CN206905335U - A kind of double inner bag air conditioning and water heating systems - Google Patents

Abstract

It the utility model is related to heating and field of refrigeration,Disclose a kind of double inner bag air conditioning and water heating systems,By by check valve assembly,Reservoir,Throttling arrangement,Evaporator,Condenser,Compression set,Solenoid operated four-way valve carries out reasonable combination with heat exchanger and connected,It is rational in infrastructure,Not only there is independent air conditioner refrigerating function,Independent air-conditioning heating function,Independent hot water function,In addition,Air conditioner refrigerating can also be carried out simultaneously and prepares hot water,System it is applied widely,Effectively reduce the waste of the energy,On the other hand,The temperature of working medium is higher than the temperature of top working medium below first heat transfer coils circle,Draw the inner core bucket bottom progress water outlet that the water that downcomer heats needs is directed directly towards the second inner bag,Second heat transfer coils circle heats to the water of inner core bucket from bottom to up,After the completion of water heating in the inner core bucket of second inner bag,Water outlet is carried out by total outlet pipe again,Cold water is heated by the first inner bag and the second inner bag,The efficiency of heating surface is higher.

Description

A kind of double inner bag air conditioning and water heating systems

Technical field

Heating and field of refrigeration are the utility model is related to, specifically a kind of double inner bag air conditioning and water heating systems.

Background technology

Refrigeration or heat-production functions are generally all only realized using the traditional air conditioner of Carnot's principle, hot water can not be produced, caused When refrigeration, heat distributes, and wastes portion of energy.And the water heater of Carnot's principle is used at present, it is again simply individually real The function of production and living hot water is showed, equally caused cold in Carnot cycle is distributed, wastes compressor work.In the market There are some products that can freeze simultaneously with water heating, but the function that air-conditioning, hot water are used alone can not be realized, heat can only be played and returned Function is received, on the other hand, heat exchanger of the prior art uses single inner-tube structure, and the efficiency of heating surface is relatively low.

Utility model content

For overcome the deficiencies in the prior art, the utility model provides a kind of double inner bag air conditioning and water heating systems, rational in infrastructure, Not only have independent air conditioner refrigerating function, independent air-conditioning heating function, independent hot water function, additionally it is possible to carry out sky simultaneously Modulate cold and prepare hot water, system it is applied widely, effectively reduce the waste of the energy, pass through the first inner bag and the second inner bag Cold water is heated, the efficiency of heating surface is high.

