CN204254795U - A kind of radiation air-conditioning device - Google Patents

Abstract

The utility model provides a kind of radiation air-conditioning device, comprises hot and cold water generator, pipe arrangement, heat carrier, connector and many caves pipe; Described water inlet pipe arrangement and described water outlet pipe arrangement offer and the nozzle diameter of described many caves pipe and the suitable interface of number; Described many caves pipe parallel arranged, one end correspondence of described many caves pipe connects the interface on described water inlet pipe arrangement, and other end correspondence connects the interface on described water outlet pipe arrangement; Between adjacent described many caves pipe, described heat carrier is installed; Described heat carrier comprises the multitube tectosome of at least two connected by connector, and described multitube tectosome is connected and composed side by side by the hollow heat pipe of at least two, and described multitube tectosome is provided with some protrusion.Hollow heat pipe is provided with some protrusion.The utility model can the surface area of Enhanced Radiation Reduced Blast heat release to realize cooling/heating effect faster, well can also maintain temperature constant state simultaneously.

Description

A kind of radiation air-conditioning device

Technical field

The utility model relates to cooling/warming system field, specifically be a kind of radiation air-conditioning device.

Background technology

Existing radiant heating system is by allowing temperature range flow through heat carrier in heating system at the liquid (running water, afterheat hot water, thermal water, underground cold water, boiler water, rainwater etc.) of 2 ~ 100 °, the heat of liquid in the mode of emitting electromagnetic ripple (radiation), realizes the raising of temperature or the object of reduction in air by heat carrier surface.Existing heat carrier is mostly inorganic superconducting hot plate, metal fin heat pipe and aluminium alloy heat carrier, want the cooling/warm effect playing maximum efficiency, the region that heat conduction covers just must be taken into account while keeping good transfer of heat, and existing most of heat carrier is due to the restriction of manufacture craft, be difficult to accomplish to expand as much as possible the radiation areas area of cooling/warm, therefore, be necessary to provide a kind of radiation air-conditioning device that can expand again radiation cooling/warm regional extent while keeping good transfer of heat effect.

Utility model content

Technical problem to be solved in the utility model is: provide a kind of radiation air-conditioning device that can expand radiation cooling/warm regional extent keeping good transfer of heat effect while.

In order to solve the problems of the technologies described above, the technical solution adopted in the utility model is:

A kind of radiation air-conditioning device, comprises hot and cold water generator, pipe arrangement, heat carrier, connector and many caves pipe;

Described hot and cold water generator is provided with delivery port and water inlet, and described pipe arrangement comprises water outlet pipe arrangement and water inlet pipe arrangement, and described water outlet pipe arrangement connects the delivery port of hot and cold water generator, and described water inlet pipe arrangement connects the water inlet of hot and cold water generator; Described water inlet pipe arrangement and described water outlet pipe arrangement offer and the nozzle diameter of described many caves pipe and the suitable interface of number; Described many caves pipe parallel arranged, one end correspondence of described many caves pipe connects the interface on described water inlet pipe arrangement, and other end correspondence connects the interface on described water outlet pipe arrangement;

Between adjacent described many caves pipe, described heat carrier is installed; Described heat carrier comprises the multitube tectosome of at least two connected by connector, and described multitube tectosome is connected and composed side by side by the hollow heat pipe of at least two, and described multitube tectosome is provided with some protrusion.

Further, described heat carrier and described many caves pipe are aluminum alloy material, and described pipe arrangement is resin material.

Further, described protrusion is aluminum alloy flake, and described aluminum alloy flake is spaced on the tube wall of the hollow heat pipe in described multitube tectosome.

Further, described multitube tectosome adopts extrusion to form protrusion.

Further, the described hollow heat pipe in described multitube tectosome and described protrusion are formed in one.

Further, described connector is with multitube tectosome described in welding manner level connection joint.

Further, described connector is with multitube tectosome described in mechanical fit system level connection joint.

