CN206398900U - A kind of capillary pad radiant type VM air-conditioning systems - Google Patents

Abstract

The utility model is related to a kind of capillary pad radiant type VM air-conditioning systems, belongs to air-conditioning system field.The system includes the parts such as VM circulating heat pumps, capillary pad.VM circulating heat pumps are worked under the driving of thermal source, and heating, the refrigeration of user are realized by end-equipment capillary pad.Capillary pad inlet pipeline is connected with the room temperature chamber of VM circulating heat pumps and heated in the winter time, is connected and is freezed with the cold chamber of VM circulating heat pumps in summer capillary pad inlet pipeline, and the hot chamber of VM circulating heat pumps then supplies user annual domestic hot-water.This air-conditioning system can not only meet user to heat, refrigeration duty demand, and with energy-conserving and environment-protective, regulative mode is flexible the features such as.

Description

A kind of capillary pad radiant type VM air-conditioning systems

Technical field

The utility model belongs to air-conditioning system field, more particularly to a kind of capillary pad radiant type VM air-conditioning systems.

Background technology

Radiation-type air conditioner system is a kind of stealthy air-conditioning system, by reduce (rise) enclosed structure inner surface in one or The temperature on multiple surfaces, forms cold (heat) radiating surface, by the radiation of radiating surface and human body, furniture and building enclosure remaining surface Heat exchange carries out cooling (warm).The system is noiseless, calm sense, cold and hot uniform, the energy-conservation 28%- with conventional air conditioning system compared with 40%.As modernization is promoted, people are to the requirement more and more higher of comfort air conditioning system and the saving energy, radiation-type air conditioner system Just a home from home and the indoor air quality requirement of higher level can be met, thus is referred to as " following sky by many experts Adjusting system ".

In radiation-type air conditioner system end-equipment, capillary pad is with the obvious advantage.Flow in capillary tube is compared with low temperature in the winter time The hot water of degree, homogeneous soft to room radiations heat energy, in the higher cold water of summer flow in capillary tube temperature, homogeneous soft Cold is radiated to room；Moreover, capillary pad is a kind of terminal material for being widely used in building heating and freezing, by macromolecule Material polypropylene is made, and service life length, unit heat exchange amount are big, recyclable, the building based on capillary pad end Heating/refrigeration is the high air-conditioning technical of a kind of low energy consumption, environmental protection, comfort level.

In order to which capillary pad radiation-type air conditioner system is applied in user, Cooling and Heat Source is used as from VM circulating heat pumps.VM The capacity of circulating heat pump has from several kilowatts to hundreds of kilowatts, and can many parallel connections, system flexibility is good, matching degree is high；And And, the thermals source of VM circulating heat pumps can be the new energy such as traditional fossil energy or solar energy, biomass energy, coordinate The exploitation of new energy is even more to have important energy-saving and emission-reduction meaning；In addition, the actual heating efficiency of VM circulating heat pumps has reached More than 1.7, the use time life-span, compared to other cold and hot source devices, VM circulating heat pumps had obvious society up to 30000 hours Economy and environmentally friendly sexual clorminance.

The content of the invention

For above-mentioned problem and phenomenon, the utility model provides a kind of capillary pad radiant type VM air-conditioning systems, The combination by new Cooling and Heat Source and air-conditioning system end-equipment is intended to, more comfortable, energy-conservation air conditioner surroundings are provided a user.

To achieve these goals, the technical scheme that the utility model is taken is：

A kind of capillary pad radiant type VM air-conditioning systems, including：

VM circulating heat pumps：It is configured to provide for the Cooling and Heat Source of radiation-type air conditioner system, is freezed and is heated, and meets and uses Family energy demand；

Heat exchanger：It is configured to hot fluid heat transfer in the hot chamber of VM circulating heat pumps to cold fluid；

Four-way valve I：It is configured to the conversion for controlling Summer and winter circulating water line；

Four-way valve II：It is configured to the conversion for controlling Summer and winter circulating water line；

Capillary pad：It is configured to the connection equipment between VM circulating heat pumps Cooling and Heat Source and user, is directly carried out to user Radiant type heats and refrigeration.