The utility model solves technical scheme used by its technical problem：

A kind of double inner bag air conditioning and water heating systems, include cabinet, condenser, compression set, throttling arrangement, evaporator, list To valve module, solenoid operated four-way valve, reservoir and heat exchanger, the compression set is connected with heat exchanger, the heat exchanger and electromagnetism Four-way valve is connected, and the solenoid operated four-way valve is connected with condenser, compression set, evaporator respectively, the check valve assembly difference It is connected with condenser, evaporator, reservoir, throttling arrangement, the evaporator is provided with stainless steel case, and the cabinet side is set There is web plate, the cabinet bottom is provided with fixed strip, the condenser, compression set, throttling arrangement, evaporator, unidirectional valve group Part, solenoid operated four-way valve, reservoir and heat exchanger are fixedly installed in cabinet, and cabinet and the stainless steel case is rectangular, the machine Electric cabinet is provided with case, circular line outlet is provided with the electric cabinet, the heat exchanger includes the first inner bag and second Inner bag, first inner bag and the second inner bag include ladle body, upper end cover, bottom end cover, and the upper end cover is weldingly connected with ladle body, The bottom end cover is weldingly connected with ladle body, and inner core bucket, the inner core bucket are fixedly installed in first inner bag and the second inner bag Hard polyurethane foams are filled between ladle body, hard polyurethane foams are filled between the inner core bucket and upper end cover, it is described interior Hard polyurethane foams are filled between core bucket and bottom end cover, the bottom end cover welding of first inner bag is communicated with water inlet pipe, described One end of water inlet pipe connects with the inner core bucket lower end welding of the first inner bag, and the lower end of the bottom end cover is fixedly welded with fixed frame, The fixed frame is in matrix, and the water inlet pipe bending is horizontally disposed with and passes through fixed frame, the upper end cover welding of first inner bag Connection outlet pipe is communicated with, the inner core bucket upper end of first inner bag connects with connecting outlet pipe welding, first inner bag Upper end cover is connected by connecting outlet pipe with the upper end cover welding of the second inner bag, and the inner core bucket upper end of second inner bag is with connecting Outlet pipe welding connection, the connection outlet pipe weld to be communicated with and draw downcomer in the inner core bucket of the second inner bag, it is described draw under The outlet of water pipe is arranged on the inner core bucket bottom of the second inner bag, and the upper end cover welding of second inner bag is communicated with total outlet pipe, The inner core bucket upper end of second inner bag connects with total outlet pipe welding, is provided through in first inner bag and the second inner bag Fixed column, the upper and lower side of the fixed column, which is provided with, tightens up screw thread, and the upper and lower side of the fixed column passes through nut and upper end respectively Lid, bottom end cover are fixedly connected, and the second heat transfer coils circle, the second heat transfer spiral shell are provided with the inner core bucket of second inner bag One end of coil circle is curved to be provided with second and enters heat pipe, and described second, which enters heat pipe, is arranged on the second inner bag lower end, the second heat transfer spiral shell The other end of coil circle extends downwardly falls heat pipe provided with second, and described second falls that heat pipe lower end is curved to be communicated with heat pipe, the company Logical heat pipe is arranged on the second inner bag lower end, is provided with the first heat transfer coils circle in the inner core bucket of first inner bag, and described One end of one heat transfer coils circle is curved to be provided with first and enters heat pipe, and described first, which enters heat pipe, is arranged on the first inner bag lower end, and described The other end of one heat transfer coils circle extends downwardly falls heat pipe provided with first, and described first falls that heat pipe lower end is curved to be provided with out heat pipe, It is described go out heat pipe be arranged on the first inner bag lower end, the downcomer that draws is arranged in the second heat transfer coils circle.

Further, first inner bag and/or the second inner bag are provided with fixed plate behind.

Further, first inner bag and/or the second inner bag are provided with time outlet pipe behind.

Further, first inner bag and/or the second inner bag are provided with time outlet pipe behind.

Further, the total outlet pipe is extended downwardly provided with downpipe.

The beneficial effects of the utility model are：The system it is rational in infrastructure, not only with independent air conditioner refrigerating function, individually Air-conditioning heating function, independent hot water function, additionally it is possible to carry out air conditioner refrigerating simultaneously and prepare hot water, the applicable model of system Enclose extensively, effectively reduce the waste of the energy, on the other hand, high temperature refrigerant enters heat pipe along second and enters the second heat transfer coils Circle, along the second heat transfer coils circle spiral, second falls heat pipe and connects heat pipe and again draw working medium under the second inner bag, Working medium enters heat pipe from first again and enters the first heat transfer coils circle, and along the first heat transfer coils circle spiral, first falls Heat pipe and go out heat pipe and again draw working medium under the first inner bag, on the other hand, inner core of the cold water along water inlet pipe from the first inner bag Inner core bucket is poured under bucket, the first heat transfer coils circle heats to the water of inner core bucket from bottom to up, due to the first heat transfer spiral shell Coil circle is in the shape of a spiral, good to the heat-transfer effect of the water of surrounding, and the efficiency of heating surface is high, meanwhile, work below the first heat transfer coils circle The temperature of matter is higher than the temperature of top working medium, is advantageous to that the water in the inner core bucket of the first inner bag is heated up rapidly, in first After the completion of water heating in the inner core bucket of courage, the connection outlet pipe that connection is welded by inner core bucket upper end is transported to the second inner bag Inner core bucket, draw the inner core bucket bottom progress water outlet that the water that downcomer heats needs is directed directly towards the second inner bag, the second heat transfer spiral shell Coil circle heats to the water of inner core bucket from bottom to up, to the water of surrounding due to the second heat transfer coils circle in the shape of a spiral Heat-transfer effect it is good, the efficiency of heating surface is high, meanwhile, temperature of the temperature of working medium than top working medium below the second heat transfer coils circle Height, be advantageous to that the water in the inner core bucket of the second inner bag is heated up rapidly, the water heating in the inner core bucket of the second inner bag is completed Afterwards, water outlet is carried out by total outlet pipe, the efficiency of heating surface is higher.