Further, described connector is with multitube tectosome described in bonding way level connection joint.

Further, the outer wall area that some thrusts that described multitube tectosome is provided with form described multitube tectosome is more than three times or three times of inner wall area.

Further, the delivery port that described hot and cold water generator is provided with and water inlet are each two, described pipe arrangement comprises water outlet pipe arrangement and the water inlet pipe arrangement of two, and described water outlet pipe arrangement connects the delivery port of hot and cold water generator, and described water inlet pipe arrangement connects the water inlet of hot and cold water generator.

The beneficial effects of the utility model are: be different from existing radiation air-conditioning device and adopt common heat pipe to carry out heat conduction, the external surface area of heat pipe is very limited, radiation heat release/refrigeration surface area restricted and impact heating/refrigeration deficiency, the utility model adopts and connects and composes multitube tectosome side by side by least two hollow heat pipes, form the heat carrier of large-scale connection after connecting multitube tectosome with connector again, and described multitube tectosome is provided with some protrusion.On multitube tectosome some protrusion the radiation surface area that greatly can increase heat carrier is set, help a large amount of heat energy to carry out heat transfer faster, make indoor temperature reach setting value faster, improve the heating/refrigerating efficiency of radiation air-conditioning device.Further, connector is adopted to connect multitube tectosome, form the large-scale heat carrier be communicated with, by keeping specific spacing distance, what the electromagnetic wave that multitube tectosome gives off can be made to distribute in atmosphere is more even, avoid occurring local overcooling or overheated situation, remain that indoor are in a uniform temperature constant state.

Accompanying drawing explanation

Fig. 1 is the structure chart of a kind of radiation air-conditioning device of the utility model one embodiment;

Fig. 2 is the structure chart of multitube tectosome in a kind of radiation air-conditioning device of the utility model one embodiment;

Fig. 3 is the structure chart of heat carrier in a kind of radiation air-conditioning device of the utility model one embodiment.

Label declaration:

10, hot and cold water generator; 20, pipe arrangement; 30, heat carrier; 40, connector; 50, many caves pipe;

60, multitube tectosome; 11, water inlet; 12, delivery port; 21, water inlet pipe arrangement;

22, water outlet pipe arrangement; 61, hollow heat pipe; 62, protrusion.

Detailed description of the invention

By describing technology contents of the present utility model, structural feature in detail, realized object and effect, accompanying drawing is coordinated to be explained in detail below in conjunction with embodiment.

The design of the utility model most critical is: the multitube tectosome that the heat carrier in radiation air-conditioning device is connected to form side by side by multiple hollow heat pipe is connected to form by connector, and multitube tectosome is provided with some protrusion, the surface area of Enhanced Radiation Reduced Blast heat release, to realize cooling/heating effect faster, well can also maintain temperature constant state simultaneously.

Refer to Fig. 1 to Fig. 3, the utility model provides a kind of radiation air-conditioning device, comprises hot and cold water generator 10, pipe arrangement 20, heat carrier 30, connector 40 and many caves pipe 50;

Described hot and cold water generator 10 is provided with delivery port 12 and water inlet 11, described pipe arrangement 20 comprises water outlet pipe arrangement 20 and water inlet pipe arrangement 21, described water outlet pipe arrangement 22 connects the delivery port 12 of hot and cold water generator 10, and described water inlet pipe arrangement 21 connects the water inlet 11 of hot and cold water generator 10; Described water inlet pipe arrangement 21 and described water outlet pipe arrangement 22 offer and the nozzle diameter of described many caves pipe 50 and the suitable interface of number; Described many caves pipe 50 parallel arranged, one end correspondence of described many caves pipe 50 connects the interface on described water inlet pipe arrangement 21, and other end correspondence connects the interface on described water outlet pipe arrangement 22;

Between adjacent described many caves pipe 50, described heat carrier 30 is installed; Described heat carrier 30 comprises the multitube tectosome 60 of at least two connected by connector 40, and described multitube tectosome 60 is connected and composed side by side by the hollow heat pipe 61 of at least two, and described multitube tectosome 60 is provided with some protrusion 62.

