CN207813850U - Power device and air conditioning system - Google Patents

Abstract

The utility model discloses a power device and air conditioning system relates to energy-conserving field for energy-conservation reduces the energy consumption. The power device comprises a rotary driving source and two or more driven parts, wherein the rotary driving source is in driving connection with each driven part to drive the rotary part of each driven part to rotate, and the driven parts are used for converting the mechanical energy of the fluid into the pressure energy and/or the kinetic energy of the fluid. By the technical scheme, one rotary driving source drives two or more driven parts, so that the number of the driving sources can be reduced, industrial energy consumption is reduced, and energy conservation is realized.

Description

Power plant and air-conditioning system

Technical field

The utility model is related to energy-saving fields, and in particular to a kind of power plant and air-conditioning system.

Background technology

The energy is concerning social development and the most important resource of human survival, and energy consumption is the important class of current sustainable development Topic.Building energy consumption occupies quite high ratio in the energy consumption of city, and in all building energy consumptions, Heating,Ventilating and Air Conditioning energy consumption accounts for More than half.Therefore air conditioning energy consumption is saved to be of great significance to energy saving.

Utility model content

The utility model proposes a kind of power plant and air-conditioning systems, to energy saving, reduction energy consumption.

The utility model provides a kind of power plant, including source of rotational drive and two or more driven members, institute Source of rotational drive is stated to be drivingly connected to drive the rotatable parts of each driven member to rotate with each driven member, it is described Driven member is used to convert the mechanical energy of fluid to the pressure energy and/or kinetic energy of fluid.

In one or some embodiments, the source of rotational drive includes two or more output shaft, each output Axis is drivingly connected a driven member.

In one or some embodiments, clutch is equipped between the output shaft and the driven member.

In one or some embodiments, speed changer is equipped between the clutch and the driven member.

In one or some embodiments, the source of rotational drive is selected from motor.

In one or some embodiments, the driven member is selected from pump, compressor.

Another embodiment of the utility model provides a kind of air-conditioning system, includes that interior in same circulation loop is changed The driven member for the power plant that hot device, liquid storage device, outdoor heat exchanger and any technical solution of the utility model are provided, institute It includes compressor to state driven member.

In one or some embodiments, air-conditioning system further includes the first branch, and the driven member further includes pump, described For pump in the first branch, the first branch further includes solar heat exchanger；Wherein, when the air-conditioning system is in heating mould Under formula：The pump can convey a part being exported via the indoor heat exchanger, entering the medium in the liquid storage device It conveys and is back in the indoor heat exchanger after absorbing heat to the solar heat exchanger.

In one or some embodiments, air-conditioning system further includes the second branch, and the driven member includes pump, the pump In the second branch, the second branch further includes ground heat exchanger；Wherein, when the air-conditioning system is in refrigeration mode Under：Medium being exported via the outdoor heat exchanger, entering in the liquid storage device can be transported to described buried by the pump It is delivered to after heat exchange of heat pipe heat release in the indoor heat exchanger.

In one or some embodiments, air-conditioning system further includes the first branch, the second branch and switching valve, described to be driven Moving part further includes pump, and the pump and the switching valve are in the first branch and the second branch simultaneously；Wherein, when the air-conditioning system Under heating mode：The switching valve is in the valve position that the pump is in fluid communication with the solar heat exchanger, the pump A part being exported via the indoor heat exchanger, entering the medium in the liquid storage device can be delivered back into the sun It can be transferred back in the indoor heat exchanger after heat exchanger heat absorption；Under the air-conditioning system is in refrigeration mode：The switching valve In the valve position that the pump is in fluid communication with the ground heat exchanger, the pump can will be exported via the outdoor heat exchanger , enter the medium in the liquid storage device and be transported to the ground heat exchanger heat release after be delivered to the indoor heat exchanger In.

Based on the above-mentioned technical proposal, the utility model embodiment can at least have the following technical effects：

Above-mentioned technical proposal realizes the driven member that a source of rotational drive drives two or more quantity, so may be used To greatly reduce the quantity of driving source, to reduce industry energy consumption, realize energy saving.

