CN104006514A - Macromolecule polymer membrane module and air conditioner system - Google Patents

Abstract

The invention discloses a macromolecule polymer membrane module and an air conditioner system. The macromolecule polymer membrane module comprises an air flow path, a water injection pipeline and a vacuumizing pipeline. The air flow path comprises a base which is a cavity structure, the two ends of the cavity structure are provided with openings, a hollow sleeve pipe is connected into the base in a sleeved mode, the end face of the sleeve pipe and the end face of the base are sealed, and an annular sealed chamber is formed. The sleeve pipe is made of macromolecule polymer membranes which can isolate air and only allow water molecules to pass through. The water injection pipeline and the vacuumizing pipeline are communicated with the sealed chamber respectively. The air conditioner system comprises the macromolecule polymer membrane module. According to the macromolecule polymer membrane module and the air conditioner system, the features of the macromolecule polymer membranes are used, a vacuumizing method is combined for achieving dehumidification, humidification is achieved in a web-membrane-humidification mode, the structure is simple, and energy is saved.

Description

High molecular polymerization membrane module and air-conditioning system

Technical field

The present invention relates to field of air conditioning, particularly relate to a kind of high molecular polymerization membrane module and air-conditioning system.

Background technology

Under the large historical background of energy-saving and emission-reduction, reducing energy consumption is the focus that every field is paid close attention to.In field of household appliances, particularly for air-conditioning system, traditional dehumidification mode is all generally to adopt dehumidification by condensation, and humidification method is generally electrical heating humidification.Because the latent heat of vaporization of water is very large, cause this energy consuming by the mode of dehumidification by condensation also very large.Equally, the mode of employing electrical heating humidification not only needs to consume a large amount of electrical power water is evaporated, but also need to consume the extra a large amount of colds of air-conditioning, the high-temperature vapor of these evaporations is lowered the temperature, so the energy consumption of humidification is too high, causes the Energy Efficiency Ratio of whole system to reduce.

Summary of the invention

Based on this, be necessary defect and deficiency for prior art, a kind of high molecular polymerization membrane module and air-conditioning system that can reduce humidification and dehumidifying energy consumption is provided.

The high molecular polymerization membrane module providing for realizing the object of the invention, comprises air flow circuit, water injecting pipeline and vacuum-pumping pipeline;

Described air flow circuit comprises a pedestal;

Described pedestal is the cavity body structure of both ends open;

The internal sleeve of described pedestal is connected to a hollow sleeve pipe;

Between the end face of described sleeve pipe and the end face of described pedestal, seal, form an annular airtight chamber;

The high molecular polymerization film of the material of described sleeve pipe for completely cutting off air and only allow hydrone pass through;

Described water injecting pipeline and vacuum-pumping pipeline are communicated with described airtight chamber respectively.

In an embodiment, between described sleeve pipe and the inwall of described pedestal, be provided with the netted baffle plate that at least one supports described sleeve pipe therein.

In an embodiment, on described pedestal, be provided with at least one water injection hole therein;

The pin hole sprinkler head that connects described water injecting pipeline is installed in described water injection hole.

In an embodiment, described pin hole sprinkler head comprises showerhead and the connecting portion that is connected described water injecting pipeline therein;

Described showerhead, is open column shape structure, and one end is communicated with described connecting portion, is vertically installed with the first hole for water spraying on the end face of the other end;

The surrounding of described showerhead is also provided with the second hole for water spraying, and the perforate direction of described the second hole for water spraying and the axis direction of described showerhead are 30 degree to 60 degree angles.

In an embodiment, described the first hole for water spraying has one therein, and described the second hole for water spraying has 4;

4 described the second hole for water sprayings are evenly distributed on the surrounding of described showerhead;

The perforate direction of 4 described the second hole for water sprayings is 45 degree angles with the axis direction of described showerhead respectively.

In an embodiment, on described pedestal, be provided with 4 described water injection holes therein;

4 described water injection holes are evenly distributed on described pedestal.