From foregoing description, the beneficial effects of the utility model are: adopt the heat carrier 30 of large-scale connection to carry out radiant heating/refrigeration, described heat carrier 30 consists of connector 40 by between several multitube tectosomes 60, and described multitube tectosome 60 is provided with some protrusion 62.On multitube tectosome 60 some protrusion 62 the radiation surface area that greatly can increase heat carrier 30 is set, help a large amount of heat energy to carry out heat transfer faster, make indoor temperature reach setting value faster, improve the heating/refrigerating efficiency of radiation air-conditioning device.Further, connector 40 is adopted to connect adjacent multitube tectosome 60, form the large-scale heat carrier 30 be communicated with, specific spacing distance is kept between multitube tectosome 60, what the electromagnetic wave that hollow heat pipe 61 gives off can be made to distribute in atmosphere is more even, avoid occurring local overcooling or overheated situation, in holding chamber, be in a uniform temperature constant state.

It should be noted that, the outside of described multitube tectosome 60 is provided with protrusion 62, can Enhanced Radiation Reduced Blast surface area, the setting of preferred multitube tectosome 60 upper process part 62 makes the exterior surface area of multitube tectosome 60 reach more than 3 times of multitube tectosome 60 inner wall area.And by connector 40, adjacent multitube tectosome 60 is coupled together, can make to remain in spacing identical as far as possible between multitube tectosome 60, the electromagnetic wave discharged is distributed more uniformly, further make indoor reach uniform temperature constant state.

Further, described heat carrier 30 and described many caves pipe 50 are aluminum alloy material, and described pipe arrangement 20 is resin material.Because the hot water temperature exported in hot and cold water generator 10 is higher, the pipe arrangement 20 of resin material can be resisted the hot water of higher temperature and there will not be situations such as being out of shape or breaking, increases the service life of pipe arrangement 20.The material of heat carrier 30 and many caves pipe 50 aluminium alloy is then the heat conductivility and heat energy transmission efficiency that have used aluminium alloy good, can be good at the electromagnetic wave of radiation with heat energy.

Further, described protrusion 62 is aluminum alloy flake, and described aluminum alloy flake is spaced on the tube wall of described hollow heat pipe 61.

Aluminium alloy has good thermal conductivity and the thermal efficiency, better helps a large amount of heat energy to carry out heat transfer, accelerates the heating/refrigerating speed of radiation air-conditioning device.Described multitube tectosome 60 is spaced and is provided with aluminum alloy flake, the type body of thin slice has maximized surface area, greatly increase the surface area of radiation outside described multitube tectosome 60, the outer surface of described multitube tectosome 60 is made to amass 2 ~ 5 times that at least reach interior surface area, the increase of radiation surface area directly improves the heat transfer speed of described heat carrier 30, and the heating/refrigeration of described radiation air-conditioning device improves greatly.

Further, described multitube tectosome 60 adopts extrusion to form protrusion 62.

It should be noted that, in the utility model, adopt extrusion to be formed in the described hollow heat pipe 61 of the some protrusion 62 of surface formation, the thickness of preferred described hollow heat pipe 61 is 3 ~ 50mm, width is 50 ~ 300mm.The described multitube tectosome 60 adopting extrusion to make has certain voltage endurance capability, more firmly, not fragile, can ensure all to there will not be the damages such as distortion in long-term use procedure or collision, has the advantage extending described heat carrier 30 life-span.

Further, the described hollow heat pipe 61 in described multitube tectosome 60 is formed in one with described protrusion 62.