Brief description of the drawings

The utility model is further illustrated with reference to the accompanying drawings and examples.

Fig. 1 is structural representation of the present utility model；

Fig. 2 is the structural representation of pressure control device；

Fig. 3 is the structural representation of cabinet；

Fig. 4 is the structural representation of heat exchanger；

Fig. 5 is another structural representation of heat exchanger.

Embodiment

Reference picture 1~5, a kind of double inner bag air conditioning and water heating systems, include cabinet 2, condenser 5, compression set 4, throttling Device 6, evaporator 7, check valve assembly, solenoid operated four-way valve 8, reservoir 9, heat exchanger 1, pressure control device 20, high-pressure liquid Segment pipe 209 and low-pressure liquid segment pipe 210, compression set 4 are connected with heat exchanger 1, and heat exchanger 1 is connected with solenoid operated four-way valve 8, Solenoid operated four-way valve 8 is connected with condenser 5, compression set 4, evaporator 7 respectively, check valve assembly respectively with condenser 5, evaporator 7th, reservoir 9, throttling arrangement 6 are connected, and it is unidirectional that check valve assembly includes the first check valve 101, the second check valve the 102, the 3rd It is connected after the check valve 104 of valve 103 and the 4th, the first check valve 101 and the parallel connection of the second check valve 102 with reservoir 9, the 3rd is single It is connected after to valve 103 and the parallel connection of the 4th check valve 104 with throttling arrangement 6, throttling arrangement 6 is connected with reservoir 9, and first is single It is connected to valve 101 with after the parallel connection of the 4th check valve 104 with evaporator 7, the second check valve 102 and the 3rd check valve 103 are in parallel It is connected afterwards with condenser 5, when freezing and heating, Working fluid flow is in opposite direction, and the system can remain reservoir 9 for height Pressure condition, unnecessary working medium is stored, product structure is simple, reliable, and manufacturing cost is low, efficiency is high, and pressure control device 20 includes Pressure unloading valve 201 and capillary 202, pressure unloading valve 201 include valve body 203, first outlet 204 and first entrance 205, Valve element 206 is provided between first outlet 204 and first entrance 205, the top of valve element 206 is disposed with spring 207 and regulation spiral shell Silk 208, first entrance 205 is connected with high-pressure liquid segment pipe 209, and first outlet 204 is connected with capillary 202, capillary The other end of pipe 202 is connected with low-pressure liquid segment pipe 210, and high-pressure liquid segment pipe 209 is connected with condenser 5, low pressure liquid State segment pipe 210 is connected with throttling arrangement 6, and evaporator 7 is provided with stainless steel case 3, and stainless steel has corrosion-resistant effect, prolonged Durable, the side of cabinet 2 is provided with web plate 21, is easy to the ventilation and heat of system, and the bottom of cabinet 2 is provided with fixed strip 22, by solid Determine bar 22 cabinet 2 is fixed, condenser 5, compression set 4, throttling arrangement 6, evaporator 7, check valve assembly, electromagnetism four-way Valve 8, reservoir 9 and heat exchanger 1 are fixedly installed in cabinet 2, and complete machine is set, and space-consuming is few, easy for installation, cabinet 2 and not The steel case 3 that becomes rusty is rectangular, simple in construction, easy to manufacture, and electric cabinet 23 is provided with cabinet 2, is controlled by electric cabinet 23, electricity Circular line outlet 24 is provided with control case 23, by the circular outlet of line outlet 24, heat exchanger 1 includes the first inner bag 11 and second Inner bag 12, the first inner bag 11 and the second inner bag 12 include ladle body 13, upper end cover 14, bottom end cover 17, upper end cover 14 and ladle body 13 It is weldingly connected, bottom end cover 17 is weldingly connected with ladle body 13, and inner core bucket, water are fixedly installed in the first inner bag 11 and the second inner bag 12 Heated in inner core bucket, hard polyurethane foams are filled between inner core bucket and ladle body 13, are filled out between inner core bucket and upper end cover 14 Filled with hard polyurethane foams, be filled with hard polyurethane foams between inner core bucket and bottom end cover 17, hard polyurethane foams it is exhausted Thermal effect is good, in light weight, intensity is big, and the welding of bottom end cover 17 of the first inner bag 11 is communicated with water inlet pipe 15, one end of water inlet pipe 15 Being connected with the inner core bucket lower end welding of the