In an embodiment, the material of described netted baffle plate is stainless steel therein.

In an embodiment, on described water injecting pipeline, be provided with the first magnetic valve and the water pump that is connected water source therein;

Described the first magnetic valve is electrically connected to described water pump.

In an embodiment, in described vacuum-pumping pipeline, be provided with the second magnetic valve and vavuum pump therein;

Described the second magnetic valve is electrically connected to described vavuum pump.

Correspondingly, air-conditioning system of the present invention, comprises refrigeration system, also comprises the high molecular polymerization membrane module described in above-mentioned any one embodiment;

Air flow circuit in described high molecular polymerization membrane module is communicated with the evaporimeter in described refrigeration system.

Beneficial effect of the present invention: high molecular polymerization membrane module provided by the invention and air-conditioning system, by utilizing the characteristic of high molecular polymerization film, in conjunction with the method vacuumizing, realize dehumidifying, in whole dehumidification process, can not cause the variation of temperature.And the mode humidification of employing wet-film humidifying, does not only consume cold in humidification, can also in the process of moisture evaporation, provide extra cold, play the effect of air precooling.Simple in structure, save energy consumption.

Accompanying drawing explanation

In order to make object, technical scheme and the advantage of high molecular polymerization membrane module of the present invention and air-conditioning system clearer, below in conjunction with concrete drawings and the specific embodiments, high molecular polymerization membrane module of the present invention and air-conditioning system are further elaborated.

Fig. 1 is the front view of an embodiment of high molecular polymerization membrane module of the present invention;

Fig. 2 is the top view of Fig. 1;

Fig. 3 is the front view of an embodiment of the pedestal shown in Fig. 1;

Fig. 4 is the top view of Fig. 3;

Fig. 5 is the front view of an embodiment of the sleeve pipe shown in Fig. 1;

Fig. 6 is the top view of Fig. 5;

Fig. 7 is the front view of an embodiment of the vacuum water shower nozzle shown in Fig. 1;

Fig. 8 is the top view of Fig. 7;

Fig. 9 is the structure chart of an embodiment of air-conditioning system of the present invention.

The specific embodiment

Below in conjunction with embodiment, describe the present invention in detail.It should be noted that, in the situation that not conflicting, embodiment and the feature in embodiment in the application can combine mutually.

Referring to Fig. 1 to Fig. 2, an embodiment of high molecular polymerization membrane module provided by the invention, comprises air flow circuit 100, water injecting pipeline 200 and vacuum-pumping pipeline 300.Wherein, air flow circuit 100 comprises a pedestal 110, the cavity body structure that pedestal 110 is both ends open.The internal sleeve of pedestal 110 is connected to a hollow sleeve pipe 120, between the end face of sleeve pipe 120 and the end face of pedestal 110, seals, and forms an annular airtight chamber 400.The high molecular polymerization film of the material of sleeve pipe 120 for completely cutting off air and only allow hydrone pass through.Water injecting pipeline 200 and vacuum-pumping pipeline 300 are communicated with airtight chamber 400 respectively.

It is cylindric that pedestal 110 can be, and also can be tetragonal hollow structure, and as shown in Figure 3 and Figure 4, it is mainly used in the fixedly sleeve pipe 120 of high molecular polymerization membrane material.The shape of the shape of sleeve pipe 120 and pedestal 110 matches, and as shown in Figure 5 and Figure 6, is hollow-core construction.Sleeve pipe 120 is socketed in the inside of pedestal 110, and end face seal.Due to, the high molecular polymerization film of the material of sleeve pipe 120 for completely cutting off air and only allow hydrone pass through, so, an annular airtight chamber 400 between the outer wall of sleeve pipe 120 and the inwall of pedestal 110, just formed.When air flows through from the air duct of the inwall formation of sleeve pipe 120, can not enter in airtight chamber 400.In like manner, the air in airtight chamber 400 can not be diffused into outside yet.