Description of the drawings

Attached drawing described herein is used to provide a further understanding of the present invention, and is constituted part of this application, The exemplary embodiment of the utility model and the description thereof are used to explain the utility model, does not constitute to the improper of the utility model It limits.In the accompanying drawings：

Fig. 1 is a kind of structural schematic diagram for the power plant that the utility model embodiment provides；

Fig. 2 is another structural schematic diagram for the power plant that the utility model embodiment provides；

Fig. 3 is the principle schematic for the reciprocating compressor that the utility model embodiment provides；

Fig. 4 is a kind of principle schematic for the air-conditioning system that the utility model embodiment provides；

Fig. 5 is another principle schematic for the air-conditioning system that the utility model embodiment provides；

Fig. 6 is another principle schematic for the air-conditioning system that the utility model embodiment provides.

Specific implementation mode

Technical solution provided by the utility model is illustrated in more detail with reference to Fig. 1~Fig. 6.

Referring to Fig. 1 or Fig. 2, the utility model embodiment provides a kind of power plant, including source of rotational drive 1 and two or Above driven member 2.Source of rotational drive 1 is drivingly connected with each driven member 2 to drive the rotatable parts of each driven member 2 Rotation, driven member 2 are used to convert the mechanical energy of fluid to the pressure energy and/or kinetic energy of fluid.

Driven member 2 is two or more, and each driven member 2 is not necessarily to the driving sources such as built-in motor, so can letter Change the structure of driven member 2, and the quantity of required source of rotational drive 1 in industry can be reduced, with energy saving.

The components such as pump 10, compressor 9 may be used in driven member 2, and source of rotational drive 1 may include motor.Motor band The shaft rotation of dynamic driven member 2, to realize the conversion of fluid energy inside driven member 2.

Compressor 9 is specifically as follows reciprocating compressor, semienclosed rotor compressor, scroll compressor, screw rod Formula compressor etc., these are all rotated using motor band dynamic crankshaft.In the present embodiment, compressor 9 is opened compressor, The power input of bent axle stretches out outside body, is connected with motor by transmission device.Wherein pump 10 is the base in conventional pump Internal motor is eliminated on plinth, is connect the impeller pumped inside 10 with motor by transmission device.The bent axle of motor is simultaneously Connect compressor 9 and pump 10.Bent axle can have the diversified forms such as crank axle, eccentric shaft, crank shaft.

Compressor 9 and pump 10 are all the fluid machines for mechanical energy being converted to the pressure energy and kinetic energy that flow through its internal flow Tool.Referring to Fig. 3, by taking reciprocating compressor as an example, the output shaft 3 of motor is connect with bent axle 91, and motor band dynamic crankshaft 91 is done Rotary motion, then the rotary motion of bent axle 91 is changed by the past of piston 92 by bent axle-link mechanism inside compressor 9 Multiple movement, realizes the working cycles of compressor 9.Pump 10 is also to drive the impeller inside 10 bodies of pump to rotate by motor, in turn To the fluid pressurized flowed through inside 10 bodies of pump.

The power plant that above-mentioned technical proposal provides.By transmission of crankshaft, realize that a motor drives compressor 9 simultaneously In rotor, pump 10 in wheel rotation compression, give medium supercharging.Compressor 9, pump 10 different rotating speeds fortune may be implemented in the device Row can also realize the special circumstances of an operation compressor 9 or pump 10.And the energy consumption of air-conditioning system can be saved, reach energy saving The purpose of emission reduction；The vibration and noise that system can also be reduced improves the stabilization and reliability of system.

Referring to Fig. 1 or Fig. 2, in the present embodiment, source of rotational drive 1 includes two or more output shafts 3, each output shaft 3 It is drivingly connected a driven member 2.Each driven member 2 is driven by individual output shaft 3.The structure is each convenient for individually controlling The operating status of driven member 2.

Referring to Fig. 1, clutch 4 is equipped between output shaft 3 and driven member 2.Clutch 4 is set, is driven convenient for control Whether the action of part 2.

