CN204438605U - Become the dark finned heat exchanger of row - Google Patents

Abstract

The utility model discloses and a kind of become the dark finned heat exchanger of row, and provide a kind of heat exchanger face velocity that improves uneven and alleviate the finned tube exchanger of distance air inlet compared with far region frosting.Comprise multiple heat exchange unit, each heat exchange unit is made up of many heat exchanger tubes and the one group of fin be placed on heat exchanger tube, and every root heat exchanger tube is the circle with opening, and many heat exchanger tubes to be connected by elbow at opening part and to be provided with refrigerant inlet and refrigerant outlet.Formed concentric fan-shaped after multiple described heat exchange unit assembling; Multiple heat exchange unit from inside to outside arranges and arranges with one heart; Blower fan is arranged at integral head shrouding top, and the center of blower fan is concentric with multiple heat exchange unit; In the horizontal direction, the fin height of each heat exchange unit reduces gradually or strengthens from inside to outside, and on same contour plane, fin and the air inlet of each heat exchange unit are equidistant; At vertical direction, along with the increase with air inlet distance, heat exchange unit quantity reduces, and the row of heat exchanger tube reduces.

Description

Become the dark finned heat exchanger of row

Technical field

The utility model relates to air conditioner with air-source heat pump technical group field, in particular, relates to a kind of air conditioner with air-source heat pump group and becomes the dark finned tube exchanger of row.

Background technology

Air-source heat pump air conditioner, due to easy for installation, does not need to use cooling water and heat exchange efficiency is high is widely applied, and finned heat exchanger is a main heat exchange element of air-source heat pump air conditioner.Usual heat exchanger is tetragonal body; choke valve uniform refrigerant distribution out enters each tube side of heat exchanger, and each tube side heat exchanger tube length is identical, and pipe row is deeply identical from top to bottom for heat exchanger; under the effect of blower fan, air skims over heat exchanger surface and heat exchanger tube inner refrigerant completes heat exchange.In the use procedure of Large Central Air Conditioning System, because heat exchanger own vol is larger, the distribution of heat exchanger surface gas flowfield is very uneven, the heat exchanger surface air velocity of distance blower fan near-end is high, good effect of heat exchange, blower fan far-end air velocity is low, and heat transfer effect is poor, therefore cause air-conditioner cooling in summer weak effect, heating effect in winter is poor.Meanwhile, frosting outside fin surface and heat exchanger tube is caused in the low wind speed region be easy to winter distance air inlet is far away, forms air duct blocking, exchange capability of heat is declined rapidly, also may cause having a strong impact on time serious to the safe operation of unit.

In order to address these problems, a lot of scholar has carried out corresponding analysis and experimental study.Patent publication No. is CN1952514A, invention and created name is propose in the patent document of " air-conditioner fin heat exchanger uniform flow field diversion technology and guiding device " to make guide support by the mode of straight plate and bending plate combination, with finned heat exchanger with the use of, improve the situation that heat exchanger surface air flow method is uneven.But be made in like this improve air flow method uneven while also greatly can increase complexity and the complete machine structure size of equipment, also add heat exchanger tube outside air resistance simultaneously; Patent publication No. is CN2605537Y, invention and created name is propose the refrigerant side of heat exchanger to be divided into several tube sides in the patent document of " a kind of Fined heat exchanger for air-cooled heat pump ", the refrigerant side tube side making wind speed less lengthens, and the refrigerant side tube side that wind speed is larger shortens.Partly can improve the heat transfer effect compared with long tube journey region like this, but reduce fin efficiency like this, and can not effectively be improved for little wind speed region fin surface and the outer frosting of heat exchanger tube.

Utility model content

The purpose of this utility model is the technological deficiency for existing in prior art, and a kind of uneven situation of heat exchanger face velocity that can solve preferably is provided, improve heat exchange efficiency, improve the finned tube exchanger of distance air inlet compared with frosting outside far region fin and heat exchanger tube.

The technical scheme adopted for realizing the purpose of this utility model is:

A kind of change arranges dark finned heat exchanger, comprise multiple heat exchange unit, each described heat exchange unit is made up of many heat exchanger tubes and the one group of fin be placed on described heat exchanger tube, heat exchanger tube described in every root is the circle with opening, many described heat exchanger tubes to be connected by elbow at described opening part and to be provided with refrigerant inlet and refrigerant outlet, each tube side length is substantially equal, the refrigerant inlet of each described heat exchange unit is collected house steward with import respectively and is connected, and the refrigerant outlet of each described heat exchange unit collects house steward with outlet respectively and is connected; Formed concentric fan-shaped after multiple described heat exchange unit assembling; Described heat exchange unit from inside to outside arranges and arranges with one heart; The top fin of described each heat exchange unit is provided with integral head shrouding, and described integral head shrouding top is provided with blower fan, and the center of described blower fan is concentric with described multiple heat exchange unit; In the horizontal direction, the fin height of each described heat exchange unit is different, and the fin height of each heat exchange unit reduces gradually or increases gradually from inside to outside, and on same contour plane, fin and the described air inlet of each described heat exchange unit are equidistant; At vertical direction, along with the increase with described air inlet distance, described heat exchange unit quantity reduces, and the row of heat exchanger tube is reduced.

