CN204629868U - Radiation refrigeration/heat and fresh air refrigerating/hot merit energy integrated heat exchange device - Google Patents

Abstract

The utility model discloses a kind of radiation refrigeration/heat and fresh air refrigerating/hot merit energy integrated heat exchange device, this device comprises: radiant panel, medium layer, new air heat-exchange layer and the outside heat-insulation layer be arranged at except radiant panel face.The utility model structure is simple, radiation refrigeration/heat and fresh air refrigerating/thermal is got up, and reduces the complexity of legacy equipment, reduces the loss of energy, synchronously can realize radiation refrigeration/heat with fresh air refrigerating/heat to regulate indoor temperature and to improve IAQ.

Description

Radiation refrigeration/heat and fresh air refrigerating/hot merit energy integrated heat exchange device

Technical field

The utility model relates to a kind of indoor air temperature and regulates heat-exchanger rig, is specifically related to a kind of radiation refrigeration/heat and fresh air refrigerating/hot merit energy integrated heat exchange device.

Background technology

Along with the raising of the level of the productive forces, the requirement of people to quality of the life also improves gradually, and aircondition has entered into huge numbers of families gradually.But present stage various indoor air conditioner as: radiant panel refrigerating and heating combined equipment or traditional air-conditioning equipment (as: fan coil or Fresh air handling units) are all relatively independent pipe-line systems, and it exists some problem following.

If 1. adopt separately radiant panel to carry out freezing or warming oneself, and there is no new wind switch, the air quality of its indoor can be continuous worsening, the harmful substance that indoor building materials volatilizes can not get leaving, be gathered in indoor for a long time, great injury is caused to the immunocompetence of human body, even can cause serious disease.

2., if adopt separately new wind switch to carry out freezing or heating and change wind, and do not have radiant panel, the comfort level of its indoor is poor, and temperature is unbalanced, and blowing feeling is obvious.

If 3. adopt radiant panel and new wind switch to carry out freezing or warming oneself simultaneously, because it two overlaps independently system, to common use, then in the process of installing, its configuration is complicated, and cost is high, and the interior space of occupying is larger, and all have certain interference to building and interior decoration, affect the attractive in appearance of the interior space.Moreover, carry out air conditioning owing to have employed two kinds of systems simultaneously, it has two separate pipe-line systems, and energy can not be shared, and can not share Cooling and Heat Source, and energy loss is comparatively large, runs counter to environmental protection theory.

Therefore a kind of structure is simple, radiation can be realized to heat/heat-exchanger rig of radiation refrigeration/heat that the new wind of cold-peace exchanges and fresh air refrigerating/hot function integration urgently proposes. simultaneously

Utility model content

In order to solve the problems of the technologies described above, the utility model proposes a kind of radiation refrigeration/heat and fresh air refrigerating/hot merit energy integrated heat exchange device, this integrated heat exchange apparatus structure is simple, use same cold/heat source, radiation refrigeration/heat and fresh air refrigerating/heat can be realized simultaneously, occupy space little, energy loss is little, has implemented energy-conserving and environment-protective theory.

In order to achieve the above object, the technical solution of the utility model is as follows:

Radiation refrigeration/heat and fresh air refrigerating/hot merit energy integrated heat exchange device, comprising: radiant panel; Medium layer, medium layer is arranged at the up/down side of radiant panel, the end-face wall of medium layer is provided with cold/heating agent entrance and cold/heating agent outlet, and cold/heating agent entrance and cold/heating agent exports in being oppositely arranged; New air heat-exchange layer, new air heat-exchange layer is arranged at the up/down side of medium layer, the end-face wall of new air heat-exchange layer is provided with new wind entrance and the outlet of new wind, and new wind entrance and new wind exports in being oppositely arranged; Heat-insulation layer, heat-insulation layer is arranged at the outside of medium layer and/or new air heat-exchange layer.

The utility model structure is simple, radiation refrigeration/heat and fresh air refrigerating/thermal are got up, reduces the complexity of legacy equipment, reduce the loss of energy, synchronously realize radiation refrigeration/heat and fresh air refrigerating/heat, effectively can regulate indoor temperature and improve IAQ.

Workflow: by cold/heating agent from medium layer cold/heating agent entrance enters, cold/heating agent outlet exports, and energy sends from radiant panel by medium layer, with the temperature in conditioning chamber.Meanwhile, new wind enters from new wind entrance, exports from new wind outlet, can air quality effectively in conditioning chamber, moreover, because medium layer and new air heat-exchange layer exist heat exchange, therefore from the temperature in all right effectively conditioning chamber of new wind of new wind outlet output, make indoor temperature equalization.And the heat-insulation layer be arranged on outside medium layer and new air heat-exchange layer can well be incubated it.Because radiation refrigeration/heat and fresh air refrigerating/heat use same cold/heat source, can effectively fall low-energy loss, make this device energy-saving and environment friendly.

