CN204388430U - V-type heat exchanger - Google Patents

Abstract

The utility model discloses a kind of V-type heat exchanger, it comprises fin (1) and swelling many heat exchange U in fin (1) manage (2), fin (1) and the heat exchange U of fin (1) inside manage (2) Integral bending and become the V-structure be made up of the first vertical section (3), the first arc section (4), crosspiece (5), the second arc section (6), the second vertical section (7), crosspiece (5) is vertical with the air intake direction of ventilation shaft, and the angle of each vertical section and crosspiece (5) is greater than 90 degree.This V-type heat exchanger under not increasing ventilation shaft sectional area and not changing heat exchange tube diameter and prerequisite along separate routes, effectively can improve exchange capability of heat and manufacture process is convenient.

Description

V-type heat exchanger

Technical field

The utility model relates to field of air conditioning, is specifically the V-type heat exchanger of air-conditioning.

Background technology

The heat exchanger of the air-conditioning of prior art is generally adopt straight type heat exchanger, and namely fin adopts board-type fin, and heat exchanger tube is also straight tube or straight U pipe, and straight tube or straight U pipe swelling are in board-type fin.The ventilation shaft that this board-type heat exchanger is arranged on air-conditioning is interior and vertical with the air intake direction of ventilation shaft.The area of this board-type heat exchanger is limited to the sectional area of ventilation shaft, namely the area of this board-type heat exchanger can not exceed the area of section of ventilation shaft, not enough once this heat exchanger exchange capability of heat, exchange capability of heat can only be improved by the shunt of the caliber or adjustment heat exchanger tube of changing heat exchanger tube, as each heat exchanger tube is arranged more closely knit, by caliber expansion etc., but find in actual production process that the practice operability of adjusting pipe diameter and shunt is not strong, the restriction of concrete technology can be subject to and be difficult to carry out, the processing and manufacturing required precision of set pair elbow as overstocked in pipeline is very high, be difficult to mass production, and, also can increase material cost and cost of labor.

Utility model content

The technical problems to be solved in the utility model is, provide a kind of effectively can improve exchange capability of heat and manufacture process V-type heat exchanger easily under not increasing ventilation shaft sectional area and not changing heat exchange tube diameter and prerequisite along separate routes.

Technical solution of the present utility model is, a kind of V-type heat exchanger with following structure is provided, it comprises fin and swelling many heat exchange U in fin manage, fin becomes the V-structure be made up of the first vertical section, the first arc section, crosspiece, the second arc section, the second vertical section with the heat exchange U pipe Integral bending of fin inside, crosspiece is vertical with the air intake direction of ventilation shaft, and the angle of each vertical section and crosspiece is greater than 90 degree.

After adopting above structure, the utility model V-type heat exchanger compared with prior art, has the following advantages:

After the bending of this V-type heat exchanger, crosspiece still coincide with ventilation shaft sectional area, bend out two vertical sections then significantly increase heat exchange area, therefore this heat exchanger is under the prerequisite not increasing ventilation shaft sectional area, effectively improve exchange capability of heat, and bending implementation Process is convenient, workable; Improve just because of exchange capability of heat conversely speaking, therefore can under the prerequisite ensureing its exchange capability of heat, that the size of the sectional area of ventilation shaft and whole air-conditioning is done is more a little bit smaller, in air-conditioning market competition day by day intensely, obtain advantage.

As improvement, the both sides of every sheet fin are provided with one block of side plate, be provided with row's heat exchange U in every sheet fin to manage, this row's heat exchange U manages the circular hole and the integrant heat exchanger fin of circular hole swelling of heat exchange U pipe and the circular hole of the first side plate, the long through-hole of fin and the second side plate that pass the circular hole of the first side plate, the long through-hole of fin and the second side plate successively, and it is convenient and reliable that this structure manufactures assembling process.

As preferably, it comprises polylith heat exchanger fin, this V-type heat exchanger also comprises connecting plate, polylith heat exchanger fin draw close side by side and polylith heat exchanger fin from inside to outside length successively increase progressively, second side plate of whole heat exchanger fin is mutually concordant, polylith heat exchanger fin Integral bending foldable type, the second side plate of whole heat exchanger fin and connecting plate are spirally connected fixing; Namely first monolithic heat exchanger fin expand tube makes that the heat exchange U in every sheet fin, this fin manages, two pieces of side plate swellings heat exchanger plates integrally of fin both sides, again polylith heat exchanger plates is drawn close side by side a unified bending and molding, like this, can be simplified the operation step, enhance productivity, and a unified bending can make the heat exchanger plates bending radian of each layer identical, ensures that each piece of heat exchanger plates fits tightly; And, second side plate of whole heat exchanger fin is mutually concordant, because the straight tube outlet of heat exchange U pipe is all positioned at the second side plate side, this side before bending first to it, it is also alignment after ensureing bending, be convenient to the straight tube outlet weld ell of later stage at each heat exchange U pipe of this side, make each heat exchange U pipe be welded into overall coil pipe; Finally, polylith heat exchanger fin from inside to outside length successively to increase progressively i.e. outer heat exchanger fin the longest, take second place in centre, internal layer heat exchanger fin is the shortest, and after being convenient to bending, the first side plate side is mutually concordant.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model V-type heat exchanger.

