CN109282677A - A kind of bubble piece and non-finned steep plate heat interchanger - Google Patents

Abstract

The present invention provides a kind of bubble pieces, including sheet material, the liquid storage gas chamber, refrigerant passage and the bubble point that are arranged on sheet material, liquid storage gas chamber, refrigerant passage and bubble point are interior to set cavity, the refrigerant passage is connected to the liquid storage gas chamber, and the bubble point is arranged on the refrigerant passage and is connected to the refrigerant passage.Present invention bubble piece manufacturing process is simple, and manufacturing cost is low.The present invention also provides a kind of bubble plate heat interchangers, and including multiple bubble piece groups being stacked, each bubble piece group includes two bubble pieces, and one of bubble piece steeps the liquid storage gas chamber of piece and the shape mirror symmetry of refrigerant passage with another；Two liquid storage gas chambers for steeping piece and the opposite overlapping of refrigerant passage form the channel for refrigerant flowing of complete closure.Present invention bubble plate heat interchanger manufacturing process is simple, and manufacturing cost is low；Product draught capacity increases and windage is reduced, and increases heat exchange area；Condensed water facilitates exclusion, greatly reduces frosting ice and blocks up phenomenon, increases heat exchanger heat exchange property.

Description

A kind of bubble piece and non-finned steep plate heat interchanger

Technical field

The present invention relates to a kind of bubble pieces and non-finned to steep plate heat interchanger, belongs to technical field of heat exchange.

Background technique

Heat exchanger is the equipment for realizing heat transfer between fluid, also known as heat exchanger.Currently, well known heat exchanger packet The structures such as board-like, tubular type, pipe type, corrugated tube type, stacked, concurrent flow are included.Heat exchanger chemical industry, petroleum, power, food, It occupies an important position, is widely used in refrigeration air-conditioner and other many industrial productions.Most traditional heat exchangers are needed in runner The inside and outside fin (non-effective direct heat exchange wall) for increasing heat exchange.In pipe type heat exchanger structure, by aluminum heat exchange fin and The mode of circular copper pipe mechanical expanding makes circular copper pipe contact with aluminous fin, is not welded into entirety, heat exchange effect Rate is not ideal enough, small product size is big, than heavier, and after a period of use, due to mechanical expanding defect, fin and copper pipe Thermal contact resistance can be multiplied, and exchange capability of heat is but substantially reduced；On the other hand, continuous soaring with copper valence in recent years, so that The cost of heat exchanger is high；Meanwhile the hydraulic diameter of the circular copper pipe of traditional pipe type heat exchanger is larger, is unsuitable for new The popularization of type refrigerant；For another example corrugated tube type, stacked, the isostructural heat exchanger of concurrent flow, all structures are increased outside tube wall The fin of crypto set is used to increase heat exchange amount, defect there are several types of: (1) since fin is intensive, product windage is big, is not able to Increase power of fan to solve, power consumption.(2) fin is intensive, is easy dust accumulation, is difficult to clean, influences exchange capability of heat, cannot answer extensively For various bad working environments environmental units.(3) since with the presence of fin, condensed water hardly results in discharge, frosting and influence are easy Heat exchange property, the application being especially difficult in the refrigerated air-conditioning system of novel New energy electric pump type heat；(4) product structure Complexity, processing technology is more, and manufacturing cost is high.

Summary of the invention

Based on the above deficiency, one aspect of the present invention technical problems to be solved are to provide a kind of bubble piece, manufacturing process letter Single, manufacturing cost is low.

In order to solve the above technical problems, the invention adopts the following technical scheme:

A kind of bubble piece, including sheet material, the liquid storage gas chamber, refrigerant passage and the bubble point that are arranged on the sheet material, the refrigerant Channel is groove-like, and the refrigerant passage is connected to the liquid storage gas chamber, the bubble point be arranged on the refrigerant passage and with The refrigerant passage connection.