It should be noted that, the high molecular polymerization film in the present invention is a kind of existing macromolecular material, so its characteristic, at a kind of atresia homogeneous membrane, has increased the fusion faculty of hydrone after oversulfonate, can completely cut off air and only allow hydrone pass through.

The present invention is according to the characteristic of existing high molecular polymerization film, utilize the density contrast of high molecular polymerization film both sides or pressure reduction as power, allow high density or on high-tension side hydrone dissolve and enter into high molecular polymerization film, then by diffusion, by high molecular polymerization film, enter low-density or low-pressure side, with this, realize humidification or dehumidifying.Specific implementation principle is as follows:

When system is when except wet cooling condition, close water injecting pipeline 200, open vacuum-pumping pipeline 300, make airtight chamber 400 in vacuum state, like this, airtight chamber 400 is the low-pressure side in high molecular polymerization film just, and its outside air duct is normal atmosphere (An), is just equivalent to the high-pressure side of high molecular polymerization film.When air flow circuit process air duct, the high-pressure side that airborne hydrone will see through high molecular polymerization film under the effect of pressure reduction enter low-pressure side, and hydrone enters airtight chamber 400 from sleeve pipe 120, thereby reaches the object of dehumidifying.

On the contrary, when system is when adding wet cooling condition, close vacuum-pumping pipeline 300, open water injecting pipeline 200, water filling in water injecting pipeline 200Xiang airtight chamber 400, now the both sides pressure reduction of high molecular polymerization film is less, but the hydrone density of airtight chamber's 400 1 sides is much larger than air duct one side.Therefore, when air flow circuit process air duct, hydrone enters low-density side from the high density side of high molecular polymerization film, and hydrone enters sleeve pipe 120 1 sides from airtight chamber 400, is brought into air, thereby reaches the object of humidification.

Above-described embodiment has just been enumerated a basic structure of air flow circuit 100, can also increase the contact area of high molecular polymerization film and air by variations such as elongation, bending, increase grids on this basis, meets various demand.

High molecular polymerization membrane module provided by the invention, the method vacuumizing by employing realizes dehumidifying, can not cause the variation of temperature in whole dehumidification process.And the mode humidification of employing wet-film humidifying, does not only consume cold in humidification, can also in the process of moisture evaporation, provide extra cold, play the effect of air precooling.Simple in structure, save energy consumption.

Further, as a kind of embodiment, in an embodiment of high molecular polymerization membrane module provided by the invention, between sleeve pipe 120 and the inwall of pedestal 110, be provided with the netted baffle plate (not shown) of at least one supporting sleeve.Because the material of sleeve pipe 120 is high molecular polymerization film, so, when installing, between the two, install a netted baffle plate additional, as the support of high molecular polymerization film, can prevent preferably that high molecular polymerization film is damaged due to pressure reduction.Preferably, the material of netted baffle plate is stainless steel, the large and good stability of holding capacity.

As a kind of embodiment, referring to Fig. 1, on pedestal 110, be provided with at least one water injection hole 111, the pin hole sprinkler head 112 that connects water injecting pipeline 200 is installed in water injection hole 111.During humidification, the water in water injecting pipeline 200 is by water filling in pin hole sprinkler head 112Xiang airtight chamber 400, and current can spray to sleeve pipe 120.

Preferably, in an embodiment of high molecular polymerization membrane module provided by the invention, on pedestal 110, be provided with 111,4 water injection holes 111 of 4 water injection holes and be evenly distributed on pedestal.As shown in Figure 3 and Figure 4, pedestal 110 is tetragonal hollow structure, and four of pedestal 110 faces were last like this arranges a water injection hole 111, can guarantee the uniformity of water spray.

As a kind of embodiment, referring to Fig. 7 and Fig. 8, pin hole sprinkler head 112 comprises and the connecting portion 1121 and the showerhead 1122 that are connected water injecting pipeline 200.Showerhead 1122 is open column shape structure, and one end is communicated with connecting portion 1121, is vertically installed with the first hole for water spraying 1123 on the end face of the other end.The surrounding of showerhead 1122 is also provided with the second perforate direction of hole for water spraying 1124, the second hole for water sprayings 1124 and the axis direction of showerhead 1122 is 30 degree to 60 degree angles.