Referring to Fig. 1, speed changer 5 is equipped between clutch 4 and driven member 2.Speed changer 5 is set, is driven convenient for control The rotating speed of part 2.

In the present embodiment, there are many arrangement forms for source of rotational drive 1 and two driven members 2.It is electricity with source of rotational drive 1 Motivation, a driven member 2 are compressor 9, another driven member 2 be pump 10 for, be not only limited to it is shown in FIG. 1 will be electric Machine is placed in the distribution form between compressor 9 and pump 10, can also compressor 9 and pump 10 be placed in same one side, or form angle Degree formula is distributed.It realizes angled type distribution, mainly corresponding crankshaft-link rod device is leaned on to realize transmission.Referring to Fig. 2, compressor 9 with 90 ° of distribution may be implemented in pump 10, and all on same one side of motor.

Working media in pump 10 can be fluorine, water etc..Same above-mentioned technical proposal is not only limited to air-air and follows Ring can also be applied to Air-Water cycle.Fluorine pump is identical with the operation principle of water pump, and only working media is different.The device makes It is air-air cycle with specific air conditioning system schemes, the present embodiment need to be combined, fluorine is heat transferring medium, so being pumped using fluorine. And water pump is then mainly used in the system schema for needing hot water preparing, such as Air-Water cycle system schema, common product There are air friction drag, air source water heater.

Referring to Fig. 4, another embodiment of the utility model provides a kind of air-conditioning system, includes in same circulation loop The power plant that indoor heat exchanger 6, liquid storage device 7, outdoor heat exchanger 8 and any technical solution of the utility model are provided.It is dynamic The driven member 2 of power apparatus includes compressor 9.Compressor 9 provides power for the cycle of refrigerant.

The pump 10 of power plant can be the medium supercharging in circulation loop；Individual branch can be also set, with realization pair The embodiment of the medium supercharging in three kinds of pumps, 10 pairs of branches is described below in medium supercharging in branch.

The first situation is：Referring to Fig. 4, air-conditioning system further includes the first branch, and driven member 2 further includes pump 10, pump 10 In the first branch, the first branch further includes solar heat exchanger 11；Wherein, when air-conditioning system is under heating mode：Pump 10 can by it is being exported via indoor heat exchanger 6, enter the part in the medium in liquid storage device 7 and be transported to solar heat exchanger Conveying is back in indoor heat exchanger 6 after 11 heat absorptions exchanges heat again.

Solar heat exchanger 11 can utilize solar energy to being heated into medium therein, and the medium after heating conveys again to be back to It exchanges heat again in indoor heat exchanger 6, so may be implemented to realize indoor heating using the solar energy of setting solar heat exchanger 11, To reduce energy consumption, energy-saving and emission-reduction.

Second case is：Referring to Fig. 5, air-conditioning system further includes the second branch, and driven member 2 includes pump 10, is pumped at 10 In the second branch, the second branch further includes ground heat exchanger 12.Wherein, under air-conditioning system is in refrigeration mode：Pump 10 Can by it is being exported via outdoor heat exchanger 8, enter the medium (can all or be a portion) in liquid storage device 7 and be transported to It is delivered in indoor heat exchanger 6 after 12 heat release of ground heat exchanger.The certain media in liquid storage device 7 is illustrated in Fig. 5 via ground The situation being delivered to after 12 heat release of buried tube heat exchanger in indoor heat exchanger 6.

When refrigeration mode, system is refrigeration cycle.Under this demand, environment temperature is higher, but underground water temperature is relatively low, passes through Medium after the cooling of outdoor heat exchanger 8 enters ground heat exchanger 12 and cools down again, is then sent in indoor heat exchanger 6. So interior space refrigeration is realized using geothermal energy, to reduce energy consumption, energy-saving and emission-reduction.