A kind of above-mentioned complementary hot coproduction energy supplying system of water power, wherein, described VM circulating heat pumps are supplied by hot chamber Domestic hot-water, cold chamber realize that refrigeration, room temperature chamber realize heating.

A kind of above-mentioned complementary hot coproduction energy supplying system of water power, wherein, described heat exchanger is by VM circulating heat pumps heat The heat of chamber carries out heat exchange with running water.

A kind of above-mentioned capillary pad radiant type VM air-conditioning systems, wherein, described four-way valve I has A1, A2, A3 and A4 tetra- Individual interface, is sequentially connected the outlet of VM circulating heat pump room temperatures chamber, capillary pad inlet pipeline entrance a, capillary pad inlet pipeline and enters The cold chamber outlet of mouth c and VM circulating heat pumps.

A kind of above-mentioned capillary pad radiant type VM air-conditioning systems, wherein, described four-way valve II has B1, B2, B3, B4 tetra- Individual interface, is sequentially connected the cold chamber entrance of VM circulating heat pumps, capillary pad water return pipeline outlet b, the outlet of capillary pad water return pipeline D, VM circulating heat pump room temperature chamber entrance.

A kind of above-mentioned capillary pad radiant type VM air-conditioning systems, wherein, described capillary pad is hung on user's wall, on Edge Distance roof 1.1m, lower edge is higher by floor 0.7m, and left hand edge is apart from left wall 0.8m, and right hand edge is apart from right wall 0.8m.

Above-mentioned technical proposal has the following advantages that or beneficial effect：

1st, capillary pad is hung on metope, by water in superfine flow in capillary tube, with the side of hot and cold radiation and convection current Formula realizes efficient heat exchange, is provided simultaneously with energy-conserving and environment-protective, high-comfort, the features such as save space.

2nd, the system replicability is strong, can according to the arrangement size of different room area rational capillary pads, Meeting using for different user can demand.

3rd, the system carries out Summer and winter pattern switching using four-way valve I and four-way valve II, and the method for operation is flexible, operation letter It is single.

Brief description of the drawings

By reading the detailed description made with reference to following accompanying drawing to non-limiting example, the utility model and its spy Levy, profile and advantage will become more apparent.Identical mark indicates identical part in whole accompanying drawings.Not deliberately Accompanying drawing is drawn to scale, it is preferred that emphasis is purport of the present utility model is shown.

A kind of capillary pad radiant type VM air-conditioning system structural representations of Fig. 1；

Fig. 2 capillary pads room layout drawing；

Fig. 3 capillary pad connection diagrams；

Each label implication is as follows in figure：1-VM circulating heat pumps；2- heat exchangers；3- four-way valves I；4- four-way valves II；5- capillarys Pipe pad；

Embodiment

The utility model is further described with specific embodiment below in conjunction with the accompanying drawings, but it is new not as this practicality The restriction of type.

The operation principle of VM circulating heat pumps refers to Chinese patent CN101865566A.

As shown in figure 1, the system includes：VM circulating heat pumps 1, heat exchanger 2, four-way valve I 3, four-way valve II 4, capillary Pad 5.VM circulating heat pumps 1 are started working under thermal source driving, the hot chamber of the VM circulating heat pumps 1 connection formation heating pipe of heat exchanger 2 road, Annual domestic hot-water is supplied to user；It is sequentially connected the outlet of the cold chamber of VM circulating heat pumps 1, four-way valve I 3 A4 interfaces, four-way valve I 3 A2 interfaces, the inlet pipeline entrance a of capillary pad 5, the water return pipeline of capillary pad 5 outlet d, four-way valve II 4 B3 interfaces, Four-way valve II 4 B4 interfaces, the room temperature chamber entrance of VM circulating heat pumps 1, constitutes summer circulating water line and meets user's refrigeration demand； The outlet of the room temperature chamber of VM circulating heat pumps 1, four-way valve I 3 A1 interfaces, four-way valve I 3 A3 interfaces, capillary pad 5 is sequentially connected to enter Water lines entrance c, the water return pipeline of capillary pad 5 outlet b, four-way valve II 4 B2 interfaces, four-way valve II 4 B1 interfaces, VM are followed The cold chamber entrance of ring heat pump 1, constitutes winter circulating water line, meets user's heating demands.