first inner bag 11, cold water is entered in the inner core bucket of the first inner bag 11 from water inlet pipe 15, from Poured under inner core bucket, fill full inner core bucket from the bottom to top, the lower end of bottom end cover 17 is fixedly welded with fixed frame 18, fixed frame 18 For the positioning of the first inner bag 11 and the bottom of the second inner bag 12, fixed frame 18 is in matrix, and the bending of water inlet pipe 15 is horizontally disposed with and worn Fixed frame 18 is crossed, is occupied little space, the welding of upper end cover 14 of the first inner bag 11 is communicated with connection outlet pipe 19, the first inner bag 11 Inner core bucket upper end connects with connecting the welding of outlet pipe 19, after cold water entered the heat temperature raising of the first inner bag 11, from connection outlet pipe 19 water outlets, enter back into the second inner bag 12, the upper end cover 14 of the first inner bag 11 is by connecting the inner bag 12 of outlet pipe 19 and second The welding connection of upper end cover 14, the inner core bucket upper end of the second inner bag 12 connect with connecting the welding of outlet pipe 19, and connection outlet pipe 19 exists Welding, which is communicated with, in the inner core bucket of second inner bag 12 draws downcomer 117, and the outlet for drawing downcomer 117 is arranged on the second inner bag 12 Inner core bucket bottom, the welding of upper end cover 14 of the second inner bag 12 are communicated with total outlet pipe 115, the inner core bucket upper end of the second inner bag 12 with The welding connection of total outlet pipe 115, is provided through fixed column 16 in the first inner bag 11 and the second inner bag 12, fixed column 16 up and down End, which is provided with, tightens up screw thread, and the upper and lower side of fixed column 16 is fixedly connected by nut with upper end cover 14, bottom end cover 17 respectively, fixed Post 16 can play in advance fixed effect, and first using fixed column 16 to upper end cover 14, bottom end cover 17 and ladle body 13 carry out pre- solid It is fixed, then upper end cover 14, bottom end cover 17 and ladle body 13 are fixed by welding again, it is simple and practical, the second inner bag 12 it is interior The second heat transfer coils circle 121 is provided with core bucket, by the second heat transfer coils circle 121 in the inner core bucket of the second inner bag 12 Water heated, one end of the second heat transfer coils circle 121 is curved to be provided with second and enters heat pipe 122, and second, which enters heat pipe 122, is arranged on The lower end of second inner bag 12, the working medium of high temperature enter heat pipe 122 from second and enter the second heat transfer coils circle 121, are passed along second The hot spiral of spirally-wound tubes 121, the water in the inner core bucket of the second inner bag 12 is heated from the bottom to top, the second heat transfer spiral The other end of pipeloop 121 extends downwardly falls heat pipe 123 provided with second, and second falls that the lower end of heat pipe 123 is curved to be communicated with heat pipe 124, Connection heat pipe 124 is arranged on the lower end of the second inner bag 12, and the second inner bag will have been heated with heat pipe 124 is connected by falling heat pipe 123 by second The working medium of 12 inner core inner bucket water is provided with the first heat transfer spiral out of the 12 times extractions of the second inner bag, the inner core bucket of the first inner bag 11 Pipeloop 111, the water in the inner core bucket of first inner bag 11 is heated by the first heat transfer coils circle 111, the first heat transfer spiral shell One end of coil circle 111 is curved to be provided with first and enters heat pipe 112, and first, which enters heat pipe 112, is arranged on the lower end of the first inner bag 11, and working medium is from One, which enters heat pipe 112, enters the first heat transfer coils circle 111, along the spiral of the first heat transfer coils circle 111, from the bottom to top Water in the inner core bucket of first inner bag 11 is heated, the other end of the first heat transfer coils circle 111 is extended downwardly provided with One falls heat pipe 113, and first falls that the lower end of heat pipe 113 is curved to be provided with out heat pipe 114, goes out heat pipe 114 and is arranged on the lower end of the first inner bag 11, by First falls heat pipe 113 and goes out heat pipe 114 and draw the working medium for the inner core inner bucket water for having heated the first inner bag 11 under the first inner bag 11 Go out, draw downcomer 117 and be arranged in the second heat transfer coils circle 121, water spreads from inner core bucket center to periphery, strengthens heating effect Fruit.