The third situation is：Referring to Fig. 6, air-conditioning system further includes the first branch, the second branch and switching valve 13.It is driven Part 2 further includes pump 10, and pump 10 and switching valve 13 are in the first branch and the second branch simultaneously.Wherein, when air-conditioning system is in system Under heat pattern：Switching valve 13, which is in, will pump the 10 valve positions being in fluid communication with solar heat exchanger 11, and pump 10 can will be changed via interior A part that hot device 6 exports, entering the medium in liquid storage device 7, which is transported to after solar heat exchanger 11 absorbs heat, is transferred back to interior In heat exchanger 6.Under air-conditioning system is in refrigeration mode：Switching valve 13 is in and will pump 10 and be in fluid communication with ground heat exchanger 12 Valve position, pump 10 can by it is being exported via outdoor heat exchanger 8, enter all or part of medium in liquid storage device 7 and be transported to ground It is delivered in indoor heat exchanger 6 after 12 heat release of buried tube heat exchanger.Simultaneously solar heat exchanger 11 is set, ground heat exchanger 12 can Solar energy and geothermal energy are according to circumstances utilized, it is energy saving to realize.

Air-conditioning system shown in fig. 6 includes mainly common air-conditioning system circulation flow path, and utilizes Low Temperature Thermal in refrigeration Source underground heat realizes the flow path (the second branch) of medium supercooling, and realizes the flow path of medium overheat using solar source in heating (first branch).

Wherein, Air-conditioning Cycle primary flow path mainly include compressor 9, four-way valve 15, indoor heat exchanger 6, outdoor heat exchanger 8, First electric expansion valve 16, the second electric expansion valve 17, liquid storage device 7, vapour point parts such as 14.

Circuit when refrigeration cycle is：Compressor 9- four-way valve 15- outdoor heat exchangers 8- the first electric expansion valve 16- liquid storages Device 7- the second electric expansion valve 17- indoor heat exchanger 6- four-way valve 15- vapour divides 14- compressors 9.

Circuit when heating cycle is：Compressor 9- four-way valve 15- indoor heat exchangers 6- the second electric expansion valve 17- liquid storages Device 7- the first electric expansion valve 16- outdoor heat exchanger 8- four-way valve 15- vapour divides 14- compressors 9.

The system uses the devices of composite compressor 9 and pump 10, and a same time control of motor can be used by the device The compressor 9 and pump 10 of system processed.The system can be achieved by controlling the switch of triple valve：

Realize that medium is subcooled using low temperature geothermal source when refrigeration, i.e., the second branch participates in cycle：Through outdoor when refrigeration cycle 8 condensed medium of heat exchanger flows through liquid storage device 7, and liquid medium therein is by 10 supercharging of pump, by (the specific packet of switching valve 13 Include triple valve) flow to ground heat exchanger 12.Because summer underground water temperature is relatively low, medium can be into one in ground heat exchanger 12 Step heat dissipation, realizes supercooling.It is swollen that the medium in liquid medium and air conditioner circulating system after supercooling flows to the second electronics again after converging Swollen valve 17.

Realize that medium overheats using solar heat exchanger 11 when heating, i.e., the first branch participates in cycle：It is passed through when heating cycle 6 condensed medium of indoor heat exchanger flows through liquid storage device 7, and wherein liquid medium is (specific by switching valve 13 by 10 supercharging of pump Including triple valve) solar pipe heat exchanger 11 is flowed to, it absorbs solar energy and realizes medium overheat.Hot medium is crossed again by pipeline stream To 6 entrance of indoor heat exchanger, with converge from the medium that compressor 9 comes out after flow to indoor heat exchanger 6 again.

Above-mentioned technical proposal is, it can be achieved that a motor controls compressor 9 and pump 10, Ke Yiqu in air-conditioning system simultaneously The built-in motor of compressor and pump in sterilizing system, saves the energy consumption of air-conditioning system.The device is applied in Air-conditioning Cycle, summer Can exchange heat with underground water when refrigeration and realize medium supercooling, solar heat-exchange can be utilized to realize that medium overheats when winter heating, with into One step improves the efficiency of system, achieves energy-saving and emission reduction purposes；The vibration and noise that system can also be reduced improves the steady of system Fixed and reliability.