Preferably, in an embodiment of high molecular polymerization membrane module provided by the invention, the first hole for water spraying 1123 has one, the second hole for water spraying 1124 has 4,4 the second hole for water sprayings 1124 are evenly distributed on the surrounding of showerhead 1122, and the perforate direction of 4 the second hole for water sprayings 1124 is 45 degree angles with the axis direction of showerhead 1122 respectively.

Special construction by the water injection hole 111 in above-described embodiment and pin hole sprinkler head 112 arranges, and can further guarantee that water can be ejected into the various piece of sleeve pipe 120 uniformly.

In an embodiment of high molecular polymerization membrane module provided by the invention, on water injecting pipeline 200, be provided with the first magnetic valve and the water pump that is connected water source, the first magnetic valve is electrically connected to water pump, for by controlling the unlatching of water pump or closing to control the break-make of water injecting pipeline 200.When the first magnetic valve is opened, water pump is started working, water injecting pipeline 200 conductings, water filling in pin hole sprinkler head 112Xiang airtight chamber 400.

In an embodiment of high molecular polymerization membrane module provided by the invention, in vacuum-pumping pipeline 300, be provided with the second magnetic valve and vavuum pump, magnetic valve is electrically connected to vavuum pump, for by controlling the unlatching of vavuum pump or closing to control the break-make of vacuum-pumping pipeline 300.When the second magnetic valve is opened, vavuum pump is started working, and vacuum-pumping pipeline 300 conductings, vacuumize airtight chamber 400.

Based on same design, an embodiment of air-conditioning system provided by the invention, comprises refrigeration system and above-mentioned high molecular polymerization membrane module, and the air flow circuit in above-mentioned high molecular polymerization membrane module is communicated with the evaporimeter in refrigeration system.As shown in Figure 9, wherein arrow represents air or flow direction.

The refrigeration system of air-conditioning system comprises compressor 1, condenser 2, choke valve 3, evaporimeter 4 and breeze fan 5.Compressor 1, condenser 2, choke valve 3, evaporimeter 4 connect successively, and breeze fan 5 connects evaporimeter 4.High molecular polymerization membrane module comprises air flow circuit 100, water injecting pipeline 200, vacuum-pumping pipeline 300, and be arranged on the first magnetic valve 8 and the water pump 10 on water injecting pipeline 200, be arranged on the second magnetic valve 9 and vavuum pump 11 in vacuum-pumping pipeline 300, the high-pressure side 6 of the high molecular polymerization film in air flow circuit 100 (being low-density side), the low-pressure side 7 of the high molecular polymerization film in air flow circuit 100 (being high density side).

When air-conditioning system is when except wet cooling condition, the first magnetic valve 8 in water injecting pipeline 200 cuts out, the second magnetic valve 9 in vacuum-pumping pipeline 300 is opened, vavuum pump 11 startups vacuumize, make high molecular polymerization film at low pressure side 7 (airtight chamber 400) in vacuum state, and high-pressure side 6 (air duct) pressure is normal atmosphere (An), when air flow circuit process air duct, the high-pressure side 6 that airborne hydrone will see through high molecular polymerization film under the effect of pressure reduction enters low-pressure side 7, thereby reaches the object of dehumidifying.The air dehumidifying through air flow circuit 100 enters evaporimeter 4.