The hollow heat pipe 61 forming described multitube tectosome 60 in the utility model can also adopt integrated mode with the described protrusion 62 on its surface, the hollow heat pipe 61 adopting one-body molded mode to make forms multitube tectosome 60, not only decrease its procedure of processing, and not easily there is deformation, there is certain steadiness.

Further, described connector 40 is with multitube tectosome 60 described in welding manner level connection joint.

Further, described connector 40 is with multitube tectosome 60 described in mechanical fit system level connection joint.

Further, described connector 40 is with multitube tectosome 60 described in bonding way level connection joint.

Connector 40 adopts welding manner, mechanical fit system or bonding way to connect adjacent described multitube tectosome 60, ensure that the firm performance of entirety of described heat carrier 30, can ensure more lasting use.

Further, the outer wall area that some thrusts that described multitube tectosome 60 is provided with form described multitube tectosome 60 is more than three times or three times of inner wall area.The outer wall area that on described multitube tectosome 60, some thrusts are formed is at least more than three times or three times of inner wall area, fully the heat energy on described hollow heat pipe 61 can be radiate as soon as possible by outer wall area, the speed that the increase of radiation surface area directly causes heat energy to transmit, make indoor temperature reach default temperature as soon as possible, improve the operating efficiency of described radiation air-conditioning device.

Further, the delivery port 12 that described hot and cold water generator 10 is provided with and water inlet 11 are each two, described pipe arrangement 20 comprises water outlet pipe arrangement 22 and the water inlet pipe arrangement 21 of two, described water outlet pipe arrangement 22 connects the delivery port 12 of hot and cold water generator 10, and described water inlet pipe arrangement 21 connects the water inlet 11 of hot and cold water generator 10.

When use occasion is larger, adopt two radiation areas of independently heating/freeze separately of two delivery ports 12 of described hot and cold water generator 10 and water inlet 11 correspondence to run to carry out heating/freezing simultaneously, the operation of two individual heating/refrigeration radiation areas is independent of each other mutually, make the double lifting of heating/refrigerating efficiency, better serve people.And it is preferred, described radiation air-conditioning device can also be provided with remote controller, can be controlled by remote controller to described radiation air-conditioning device, selects two heating/refrigerated areas to operate according to actual conditions simultaneously, still select an operation, can demand be coordinated very well to regulate and control flexibly.

It is below the utility model specific embodiment

Described radiation air-conditioning device is arranged on indoor, can be infill wall wall type, also can be directly be placed in wall limit, and a described radiation air-conditioning device just can effectively configure to be applied flexibly in 1 ~ 6 room.When needs heat, open described radiation air-conditioning device, and by the prior design temperature of remote controller and the heating area needing unlatching, the hot water that described radiation air-conditioning device controls 30 ~ 60 ° according to the temperature preset is derived from hot and cold water generator 10, and hot water flows into the aluminium alloy many caves pipe 50 be attached thereto successively through gummy pipe arrangement 20.Whole aluminium alloy heat carrier 30 is flowed through by the hot water of aluminium alloy many caves pipe 50, the temperature of aluminium alloy heat carrier 30 is made to increase, utilize the heat conductivility that aluminium alloy is excellent, the heat energy of hot water is passed to the aluminum alloy flake described aluminium alloy heat carrier 30 being spaced setting.By being greater than of being formed of aluminum alloy flake on described aluminium alloy heat carrier 30, aluminium alloy heat carrier 30 inner wall area 3-5 radiation surface area is doubly as much as possible to be launched heat (radiation), indoor temperature is made to reach default temperature, and by connector 40, the employing electric welding of adjacent two multitube tectosomes 60 is connected, form the large-scale heat carrier 30 with the connection of equispaced, what the heat energy that hollow heat carrier 30 gives off can be made more to distribute is more even, better makes indoor remain on uniform temperature constant state.Cold-warm water generator in described radiation air-conditioning transposition can the continuous hot water that flows into from water inlet 11 of circulating-heating, and being obviously better than stream mode in energy-conservation heats.In the process of refrigeration, then adopt the cold water of 5 ~ 20 ° to flow through described heat pipe and realize indoor cooling.