The design is provided with pressure off-load between the high-pressure liquid segment pipe 209 and low-pressure liquid segment pipe 210 of system Valve 201 and capillary 202, when the condensing pressure of system is too high, high-pressure working medium opens the top of valve element 206, makes the portion in condenser 5 Division of labor matter is shunted from pressure unloading valve 201, and the low-pressure liquid segment pipe 210 of system is flowed to after the decompression of capillary 202, from And the condensing pressure of system is reduced in time, system is continuously worked, will not be made troubles to user, simultaneously because will not go out Situation about now frequently starting shooting, the energy-saving effect of product also become apparent from.

During independent air conditioner refrigerating function, the cyclic process of working medium is as follows：Compression set 4-- heat exchanger 1-- solenoid operated four-way valves 8-- condensers 5 (high pressure conditions) -- the check valve 104-- of the second check valve 102-- reservoir 9-- throttling arrangements 6-- the 4th evaporate Device 7 (starts air-conditioning circulating pump 71 and realizes refrigeration, low-pressure state) -- solenoid operated four-way valve 8-- compression sets 4.

During independent air-conditioning heating function, the cyclic process of working medium is as follows：Compression set 4-- heat exchanger 1-- solenoid operated four-way valves 8-- evaporators 7 (start air-conditioning circulating pump 71 and realize heating, high pressure conditions) -- the first check valve 101-- reservoirs 9-- throttling dresses Put the check valve 103-- condensers 5 (low-pressure state) of 6-- the 3rd -- solenoid operated four-way valve 8-- compression sets 4.

No matter cooling system or when heating, remain in reservoir 9 to be high pressure conditions.

During independent water heating function, the cyclic process of working medium is as follows：Compression set 4-- heat exchangers 1 (start hot water circulating pump 51 realize water heating) -- solenoid operated four-way valve 8-- evaporators 7-- the first check valve 101-- reservoir 9-- throttling arrangements 6-- the 3rd Check valve 103-- condenser 5-- solenoid operated four-way valve 8-- compression sets 4.

While when air conditioner refrigerating and water heating, the cyclic process of working medium is as follows：Compression set 4-- heat exchangers 1 (start hot water Circulating pump 51 realizes water heating) -- solenoid operated four-way valve 8-- condensers 5-- the second check valve 102-- reservoir 9-- throttling arrangements (start air-conditioning circulating pump 71 and realize refrigeration) -- the solenoid operated four-way valve 8-- compression sets 4 of the 4th check valve 104-- evaporators of 6-- 7.