The utility model is applicable to the heating and ventilating equipment preparing Novel radiation cooling/heating and ventilation integral type, can be widely used in the floor heating of industry and civil buildings indoor and new wind devices, metope radiator and new wind devices or ceiling radiation and new wind devices.

On the basis of technique scheme, also can do following improvement:

As preferred scheme, cold/heating agent entrance and new wind export and are arranged on the same side, and cold/heating agent outlet is arranged on the same side with new wind entrance.

Adopt above-mentioned preferred scheme, ensure that the flow direction of cold/heating agent is contrary with the flow direction of new wind, make new wind in new air heat-exchange layer, carry out heat exchange with medium layer more thorough, reduce the loss of energy.

As preferred scheme, in medium layer, be provided with some deflectors and/or guiding gutter.

Adopt above-mentioned preferred scheme, reduce the flowing velocity of cold/heating agent, improve the time that cold/heating agent flows in medium layer, ensure that each portion temperature of medium layer is balanced, ensure that the heat exchange of medium layer and radiant panel and new air heat-exchange layer is thorough, reduce energy loss, improve utilization rate.

As preferred scheme, deflector comprises left deflector and right deflector, and left deflector is arranged on the left side wall of medium layer, and right deflector is arranged on the right side wall of medium layer, and left deflector and right deflector are in being crisscross arranged.

Adopt above-mentioned preferred scheme, cold/heating agent is meandering flow, more effective reduction is cold/flowing velocity of heating agent, improve the time that cold/heating agent flows in medium layer, improve and ensure that each portion temperature of medium layer is balanced, ensure that the heat exchange of medium layer and radiant panel and new air heat-exchange layer is thorough, reduce energy loss, improve utilization rate.

As preferred scheme, multiple deflector is set in parallel.

Adopt above-mentioned preferred scheme, structure is simple, and manufacture craft is simple, and ensures that cold/heating agent is more evenly distributed in medium layer, and the energy distributed is also more balanced.

As preferred scheme, the height of deflector is identical with the height of medium layer.

Adopt above-mentioned preferred scheme, ensure being evenly distributed of cold/heating agent, flow at the uniform velocity, the regional temperature equalization of medium layer.

As preferred scheme, be provided with guide plate in new air heat-exchange layer, guide plate is along new wind flow directional spreding.

Adopt above-mentioned preferred scheme, guide plate can play the effect of guiding, water conservancy diversion to new wind, and ensure that the new wind in new air heat-exchange layer flows along same direction, the flow direction of new wind is at the uniform velocity stable, not easily produces noise.

As preferred scheme, be provided with multiple guide plate in new air heat-exchange layer, multiple guide plate is set in parallel, and spacing between multiple guide plate is equal.

Adopt above-mentioned preferred scheme, new wind is divided into several region and flows by deflector, more ensures that the direction of new wind flow is unified and effectively can improve the heat exchange of new wind and medium layer.

As preferred scheme, the cross section indention of each guide plate or waveform.

Adopt above-mentioned preferred scheme, can the new wind of more effective raising in the time of new air heat-exchange layer, ensure new wind and medium layer heat exchange thorough.

Accompanying drawing explanation

The structural representation of radiation refrigeration/heat that Fig. 1 provides for the utility model embodiment and fresh air refrigerating/hot merit energy integrated heat exchange device.

The decomposing schematic representation of radiation refrigeration/heat that Fig. 2 provides for the utility model embodiment and fresh air refrigerating/hot merit energy integrated heat exchange device.

The right side view of radiation refrigeration/heat that Fig. 3 provides for the utility model embodiment and fresh air refrigerating/hot merit energy integrated heat exchange device.

The top view of radiation refrigeration/heat that Fig. 4 provides for the utility model embodiment and fresh air refrigerating/hot merit energy integrated heat exchange device.

The sectional view of radiation refrigeration/heat that Fig. 5 provides for the utility model embodiment and fresh air refrigerating/hot merit energy integrated heat exchange device.

Wherein: 1. radiant panel 2. medium layer 21. cold/heating agent entrance 22. is cold/heating agent exports the new wind of the new wind entrance 32. of the left deflector of 23. deflector 231. 232. right deflector 3. new air heat-exchange layer 31. and export 33. guide plate 34. condensation-water drain 4. heat-insulation layers.

Detailed description of the invention

Preferred embodiment of the present utility model is described in detail below in conjunction with accompanying drawing.

