CN203848558U - Evaporator core - Google Patents

Abstract

The utility model discloses an evaporator core which comprises vertical flat pipes and corrugated fins arranged among the flat pipes. Each corrugated fin comprises an upper section and a lower section, and corrugation pitches of the upper sections of corrugated fins are smaller than those of the lower sections of corrugated fins. Due to the fact that corrugation pitches of the lower portions of the corrugated fins increase, condensed water can be drained easily, the condensed water flowing down from the upper portions of the corrugated fins cannot form a water bridge at the lower portions of the corrugated fins, and the lower portion of an evaporator has enough space to allow air flows the same as those in the region at the upper portion of the evaporator to pass through. Therefore, uniformity of ventilation of the evaporator core, temperature difference of the surface temperature of the core and refrigeration performance are improved, and the frosting problem of the evaporator core is solved.

Description

Evaporator core

Technical field

The utility model relates to a kind of heat transmission equipment, particularly a kind of evaporimeter of automotive air-conditioning system.

Background technology

The pitch of waves of the upper all fins of evaporator core (stacked or parallel-flow evaporator) is equidistantly at present.In process of refrigerastion, the condensed water of the cooling generation of air can flow to fin bottom from the top of fin at Action of Gravity Field, and collect in fin bottom and form water bridge, be difficult for discharging, make evaporimeter lower fins runner section or all stop up, cause by the air mass flow in evaporator core lower fins region and reduce even cutout, and then evaporator core lower area fin can not be fully utilized, cause that refrigerating capacity declines, and cause evaporator surface temperature distributing disproportionation, affect the comfortableness of air-conditioning system, and fin region ponding overlong time also easily causes frosting and whole air-conditioning system was lost efficacy.

Utility model content

In view of this, the purpose of this utility model is to provide a kind of evaporator core, the problem such as evaporator capacity decline, evaporimeter frosting causing because of lower fins ponding to solve existing evaporator core.

The utility model evaporator core, comprise the flat tube of vertical setting and be arranged on the rippled fin between flat tube, every rippled fin is by upper and lower two sections of compositions, and the pitch of waves of epimere rippled fin is less than the pitch of waves of hypomere rippled fin, the described pitch of waves refers to the distance between adjacent peaks or trough.

Further, each pitch of waves of described hypomere rippled fin equates.

Further, the pitch of waves of described hypomere rippled fin is 2～4mm.

Further, the pitch of waves of described hypomere rippled fin increases from top to bottom gradually.

Further, the adjacent wave of described hypomere rippled fin is 0.05～0.1mm apart from difference.

Further, the pitch of waves rippled fin section such as grade that described hypomere rippled fin is equated by one section of pitch of waves and one section of pitch of waves become gradually large change pitch of waves rippled fin section and form.

Further, described rippled fin is in tilted layout to be 0～10 ° of angle between air duct on it and horizontal plane.

Further, the length ratio of the length of described hypomere rippled fin and monoblock rippled fin is 0.1～0.3.

The beneficial effects of the utility model: the utility model evaporator core, the pitch of waves of the hypomere of its rippled fin is greater than the pitch of waves of epimere, because the rippled fin bottom pitch of waves increases, make it more easily discharge condensed water, can avoid the condensed water flowing down from rippled fin top to form water bridge in the bottom of rippled fin, and then the bottom that makes evaporimeter has enough spaces by the air mass flow same with evaporimeter upper area, improve the uniformity that evaporator core ventilates, improve core surface temperature-difference, improve refrigeration performance, can solve evaporator core frosting problem simultaneously.

Brief description of the drawings

Fig. 1 is the general structure schematic diagram of the utility model evaporator core;

Fig. 2 is the first structural representation of rippled fin;

Fig. 3 is the second structural representation of rippled fin;

Fig. 4 is the third structural representation of rippled fin;

Fig. 5 is that the A-A of monolithic rippled fin in Fig. 2 is to cutaway view.

Detailed description of the invention

Below in conjunction with drawings and Examples, the utility model is further described.

Embodiment mono-: as shown in Figure 1, the present embodiment evaporator core, comprise the flat tube 1 of vertical setting and be arranged on the rippled fin 2 between flat tube 1, every rippled fin 2 is by upper and lower two sections of compositions, and the pitch of waves of epimere rippled fin 21 is less than the pitch of waves of hypomere rippled fin 22, the described pitch of waves refers to the distance between adjacent peaks or trough.