High temperature refrigerant enters heat pipe 122 along second and enters the second heat transfer coils circle 121, along the second heat transfer coils Enclose 121 spirals, second falls heat pipe 123 and connect heat pipe 124 again by working medium from the 12 times extractions of the second inner bag, and working medium is again from the One, which enters heat pipe 112, enters the first heat transfer coils circle 111, falls heat along the spiral of the first heat transfer coils circle 111, first Pipe 113 and go out heat pipe 114 again by working medium from the extraction of the first inner bag 11 time, another aspect, cold water is along in water inlet pipe 15 from first Inner core bucket is poured under the inner core bucket of courage 11, the first heat transfer coils circle 111 heats to the water of inner core bucket from bottom to up, by In the first heat transfer coils circle 111 in the shape of a spiral, good to the heat-transfer effect of the water of surrounding, the efficiency of heating surface is high, meanwhile, the first heat transfer The temperature of the lower section working medium of spirally-wound tubes 111 is higher than the temperature of top working medium, is advantageous in the inner core bucket of the first inner bag 11 rapidly Water heated up, after the completion of the heating of water in the inner core bucket of the first inner bag 11, pass through the connection of inner core bucket upper end welding connection Outlet pipe 19 is transported to the inner core bucket of the second inner bag 12, draws the water that downcomer 117 heats needs and is directed directly towards the second inner bag 12 Inner core bucket bottom carry out water outlet, the second heat transfer coils circle 121 heats to the water of inner core bucket from bottom to up, due to the Two heat transfer coils circles 121 are in the shape of a spiral, good to the heat-transfer effect of the water of surrounding, and the efficiency of heating surface is high, meanwhile, the second heat transfer spiral The temperature of the lower section working medium of pipeloop 121 is higher than the temperature of top working medium, is advantageous to the water in the inner core bucket of the second inner bag 12 rapidly Heated up, after the completion of the water heating in the inner core bucket of the second inner bag 12, water outlet, the efficiency of heating surface are carried out by total outlet pipe 115 It is higher.

In the present embodiment, it is preferred that the first inner bag 11 and/or the behind of the second inner bag 12 are provided with fixed plate, pass through fixation First inner bag 11 and/or the back of the second inner bag 12 are fixed plate.

In the present embodiment, it is preferred that the first inner bag 11 and/or the behind of the second inner bag 12 are provided with time outlet pipe, except can To carry out water outlet by total outlet pipe 115, secondary outlet pipe water outlet can also be passed through.

In the present embodiment, it is preferred that the first inner bag 11 and/or the second inner bag 12 are provided with temperature sensor, in first Water temperature is monitored in the inner bag 12 of courage 11 and/or second.

In the present embodiment, it is preferred that total outlet pipe 115 is extended downwardly provided with downpipe 116, water outlet from below, is easy to arrange Cloth pipeline, reasonable utilization space.

It is described above, simply better embodiment of the present utility model, but the utility model is not limited to above-mentioned reality Example is applied, as long as it reaches technique effect of the present utility model with any same or similar means, should all be fallen into of the present utility model Within protection domain.

Claims (5)