Compared with prior art, the beneficial effects of the utility model are:

1, heat exchanger of the present utility model is on same contour plane, and heat exchanger surface and air inlet are substantially equidistant, avoid wind speed circumferentially skewness phenomenon, improve the heat transfer effect of heat exchanger.

2, heat exchanger of the present utility model in the vertical direction, increase along with air inlet distance from top to bottom, the row of heat exchanger tube is less gradually, significantly reduce the air drag of distance air inlet compared with far region, improve the air velocity in this region, make whole heat exchanger surface wind speed be tending towards even, considerably reduce distance air inlet comparatively frosting situation outside far region fin surface and heat exchanger tube winter, improve heat exchange efficiency of fins, decrease the material consumption of heat exchanger.

3, heat exchanger manufacture craft of the present utility model is simple, utilizes existing equipment to be easy to processing and manufacturing.

Accompanying drawing explanation

Figure 1 shows that the utility model becomes the front view of the dark finned heat exchanger of row;

Fig. 1 shown in Fig. 2 removes the top view of top closing plate;

In Fig. 2 shown in Fig. 3, A-A profile removes the schematic diagram of division center part.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

The dark finned heat exchanger of change row of the present utility model comprises multiple heat exchange unit, comprise multiple heat exchange unit, each described heat exchange unit is made up of many heat exchanger tubes and the one group of fin be placed on described heat exchanger tube, heat exchanger tube described in every root is the circle with opening, many described heat exchanger tubes to be connected by elbow at described opening part and to be provided with refrigerant inlet and refrigerant outlet, each tube side length is substantially equal, the refrigerant inlet of each described heat exchange unit is collected house steward with import respectively and is connected, the refrigerant outlet of each described heat exchange unit collects house steward with outlet respectively and is connected, formed concentric fan-shaped after multiple described heat exchange unit assembling, described heat exchange unit from inside to outside arranges and arranges with one heart, the top fin of described each heat exchange unit is provided with integral head shrouding, and described integral head shrouding top is provided with blower fan, and the center of described blower fan is concentric with described multiple heat exchange unit, in the horizontal direction, the fin height of each described heat exchange unit is different, and the fin height of each heat exchange unit reduces gradually or increases gradually from inside to outside, and on same contour plane, fin and the described air inlet of each described heat exchange unit are equidistant, at vertical direction, along with the increase with described air inlet distance, described heat exchange unit quantity reduces, and the row of heat exchanger tube is reduced.

Be described in detail for the finned tube exchanger with three heat exchange units below.

The utility model has the schematic diagram of the finned tube exchanger of three heat exchange units as shown in Figure 1-Figure 3, comprises three heat exchange units, is respectively the first heat exchange unit I, second heat exchange unit II, the 3rd heat exchange unit III.First heat exchange unit I is made up of many first heat exchanger tube 5-1 and multi-disc first fin 4-1, multi-disc first fin 4-1 is placed on many first heat exchanger tube 5-1, the height of the first fin is H1, every root first heat exchanger tube is the circle with opening, and many first heat exchanger tubes to be connected by elbow 2 at described opening part and to be provided with refrigerant inlet and refrigerant outlet.Formed fan-shaped after first fin 4-1 described in multi-disc and described first heat exchanger tube 5-1 assembles.Second heat exchange unit II is made up of many second heat exchanger tube 5-2 and multi-disc second fin 4-2, multi-disc second fin 4-2 is placed on many second heat exchanger tube 5-2, the height of the second fin is H2, every root second heat exchanger tube is the circle with opening, and many second heat exchanger tubes to be connected by elbow 2 at described opening part and to be provided with refrigerant inlet and refrigerant outlet.Formed fan-shaped after second fin 4-2 described in multi-disc and described second heat exchanger tube 5-2 assembles.3rd heat exchange unit III is made up of many 3rd heat exchanger tube 5-3 and multi-disc the 3rd fin 4-3, multi-disc the 3rd fin 4-3 is placed on many 3rd heat exchanger tube 5-3, the height of the 3rd fin is H3, every root the 3rd heat exchanger tube is the circle with opening, and many 3rd heat exchanger tubes to be connected by elbow 2 at described opening part and to be provided with refrigerant inlet and refrigerant outlet.Formed fan-shaped after 3rd fin 4-3 described in multi-disc and described 3rd heat exchanger tube 5-3 assembles.Behind three heat exchange unit assembling location, the refrigerant inlet of the first heat exchange unit I, second heat exchange unit II, the 3rd heat exchange unit III is collected house steward with import respectively and is connected, and the refrigerant outlet of the first heat exchange unit I, second heat exchange unit II, the 3rd heat exchange unit III collects house steward with outlet respectively and is connected.The general import that import collects house steward is connected with other associated components of air conditioner respectively with the general export that outlet collects house steward.