Capillary pad room layout drawing is introduced with reference to Fig. 2.

Such as Fig. 2, capillary pad 5 is hung on the face wall of user, and top edge is higher by floor apart from roof 1.1m, lower edge 0.7m, left hand edge is apart from left wall 0.8m, and right hand edge is apart from right wall 0.8m.

Capillary pad connection diagram is introduced with reference to Fig. 3.

As shown in figure 3, arrangement of the capillary pad 5 using both sides grafting, itself collection point ability of swimming structure, by entering, backwater Supervisor and many capillaries are constituted, and a supervisor is directly connected with some branch pipes simultaneously, and water is then real in flow in capillary tube Existing heat exchange.

It should be appreciated by those skilled in the art that those skilled in the art combine prior art and above-described embodiment can be real The existing change case, will not be described here.Such change case has no effect on substantive content of the present utility model, not superfluous herein State.

Preferred embodiment of the present utility model is described above.It is to be appreciated that the utility model not office It is limited to above-mentioned particular implementation, wherein the equipment and structure be not described in detail to the greatest extent are construed as using the common side in this area Formula is practiced；Any those skilled in the art, do not depart from technical solutions of the utility model make it is many possible Change and modify, or be revised as the equivalent embodiment of equivalent variations, this has no effect on substantive content of the present utility model.Therefore, Every content without departing from technical solutions of the utility model, according to technical spirit of the present utility model to made for any of the above embodiments Any simple modifications, equivalents, and modifications, still fall within technical solutions of the utility model protection in the range of.

Claims (3)

1. a kind of capillary pad radiant type VM air-conditioning systems, it is characterised in that：It includes VM circulating heat pumps, heat exchanger, four-way valve I, four-way valve II, capillary pad；Described VM circulating heat pumps include hot chamber, room temperature chamber, cold chamber；

Under thermal source driving, VM circulating heat pumps are started working, the hot chamber connection heat exchanger formation heating pipe road of VM circulating heat pumps, to The annual domestic hot-water of user's supply；Tetra- interfaces of four-way valve I connect the outlet of VM circulating heat pump room temperatures chamber, VM circulating heat pumps respectively Cold chamber outlet, capillary pad inlet pipeline entrance a, capillary pad inlet pipeline entrance c；Tetra- interfaces of four-way valve II are connected respectively VM circulating heat pump room temperature chambers entrance, the cold chamber entrance of VM circulating heat pumps, capillary pad water return pipeline outlet b, capillary pad return pipe Way outlet d, so as to form the circulating water line of cooling in summer, heat supply in winter, meets user with energy demand.

2. a kind of capillary pad radiant type VM air-conditioning systems as claimed in claim 1, it is characterised in that described circulating water pipe Road includes cooling in summer pipeline and heat supply in winter pipeline；

Described cooling in summer pipeline, including the cold chamber of VM circulating heat pumps being sequentially connected by the road is exported, four-way valve I A4 connects Mouth, four-way valve I A2 interfaces, capillary pad inlet pipeline entrance a, capillary pad water return pipeline outlet d, four-way valve II B3 connect Mouth, four-way valve II B4 interfaces, VM circulating heat pump room temperature chamber entrances；

Described heat supply in winter pipeline, including the VM circulating heat pump room temperatures chamber being sequentially connected by the road is exported, four-way valve I A1 connects Mouth, four-way valve I A3 interfaces, capillary pad inlet pipeline entrance c, capillary pad water return pipeline outlet b, four-way valve II B2 connect Mouth, four-way valve II B1 interfaces, the cold chamber entrance of VM circulating heat pumps.

3. a kind of capillary pad radiant type VM air-conditioning systems as claimed in claim 1, it is characterised in that described capillary pad Hang on user's wall, top edge is apart from roof 1.1m, and lower edge is higher by floor 0.7m, and left hand edge is apart from left wall 0.8m, right hand edge Apart from right wall 0.8m.