In sum, a kind of radiation air-conditioning device that the utility model provides, can not only increase the radiation surface area of heat carrier 30 greatly, helps a large amount of heat energy to carry out heat transfer faster, make indoor temperature reach setting value faster, improve the heating/refrigerating efficiency of radiation air-conditioning device; And specific spacing distance can be kept between aluminium alloy multi-pipe tectosome 60, what the electromagnetic wave that hollow heat pipe 61 gives off can be made to distribute in atmosphere is more even, there will not be local overcooling or overheated situation, in holding chamber, be in a uniform temperature constant state.Further, adopt the hydro-thermal resisting middle high-temperature and not easily deformation fracture that the pipe arrangement 20 of gummy material can be good, extend the service life of pipe arrangement 20; Many caves pipe 50 and heat carrier 30 adopt good thermal conductivity and the aluminum alloy material of the thermal efficiency, a large amount of heat energy better can be helped to carry out heat transfer, jointly realize the heating/refrigeration of described radiation air-conditioning device.

The foregoing is only embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model description and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (10)

1. a radiation air-conditioning device, is characterized in that, comprises hot and cold water generator, pipe arrangement, heat carrier, connector and many caves pipe;

Described hot and cold water generator is provided with delivery port and water inlet, and described pipe arrangement comprises water outlet pipe arrangement and water inlet pipe arrangement, and described water outlet pipe arrangement connects the delivery port of hot and cold water generator, and described water inlet pipe arrangement connects the water inlet of hot and cold water generator; Described water inlet pipe arrangement and described water outlet pipe arrangement offer and the nozzle diameter of described many caves pipe and the suitable interface of number; Described many caves pipe parallel arranged, one end correspondence of described many caves pipe connects the interface on described water inlet pipe arrangement, and other end correspondence connects the interface on described water outlet pipe arrangement;

Between adjacent described many caves pipe, described heat carrier is installed; Described heat carrier comprises the multitube tectosome of at least two connected by connector, and described multitube tectosome is connected and composed side by side by the hollow heat pipe of at least two, and described multitube tectosome is provided with some protrusion.

2. a kind of radiation air-conditioning device according to claim 1, is characterized in that, described heat carrier and described many caves pipe are aluminum alloy material, and described pipe arrangement is resin material.

3. a kind of radiation air-conditioning device according to claim 1, is characterized in that, described protrusion is aluminum alloy flake, and described aluminum alloy flake is spaced on the tube wall of the hollow tube in described multitube tectosome.

4. a kind of radiation air-conditioning device according to claim 1, is characterized in that, described multitube tectosome adopts extrusion to form protrusion.

5. a kind of radiation air-conditioning device according to claim 1, is characterized in that, the described hollow heat pipe in described multitube tectosome and described protrusion are formed in one.

6. a kind of radiation air-conditioning device according to claim 1, is characterized in that, described connector is with multitube tectosome described in welding manner level connection joint.

7. a kind of radiation air-conditioning device according to claim 1, is characterized in that, described connector is with multitube tectosome described in mechanical fit system level connection joint.

8. a kind of radiation air-conditioning device according to claim 1, is characterized in that, described connector is with multitube tectosome described in bonding way level connection joint.

9. a kind of radiation air-conditioning device according to claim 1, is characterized in that, the outer wall area that some thrusts that described multitube tectosome is provided with form described multitube tectosome is more than three times or three times of inner wall area.

10. a kind of radiation air-conditioning device according to claim 1, it is characterized in that, the delivery port that described hot and cold water generator is provided with and water inlet are each two, described pipe arrangement comprises water outlet pipe arrangement and the water inlet pipe arrangement of two, described water outlet pipe arrangement connects the delivery port of hot and cold water generator, and described water inlet pipe arrangement connects the water inlet of hot and cold water generator.