First heat exchange unit I, second heat exchange unit II, the 3rd heat exchange unit III from inside to outside arrange and arrange with one heart.Three heat exchange unit tops are provided with integral head shrouding 3, and described integral head shrouding 3 top is provided with blower fan 1, and the center of described blower fan 1 is concentric with described three heat exchange units.In the horizontal direction, first heat exchange unit I, second heat exchange unit II, the first fin 4-1 of the 3rd heat exchange unit III, the second fin 4-2 are highly different with the 3rd fin 4-3, reduce highly gradually from inside to outside, i.e. H1 > H2 > H3, on same contour plane, the first fin, the second fin and the 3rd fin in the first heat exchange unit I, second heat exchange unit II, the 3rd heat exchange unit III and described blower fan 1 air inlet equidistant.At vertical direction, along with the increase with described blower fan 1 air inlet distance, from there are the first heat exchange unit I, second heat exchange unit II, the 3rd heat exchange unit III 3 heat exchange units, become downwards and there are the first heat exchange unit I and the second heat exchange unit II two heat exchange units, to only having the first heat exchange unit I 1 heat exchange units bottom.Due to the minimizing gradually of heat exchange unit quantity, the row of heat exchanger tube reduces accordingly gradually.The i.e. heat exchanger tube row n3 in the heat exchanger tube row n2 < H3 region in the heat exchanger tube row n1 < H2-H3 region in H1-H2 region.Like this, the air drag of lower area is reduced gradually, and air velocity is improved.Under the effect of blower fan 1, air skims over heat exchanger surface and heat exchanger tube inner refrigerant carries out heat exchange, whole heat exchanger surface wind speed is even, reaches and reduces comparatively far region fin and the heat exchanger tube surface frosting of distance air inlet, strengthen the object of heat exchanger overall heat exchange effect.

Heat exchanger of the present utility model, according to unit load and heat exchanger surface wind speed profile, determines row and the fin height of heat exchanger tube.On same contour plane, heat exchanger surface and air inlet are substantially equidistant, avoid wind speed circumferentially skewness phenomenon, improve the heat transfer effect of heat exchanger.At vertical direction, increase along with air inlet distance from top to bottom, the row of heat exchanger tube is less gradually, significantly reduce the air drag of distance air inlet compared with far region, whole heat exchanger surface wind speed is made to be tending towards even, considerably reduce distance air inlet comparatively far region fin surface frosting situation, improve heat exchange efficiency of fins, decrease the material consumption of heat exchanger.

The above is only preferred embodiment of the present utility model; it should be noted that; for those skilled in the art; under the prerequisite not departing from the utility model principle; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (1)

1. one kind becomes the dark finned heat exchanger of row, it is characterized in that, comprise multiple heat exchange unit, each described heat exchange unit is made up of many heat exchanger tubes and the one group of fin be placed on described heat exchanger tube, heat exchanger tube described in every root is the circle with opening, many described heat exchanger tubes to be connected by elbow at described opening part and to be provided with refrigerant inlet and refrigerant outlet, each tube side length is substantially equal, the refrigerant inlet of each described heat exchange unit is collected house steward with import respectively and is connected, and the refrigerant outlet of each described heat exchange unit collects house steward with outlet respectively and is connected; Formed concentric fan-shaped after multiple described heat exchange unit assembling; Described heat exchange unit from inside to outside arranges and arranges with one heart; The top fin of described each heat exchange unit is provided with integral head shrouding, and described integral head shrouding top is provided with blower fan, and the center of described blower fan is concentric with described multiple heat exchange unit; In the horizontal direction, the fin height of each described heat exchange unit is different, and the fin height of each heat exchange unit reduces gradually or increases gradually from inside to outside, and on same contour plane, fin and the described air inlet of each described heat exchange unit are equidistant; At vertical direction, along with the increase with described air inlet distance, described heat exchange unit quantity reduces, and the row of heat exchanger tube is reduced.