As shown in Figure 2, each pitch of waves of the hypomere rippled fin 22 described in the present embodiment equates, and pitch of waves L is 2mm, certainly in different embodiment, the described pitch of waves also can be other value within the scope of the 2～4mm such as 3mm, 4mm, the pitch of waves in the present embodiment can ensure that condensed water can not form in the bottom of rippled fin 2 water bridge shutoff air flow passage, and also the reason pitch of waves does not excessively cause the heat exchange area deficiency of rippled fin simultaneously.

In the present embodiment, described rippled fin 2 is in tilted layout to be 5 ° of angles between air duct on it 3 and horizontal plane, certainly also can be other value within the scope of 1 °, 3 °, 7 °, 10 ° etc. 0～10 ° at angle β described in different embodiment; This improvement can make condensed water more easily discharge from rippled fin 2, prevent that condensed water from stopping up air duct, and the angle of inclination of air duct 3 is less, also less to the resistance of Air Flow.

In the present embodiment, the length ratio of the length of described hypomere rippled fin 22 and monoblock rippled fin 2 is 0.1, certainly, in different embodiment, the length ratio of the length of described hypomere rippled fin 22 and monoblock rippled fin 2 also can be other value in 0.1～0.3 scope; In the present embodiment, epimere rippled fin 21 accounts for the large percentage of monoblock rippled fin 2, can ensure that rippled fin 2 has enough heat exchange areas.

The present embodiment evaporator core, because the bottom pitch of waves of its rippled fin increases, condensed water is more easily discharged, can avoid the condensed water flowing down from rippled fin top to form water bridge in the bottom of rippled fin, and then the bottom that makes evaporimeter has enough spaces by the air mass flow same with evaporimeter upper area, improve the uniformity that evaporator core ventilates, improve core surface temperature-difference, improve refrigeration performance, can solve evaporator core frosting problem simultaneously.

Embodiment bis-, as shown in Figure 3, the difference of the present embodiment evaporator core and embodiment mono-is: the pitch of waves of described hypomere rippled fin 22 increases from top to bottom gradually, and the adjacent wave of described hypomere rippled fin 22 is 0.1mm apart from difference, certainly in different embodiment, adjacent wave can be adjusted according to hypomere rippled fin length apart from difference, and difference is all more suitable within the scope of 0.05～0.1mm; Other structure of the present embodiment evaporator core is identical with embodiment mono-, does not repeat them here; It also can play and prevent that condensed water from collecting the problem that causes shutoff air communication channel in hypomere rippled fin 22 simultaneously.

Embodiment tri-: as shown in Figure 4, the present embodiment evaporator core is with the difference of embodiment mono-: the pitch of waves rippled fin section 221 such as grade that described hypomere rippled fin 22 is equated by one section of pitch of waves and one section of pitch of waves become gradually large change pitch of waves rippled fin section 222 and form, other structure of the present embodiment evaporator core is identical with embodiment mono-, does not repeat them here; It also can play and prevent that condensed water from collecting the problem that causes shutoff air communication channel in hypomere rippled fin 22 simultaneously.

Finally explanation is, above embodiment is only unrestricted in order to the technical solution of the utility model to be described, although the utility model is had been described in detail with reference to preferred embodiment, those of ordinary skill in the art is to be understood that, can modify or be equal to replacement the technical solution of the utility model, and not departing from aim and the scope of technical solutions of the utility model, it all should be encompassed in the middle of claim scope of the present utility model.

Claims (8)

1. an evaporator core, comprises the flat tube of vertical setting and is arranged on the rippled fin between flat tube, it is characterized in that: every rippled fin is by upper and lower two sections of compositions, and the pitch of waves of epimere rippled fin is less than the pitch of waves of hypomere rippled fin.

2. evaporator core according to claim 1, is characterized in that: each pitch of waves of described hypomere rippled fin equates.

3. evaporator core according to claim 2, is characterized in that: the pitch of waves of described hypomere rippled fin is 2～4mm.

4. evaporator core according to claim 1, is characterized in that: the pitch of waves of described hypomere rippled fin increases from top to bottom gradually.

5. evaporator core according to claim 4, is characterized in that: the adjacent wave of described hypomere rippled fin is 0.05～0.1mm apart from difference.

6. evaporator core according to claim 1, is characterized in that: the pitch of waves rippled fin section such as grade that described hypomere rippled fin is equated by one section of pitch of waves and one section of pitch of waves become gradually large change pitch of waves rippled fin section and form.

7. evaporator core according to claim 1, is characterized in that: described rippled fin is in tilted layout to be 0～10 ° of angle between air duct on it and horizontal plane.

8. according to arbitrary described evaporator core in claim 1～7, it is characterized in that: the length ratio of the length of described hypomere rippled fin and monoblock rippled fin is 0.1～0.3.