In the description of the present invention, it should be understood that term "center", " longitudinal direction ", " transverse direction ", "front", "rear", The orientation or positional relationship of the instructions such as "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside" is based on attached drawing institute The orientation or positional relationship shown only is the utility model and simplified description for ease of description, rather than indicates or imply meaning Device or element must have a particular orientation, be specific azimuth configuration and operation, thus should not be understood as new to this practicality Type protects the limitation of content.

Finally it should be noted that：Above example is only to illustrate the technical solution of the utility model, rather than its limitations； Although the utility model is described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that： It still can be with technical scheme described in the above embodiments is modified, or is carried out to which part technical characteristic etc. It is same to replace, but these modifications or replacements, various embodiments of the utility model technology that it does not separate the essence of the corresponding technical solution The spirit and scope of scheme.

Claims (10)

1. a kind of power plant, which is characterized in that described including source of rotational drive (1) and two or more driven member (2) Source of rotational drive (1) is drivingly connected with each driven member (2) to drive the rotatable parts of each driven member (2) to turn Dynamic, the driven member (2) is used to convert the mechanical energy of fluid to the pressure energy and/or kinetic energy of fluid.

2. power plant according to claim 1, which is characterized in that the source of rotational drive (1) includes two or more Output shaft (3), each output shaft (3) is drivingly connected a driven member (2).

3. power plant according to claim 2, which is characterized in that the output shaft (3) and the driven member (2) it Between be equipped with clutch (4).

4. power plant according to claim 3, which is characterized in that the clutch (4) and the driven member (2) it Between be equipped with speed changer (5).

5. power plant according to claim 1, which is characterized in that the source of rotational drive (1) is selected from motor.

6. power plant according to claim 1, which is characterized in that the driven member (2) is selected from pump (10), compressor (9)。

7. a kind of air-conditioning system, which is characterized in that include indoor heat exchanger (6), liquid storage device in same circulation loop (7), the driven member (2) of outdoor heat exchanger (8) and any power plants of claim 1-6, the driven member (2) include compressor (9).

8. air-conditioning system according to claim 7, which is characterized in that further include the first branch, the driven member (2) is also Including pump (10), the pump (10) is in the first branch, and the first branch further includes solar heat exchanger (11)；Wherein, When the air-conditioning system is under heating mode：It is described pump (10) can will via the indoor heat exchanger (6) export, enter Conveying is back to the interior after a part for medium in the liquid storage device (7) is transported to the solar heat exchanger (11) heat absorption In heat exchanger (6).

9. air-conditioning system according to claim 8, which is characterized in that further include the second branch, driven member (2) packet Pump (10) is included, the pump (10) is in the second branch, and the second branch further includes ground heat exchanger (12)；Wherein, when Under the air-conditioning system is in refrigeration mode：It is described pump (10) can will via the outdoor heat exchanger (8) export, enter institute It states after the medium in liquid storage device (7) is transported to the ground heat exchanger (12) heat release and is delivered in the indoor heat exchanger (6).

10. air-conditioning system according to claim 9, which is characterized in that further include the first branch, the second branch and switching valve (13), the driven member (2) further includes pump (10), the pump (10) and the switching valve (13) and meanwhile be in the first branch with The second branch；Wherein, when the air-conditioning system is under heating mode：The switching valve (13) is in pump (10) and the institute State solar heat exchanger (11) fluid communication valve position, it is described pump (10) can will via the indoor heat exchanger (6) export, into The part entered to the medium in the liquid storage device (7) be transported to conveying after the solar heat exchanger (11) heat absorption be back to it is described In indoor heat exchanger (6)；Under the air-conditioning system is in refrigeration mode：The switching valve (13) be in the pump (10) and The valve position that the ground heat exchanger (12) is in fluid communication, that the pump (10) can will export via the outdoor heat exchanger (8), The medium entered in the liquid storage device (7) is delivered to the indoor heat exchange after being transported to the ground heat exchanger (12) heat release In device (6).