The liquid storage gas chamber is provided with several, and the refrigerant in the refrigerant passage comes together in the liquid storage gas chamber, described Bubble point is arranged in the refrigerant passage surface and forms the space layer passed through for fluid.

The refrigerant passage is linearity configuration structure.

The liquid storage gas chamber can be set to blind hole or through-hole, or be through-hole and blind hole any combination.

The bubble piece is punch forming or the molding thin wall shape of 3D printing.

Using above technical scheme, the present invention achieves following technical effect:

Bubble piece provided by the invention, setting liquid storage gas chamber, refrigerant passage and bubble point, can pass through punching press or 3D printing etc. Integrated molding mode obtains, and manufacturing process is simple, and manufacturing cost is low.

Another technical problem to be solved by the present invention is that providing a kind of non-finned bubble plate heat interchanger, manufacturing process letter Single, manufacturing cost is low；Product draught capacity increases and windage is reduced, and increases heat exchange area；Condensed water facilitates exclusion, subtracts significantly Few frosting ice blocks up phenomenon, increases heat exchanger heat exchange property.

In order to solve the above technical problems, the invention adopts the following technical scheme:

A kind of bubble plate heat interchanger, including multiple bubble piece groups being stacked, the bubble piece group is by two bubble piece groups At；Two liquid storage gas chambers for steeping piece and refrigerant passage form the channel for refrigerant flowing of complete closure.

The groove flowed out for condensed water is formed between the refrigerant passage.

Using above technical scheme, the present invention achieves following technical effect:

Non-finned provided by the invention steeps plate heat interchanger, is overlapped to form by bubble piece group described in multiple groups, each group of bubble piece Group steeps piece described in two panels and combines the channel for forming complete refrigerant, and the bubble piece passes through punching press energy rapid shaping, manufacture Simple process, manufacturing cost are low；It and is aptery chip architecture, product draught capacity increases and windage is reduced, and increases heat-transfer surface Product；Liquid storage gas chamber, refrigerant passage and bubble point communicate, and realize that condensed water facilitates exclusion, greatly reduce frosting ice and block up phenomenon, increase Heat exchanger heat exchange property.

Detailed description of the invention

Fig. 1 is the structure chart of present invention bubble piece；

Fig. 2 is the main view of present invention bubble piece；

Fig. 3 is the side view of present invention bubble piece；

Fig. 4 is the structure chart of present invention bubble plate heat interchanger.

Specific embodiment

As shown in Figure 1-Figure 3, the present invention provides a kind of bubble pieces 10, including sheet material 101, setting are on the sheet material 101 Liquid storage gas chamber 102, refrigerant passage 103 and bubble point 104, liquid storage gas chamber 102, refrigerant passage 103 are groove-like, refrigerant passage 103 are connected to liquid storage gas chamber 102, and bubble point 104 is arranged on refrigerant passage 103 and is connected to refrigerant passage 103.

Specifically, liquid storage gas chamber 102 is for collecting receiving refrigerant.Liquid storage gas chamber 102 can be as shown in the figure such as the present embodiment Two are set as, and is separately positioned on the both ends of the refrigerant passage 103.In other specific embodiments, liquid storage gas chamber can also To be set as one, may be alternatively provided as it is multiple, liquid storage gas chamber can be located at refrigerant passage 103 on any position.Liquid storage gas chamber 102 can be through-hole, or blind hole, according to different heat exchange demands, liquid storage gas chamber 102 can be the through-hole of different number Any combination is carried out with blind hole, to limit heat transfer effect of the intracorporal refrigerant flow direction of chamber to be optimal.Refrigerant passage 103 is at least One, and be connected to respectively with liquid storage gas chamber 102, the refrigerant in refrigerant passage 103 finally comes together in liquid storage gas chamber.The present embodiment In, the wavy bending of refrigerant passage 103 increases heat exchange area, increases the refrigerant residence time while increasing flow resistance, Refrigerant and bubble piece 10 is set sufficiently to exchange heat.Certainly, refrigerant passage 103 or straight line.Bubble is set on refrigerant passage 103 Point 104, bubble point 104 is multiple, and is separately positioned on the bending place of waveform refrigerant passage 103.Bubble point 104 is boss-shaped, by 103 outwardly convex of refrigerant passage is formed, and the setting of bubble point 104 makes 103 space forming surface layer of refrigerant passage, which can allow Fluid passes through, and further increases refrigerant residence time, increases heat exchange area.Liquid storage gas chamber 102, refrigerant passage 103 and bubble Point 104 is arranged at the identical surface of sheet material 101, and is interconnected.The generally integrally formed thin wall shape of piece 10 is steeped, it can It to be obtained by punching press, can also be obtained by 3D printing, simple process is easy to process.