1. A kind of 1. double inner bag air conditioning and water heating systems, it is characterised in that：Include cabinet (2), condenser (5), compression set (4), Throttling arrangement (6), evaporator (7), check valve assembly, solenoid operated four-way valve (8), reservoir (9) and heat exchanger (1), the compression Device (4) is connected with heat exchanger (1), and the heat exchanger (1) is connected with solenoid operated four-way valve (8), and the solenoid operated four-way valve (8) is respectively Be connected with condenser (5), compression set (4), evaporator (7), the check valve assembly respectively with condenser (5), evaporator (7), reservoir (9), throttling arrangement (6) are connected, and the evaporator (7) is provided with stainless steel case (3), cabinet (2) side Web plate (21) is provided with, cabinet (2) bottom is provided with fixed strip (22), the condenser (5), compression set (4), throttling Device (6), evaporator (7), check valve assembly, solenoid operated four-way valve (8), reservoir (9) and heat exchanger (1) are fixedly installed on cabinet (2) in, the cabinet (2) and stainless steel case (3) are rectangular, and electric cabinet (23), the electric cabinet are provided with the cabinet (2) (23) circular line outlet (24) is provided with, the heat exchanger (1) includes the first inner bag (11) and the second inner bag (12), described First inner bag (11) and the second inner bag (12) include ladle body (13), upper end cover (14), bottom end cover (17), the upper end cover (14) It is weldingly connected with ladle body (13), the bottom end cover (17) is weldingly connected with ladle body (13), in first inner bag (11) and second Inner core bucket is fixedly installed in courage (12), hard polyurethane foams, the inner core are filled between the inner core bucket and ladle body (13) Hard polyurethane foams are filled between bucket and upper end cover (14), hard polyaminoester is filled between the inner core bucket and bottom end cover (17) Foam, bottom end cover (17) welding of first inner bag (11) are communicated with water inlet pipe (15), one end of the water inlet pipe (15) with The inner core bucket lower end welding connection of first inner bag (11), the lower end of the bottom end cover (17) is fixedly welded with fixed frame (18), institute It is in matrix to state fixed frame (18), and water inlet pipe (15) bending is horizontally disposed with and passes through fixed frame (18), first inner bag (11) upper end cover (14) welding is communicated with connection outlet pipe (19), and the inner core bucket upper end of first inner bag (11) is with connecting out Water pipe (19) welding connection, the upper end cover (14) of first inner bag (11) is by connecting outlet pipe (19) and the second inner bag (12) Upper end cover (14) welding connection, the inner core bucket upper end of second inner bag (12) and connect outlet pipe (19) weld connection, institute State connection outlet pipe (19) welding in the inner core bucket of the second inner bag (12) and be communicated with and draw downcomer (117), it is described to draw downcomer (117) outlet is arranged on the inner core bucket bottom of the second inner bag (12), and upper end cover (14) welding of second inner bag (12) connects It is connected with total outlet pipe (115), the inner core bucket upper end of second inner bag (12) connects with total outlet pipe (115) welding, and described the Fixed column (16) is provided through in one inner bag (11) and the second inner bag (12), the upper and lower side of the fixed column (16) is provided with receipts Tight screw thread, the upper and lower side of the fixed column (16) is fixedly connected by nut with upper end cover (14), bottom end cover (17) respectively, described The second heat transfer coils circle (121) is provided with the inner core bucket of second inner bag (12), the second heat transfer coils circle (121) One end is curved to be provided with second and enters heat pipe (122), and described second, which enters heat pipe (122), is arranged on the second inner bag (12) lower end, and described second The other end of heat transfer coils circle (121) extends downwardly falls heat pipe (123) provided with second, and described second falls heat pipe (123) lower end Curved to be communicated with heat pipe (124), the connection heat pipe (124) is arranged on the second inner bag (12) lower end, first inner bag (11) Inner core bucket in be provided with the first heat transfer coils circle (111), one end of the first heat transfer coils circle (111) is curved to be provided with First enters heat pipe (112), and described first, which enters heat pipe (112), is arranged on the first inner bag (11) lower end, first heat transfer coils The other end of circle (111) extends downwardly falls heat pipe (113) provided with first, and described first falls that heat pipe (113) lower end is curved to be provided with out heat Manage (114), it is described go out heat pipe (114) be arranged on the first inner bag (11) lower end.
2. A kind of 2. double inner bag air conditioning and water heating systems according to claim 1, it is characterised in that：It is described to draw downcomer (117) It is arranged in the second heat transfer coils circle (121), first inner bag (11) and/or the second inner bag (12) are provided with fixation behind Plate.
3. A kind of 3. double inner bag air conditioning and water heating systems according to claim 1 or 2, it is characterised in that：First inner bag (11) and/or the second inner bag (12) is provided with time outlet pipe behind.
4. A kind of 4. double inner bag air conditioning and water heating systems according to claim 1 or 2, it is characterised in that：First inner bag (11) and/or the second inner bag (12) is provided with temperature sensor.
5. A kind of 5. double inner bag air conditioning and water heating systems according to claim 1 or 2, it is characterised in that：The total outlet pipe (115) extend downwardly provided with downpipe (116).