Fig. 2 is the plan structure schematic diagram of the utility model V-type heat exchanger.

Fig. 3 be the utility model V-type heat exchanger face structural representation.

Shown in figure 1, fin, 2, heat exchange U manages, the 3, first vertical section, the 4, first arc section, 5, crosspiece, the 6, second arc section, the 7, second vertical section, 8, ventilation shaft, 9, connecting plate, the 10, first side plate, the 11, second side plate, 12, heat exchanger fin.

Detailed description of the invention

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

As shown in Figure 1, Figure 2, Figure 3 shows, the utility model V-type heat exchanger, it comprises fin 1 and swelling many heat exchange U pipes 2 in fin 1.Fin 1 becomes the V-structure be made up of the first vertical section 3, first arc section 4, the vertical section 7 of crosspiece 5, second arc section 6, second with heat exchange U pipe 2 Integral bending of fin 1 inside, in other words, fin 1 becomes V-structure with heat exchange U pipe 2 Integral bending of fin 1 inside, this V-structure is made up of the first vertical section 3, first arc section 4, the vertical section 7 of crosspiece 5, second arc section 6, second, certainly, described V-structure refers to the structure roughly becoming V-type seemed from plan view shape.Crosspiece 5 is vertical with the air intake direction of ventilation shaft 8, and the angle of each vertical section and crosspiece 5 is greater than 90 degree.Specifically, from overlooking direction, the first vertical section 3 is greater than 90 degree with crosspiece 5 angle, and the second vertical section 7 is also greater than 90 degree with crosspiece 5 angle.

Every sheet fin 1 both sides are provided with one block of side plate, row's heat exchange U pipe 2 is provided with in every sheet fin 1, this row's heat exchange U pipe 2 passes the circular hole of the circular hole of the first side plate 10, the long through-hole of fin 1 and the second side plate 11 and the integrant heat exchanger fin 12 of circular hole swelling of heat exchange U pipe 2 and the circular hole of the first side plate 10, the long through-hole of fin 1 and the second side plate 11 successively, popular says, after expand tube, integrally, this entirety is exactly heat exchanger fin 12 for heat exchange U pipe 2, first side plate 10, fin 1 and the second side plate 11 swelling.

Heat exchanger fin 12 can be one piece, also can be polylith.This V-type heat exchanger also comprises connecting plate 9, and connecting plate 9 is connected with the shell of air-conditioning.Polylith heat exchanger fin 12 draw close side by side and polylith heat exchanger fin 12 from inside to outside length successively increase progressively, second side plate 11 of whole heat exchanger fin 12 is mutually concordant, polylith heat exchanger fin 12 one piece bending forming, the second side plate 11 of whole heat exchanger fin 12 is spirally connected fixing with connecting plate 9.

Claims (3)

1. a V-type heat exchanger, it comprises fin (1) and swelling many heat exchange U in fin (1) manage (2), it is characterized in that: fin (1) and the heat exchange U of fin (1) inside manage (2) Integral bending and become the V-structure be made up of the first vertical section (3), the first arc section (4), crosspiece (5), the second arc section (6), the second vertical section (7), crosspiece (5) is vertical with the air intake direction of ventilation shaft (8), and the angle of each vertical section and crosspiece (5) is greater than 90 degree.

2. V-type heat exchanger according to claim 1, it is characterized in that: the both sides of every sheet fin (1) are provided with one block of side plate, be provided with row's heat exchange U in every sheet fin (1) and manage (2), this row's heat exchange U manages (2) and passes the circular hole of the circular hole of the first side plate (10), the long through-hole of fin (1) and the second side plate (11) successively and the integrant heat exchanger fin of circular hole swelling (12) of heat exchange U pipe (2) and the circular hole of the first side plate (10), the long through-hole of fin (1) and the second side plate (11).

3. V-type heat exchanger according to claim 2, it is characterized in that: it comprises polylith heat exchanger fin (12), this V-type heat exchanger also comprises connecting plate (9), polylith heat exchanger fin (12) draw close side by side and polylith heat exchanger fin (12) from inside to outside length successively increase progressively, second side plate (11) of whole heat exchanger fin (12) is mutually concordant, polylith heat exchanger fin (12) Integral bending foldable type, the second side plate (11) and the connecting plate (9) of whole heat exchanger fin (12) are spirally connected fixing.