As shown in figure 4, the present invention also provides a kind of bubble plate heat interchanger, including multiple bubble piece groups being stacked, often A bubble piece group is made of two bubble pieces 10；Two bubble piece 10 liquid storage gas chambers and refrigerant passage formed complete closure for refrigerant stream Dynamic channel.The groove flowed out for condensed water is formed between refrigerant passage, condensed water is readily available discharge, not will cause knot Frost will not influence heat exchange property, can apply in the refrigerated air-conditioning system of novel New energy electric pump type heat.

Bubble plate heat interchanger provided by the invention steeps piece by multiple groups and overlaps to form, and each group of bubble piece includes that two panels is opposite The bubble piece of setting, two panels steeps the liquid storage gas chamber of piece and refrigerant passage forms and closes complete liquid storage gas chamber and refrigerant passage.It is each Bubble piece can be integrally formed, and manufacturing process is simple, save material, and manufacturing cost is low, and simplifies part, be assembled more convenient； It and is aptery chip architecture, product draught capacity increases and reduces windage, increases heat exchange area；It is formed between refrigerant passage recessed Slot, condensed water facilitate exclusion, greatly reduce frosting ice and block up phenomenon, heat exchanger heat exchange property are increased, to make patented product It is very widely used, especially refrigeration, heat pump type air conditioner, freezing and refrigeration etc..

Finally, it should be noted that these are only the preferred embodiment of the present invention, it is not intended to restrict the invention, although Referring to embodiment, invention is explained in detail, for those skilled in the art, still can be to aforementioned Technical solution documented by each embodiment is modified or equivalent replacement of some of the technical features, but it is all Within the spirit and principles in the present invention, any modification, equivalent replacement, improvement and so on should be included in protection of the invention Within the scope of.

Claims (7)

1. a kind of bubble piece, it is characterised in that: including sheet material, the liquid storage gas chamber, refrigerant passage and the bubble point that are arranged on the sheet material, The refrigerant passage is groove-like, and the refrigerant passage is connected to the liquid storage gas chamber, and the bubble point setting is logical in the refrigerant It is connected on road and with the refrigerant passage.

2. bubble piece according to claim 1, it is characterised in that: the liquid storage gas chamber is provided with several, and the refrigerant is logical Refrigerant in road comes together in the liquid storage gas chamber, and the bubble point is arranged in the refrigerant passage surface and forms the sky passed through for fluid Interbed.

3. bubble piece according to claim 1 or 2, it is characterised in that: the refrigerant passage is linearity configuration structure.

4. bubble piece according to claim 1, it is characterised in that: the liquid storage gas chamber can be set to blind hole or through-hole, or For through-hole and blind hole any combination.

5. bubble piece according to claim 1, it is characterised in that: the bubble piece is punch forming or the molding thin-walled of 3D printing Shape.

6. a kind of non-finned steeps plate heat interchanger, it is characterised in that: including multiple bubble piece groups being stacked, the bubble piece group by Two bubble piece compositions；Two liquid storage gas chambers for steeping piece and refrigerant passage form the channel for refrigerant flowing of complete closure.

7. bubble plate heat interchanger according to claim 6, it is characterised in that: formed between the refrigerant passage for condensed water The groove of outflow.