source water heater according to claim 1, it is characterized in that, described second row water hole is multiple, and multiple described second row water hole is arranged along the length direction interval of described evaporimeter bottom surface, and the notch of described gutter is relative with all described second row water holes.

3. the discharge structure of monoblock type air-source water heater according to claim 1, is characterized in that, the bottom surface of described gutter is inclined-plane, and the described second row mouth of a river is positioned at its lowest position of described gutter bottom surface.

4. the discharge structure of monoblock type air-source water heater according to claim 3, is characterized in that, the described second row mouth of a river is near the middle part along its length of described gutter bottom surface.

5. the discharge structure of monoblock type air-source water heater according to claim 1, is characterized in that, the U-shaped profile of described gutter.

6. the discharge structure of monoblock type air-source water heater as claimed in any of claims 1 to 5, it is characterized in that, described drip tray comprises drip tray main body and gutter parts, described drip tray main body is provided with described aqua storage tank and the mounting groove for installing described gutter parts, described gutter parts are arranged in described mounting groove, and described gutter parts are provided with described gutter.

7. the discharge structure of monoblock type air-source water heater according to claim 6, it is characterized in that, described gutter parts and described drip tray main body are provided with the buckle and draw-in groove that match, and described buckle snaps in described draw-in groove and is fixed in described mounting groove by described gutter parts.

8. the discharge structure of monoblock type air-source water heater according to claim 1, is characterized in that, the position corresponding with described evaporimeter bottom surface, described chassis is provided with poly tank, and described second row water hole is arranged at the bottom of described poly tank.

9. the discharge structure of monoblock type air-source water heater according to claim 8, is characterized in that, the cross section of described poly tank is V-shaped.

10. the discharge structure of monoblock type air-source water heater according to claim 1, it is characterized in that, the described second row mouth of a river is positioned at the top at the described first row mouth of a river, described drainage joint is arranged on the below of described drip tray, and the water inlet of described drainage joint is relative with the described second row mouth of a river with the described first row mouth of a river.

The discharge structure of 11. monoblock type air-source water heaters according to claim 1 or 10, it is characterized in that, described drainage joint comprises water-accepting part and drainpipe portion, the top of described water-accepting part is provided with described water inlet, the bottom of described water-accepting part is provided with outlet, and this outlet is connected with the one end in described drainpipe portion.

The discharge structure of 12. monoblock type air-source water heaters according to claim 11, it is characterized in that, described drainpipe portion comprises the first paragraph and second segment that are connected, described first paragraph is obliquely installed, higher one end of described first paragraph is connected with the outlet of described water-accepting part, described second segment is vertically arranged, and one end lower with described first paragraph, the upper end of described second segment is connected.

13. 1 kinds of monoblock type air-source water heaters, is characterized in that, comprise as the discharge structure in claim 1 to 12 as described in any one.