When air-conditioning system is when adding wet cooling condition, the first magnetic valve 8 in water injecting pipeline 200 is opened, the second magnetic valve 9 in vacuum-pumping pipeline 300 cuts out, water pump 10 is opened, water is sprayed onto high molecular polymerization film from high molecular polymerization film at low pressure side 7 (airtight chamber 400), now low-pressure side 7 and high-pressure side 6 pressure reduction are less, but low-pressure side 7 hydrone density are much larger than high-pressure side 6.Therefore when the high-pressure side 6 of air flow circuit process high molecular polymerization film, hydrone sees through high molecular polymerization film from low-pressure side 7 (being high density side) and enters high-pressure side 6 (being low-density side), at air through the out-of-date air that is brought into, thereby reach the object of humidification.The air of crossing through air flow circuit 100 humidifications enters evaporimeter 4.In humidification, water vapor is extra generating portion cold also, and air is played to precooling effect.

Air-conditioning system provided by the invention, by adopting high molecular polymerization membrane module, realizes dehumidifying by the method vacuumizing, and can not cause the variation of temperature in whole dehumidification process.And the mode humidification of employing wet-film humidifying, does not only consume cold in humidification, can also in the process of moisture evaporation, provide extra cold, play the effect of air precooling.Simple in structure, save energy consumption.

The above embodiment has only expressed several embodiment of the present invention, and it describes comparatively concrete and detailed, but can not therefore 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.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (10)

1. a high molecular polymerization membrane module, is characterized in that, comprises air flow circuit, water injecting pipeline and vacuum-pumping pipeline;

Described air flow circuit comprises a pedestal;

Described pedestal is the cavity body structure of both ends open;

The internal sleeve of described pedestal is connected to a hollow sleeve pipe;

Between the end face of described sleeve pipe and the end face of described pedestal, seal, form an annular airtight chamber;

The high molecular polymerization film of the material of described sleeve pipe for completely cutting off air and only allow hydrone pass through;

Described water injecting pipeline and vacuum-pumping pipeline are communicated with described airtight chamber respectively.

2. high molecular polymerization membrane module according to claim 1, is characterized in that, is provided with the netted baffle plate that at least one supports described sleeve pipe between described sleeve pipe and the inwall of described pedestal.

3. high molecular polymerization membrane module according to claim 1 and 2, is characterized in that, is provided with at least one water injection hole on described pedestal;

The pin hole sprinkler head that connects described water injecting pipeline is installed in described water injection hole.

4. high molecular polymerization membrane module according to claim 3, is characterized in that, described pin hole sprinkler head comprises showerhead and the connecting portion that is connected described water injecting pipeline;

Described showerhead, is open column shape structure, and one end is communicated with described connecting portion, is vertically installed with the first hole for water spraying on the end face of the other end;

The surrounding of described showerhead is also provided with the second hole for water spraying, and the perforate direction of described the second hole for water spraying and the axis direction of described showerhead are 30 degree to 60 degree angles.

5. high molecular polymerization membrane module according to claim 4, is characterized in that, described the first hole for water spraying has one, and described the second hole for water spraying has 4;

4 described the second hole for water sprayings are evenly distributed on the surrounding of described showerhead;

The perforate direction of 4 described the second hole for water sprayings is 45 degree angles with the axis direction of described showerhead respectively.

6. high molecular polymerization membrane module according to claim 3, is characterized in that, is provided with 4 described water injection holes on described pedestal;

4 described water injection holes are evenly distributed on described pedestal.

7. high molecular polymerization membrane module according to claim 2, is characterized in that, the material of described netted baffle plate is stainless steel.

8. high molecular polymerization membrane module according to claim 1 and 2, is characterized in that, is provided with the first magnetic valve and the water pump that is connected water source on described water injecting pipeline;

Described the first magnetic valve is electrically connected to described water pump.

9. high molecular polymerization membrane module according to claim 1 and 2, is characterized in that, is provided with the second magnetic valve and vavuum pump in described vacuum-pumping pipeline;

Described the second magnetic valve is electrically connected to described vavuum pump.

10. an air-conditioning system, comprises refrigeration system, it is characterized in that, also comprises the high molecular polymerization membrane module described in claim 1 to 9 any one;

Air flow circuit in described high molecular polymerization membrane module is communicated with the evaporimeter in described refrigeration system.