In order to reach the purpose of this utility model, as Figure 1-5, in the some of them embodiment of radiation refrigeration/heat and fresh air refrigerating/hot merit energy integrated heat exchange device,

Radiation refrigeration/heat and fresh air refrigerating/hot merit energy integrated heat exchange device comprise: radiant panel 1, medium layer 2, new air heat-exchange layer 3 and heat-insulation layer 4.Medium layer 4 is arranged at the below of radiant panel 1, the end-face wall of medium layer 2 is provided with cold/heating agent entrance 21 and cold/heating agent outlet 22, and cold/heating agent entrance 21 exports 22 in being oppositely arranged with cold/heating agent.New air heat-exchange layer 3 is arranged at the below of medium layer 2, the end-face wall of new air heat-exchange layer 3 is provided with new wind entrance 31 and new wind outlet 32, and new wind entrance 31 exports 32 in being oppositely arranged with new wind.Heat-insulation layer 4 is arranged at the outside of medium layer 2 and new air heat-exchange layer 3.

Cold/heating agent entrance 21 exports 32 with new wind and is arranged on the same side, cold/heating agent outlet 22 is arranged on the same side with new wind entrance 31, ensure that the flow direction of cold/heating agent is contrary with the flow direction of new wind, make new wind in new air heat-exchange layer 3, carry out heat exchange with medium layer 2 more thorough, reduce the loss of energy.

Multiple deflector 23 be arranged in parallel is provided with in medium layer 2, the height of deflector 23 is identical with the height of medium layer 2, deflector 23 comprises left deflector 231 and right deflector 232, left deflector 231 is arranged on the left side wall of medium layer 2, right deflector 232 is arranged on the right side wall of medium layer 2, and left deflector 231 and right deflector 232 are in being crisscross arranged.Its structure is simple, manufacture craft is simple, ensure that cold/heating agent is more evenly distributed in medium layer 2, the energy distributed is also more balanced, ensures the regional temperature equalization of medium layer 2, deflector 23 can make cold/heating agent be meandering flow, reduce the flowing velocity of cold/heating agent, improve the time of cold/heating agent in medium layer 2 internal flow, ensure that medium layer 2 is thorough with the heat exchange of radiant panel 1 and new air heat-exchange layer 3, reduce energy loss, improve utilization rate.

New air heat-exchange layer 3 is provided with multiple guide plate 33, and guide plate 33 is along new wind flow directional spreding, and multiple guide plate 33 is set in parallel, and spacing between multiple guide plate 33 is equal, the cross section indention of each guide plate 33 or waveform.New wind is divided into guiding, water conservancy diversion are played in several region effect to new wind by guide plate 33, and ensure that the new wind in new air heat-exchange layer flows along same direction, the flow direction of new wind is at the uniform velocity stable, not easily produces noise.The guide plate 33 of indention effectively can improve the time of new wind in new air heat-exchange layer, ensure new wind and medium layer 2 heat exchange thorough.Wherein, the cross section that new wind entrance 31 and new wind exports 32 is greater than the cross section of guide plate 33 groups, ensures that entering with output gas flow of new wind is stable, can not be sometimes fast and sometimes slow.Be provided with condensation-water drain 34 in the bottom of new air heat-exchange layer 3, ensure that the condensed water in new air heat-exchange layer 3 can be got rid of smoothly, new air heat-exchange layer 3 can not be accumulated in, and pollute.

Workflow of the present utility model is as follows:

By cold/heating agent from medium layer 2 cold/heating agent entrance 21 enters, cold/heating agent outlet 22 exports, and energy distributes from radiant panel 1 by medium layer 2, thus the temperature in conditioning chamber.Simultaneously, new wind enters from new wind entrance 31, export from new wind outlet 32, can air quality effectively in conditioning chamber, moreover, because medium layer 2 and new air heat-exchange layer 3 exist exchange heat, therefore from the temperature in all right effectively conditioning chamber of new wind of new wind outlet 32 output, make indoor temperature equalization.And the heat-insulation layer 4 be arranged on outside medium layer 2 and new air heat-exchange layer 3 can well be incubated it.

The new wind that new wind entrance 31 enters can be the new wind directly entered by the external world.Or, after the new wind that new wind outlet 32 exports is carried out dedusting through fresh air processor, removes harmful substance and increases a series of process such as the new new wind in the external world, again by it from new wind entrance 31 access to plant, this kind of structure effectively can reduce energy loss, more environmental protection.

The utility model structure is simple, easy for installation, radiation hot/cold and fresh air refrigerating/thermal is got up, and reduces the complexity of legacy equipment, uses same cold/heat source, reduces energy loss.Meanwhile, the ability of emission energy of the present utility model and the size of device have much relations, therefore the ability only needing the size of adjusting device just effectively can regulate its indoor temperature to regulate.The utility model synchronously can realize radiation refrigeration/heat with fresh air refrigerating/heat to regulate indoor temperature and to improve IAQ, it is applicable to the heating and ventilating equipment preparing Novel radiation cooling/heating and ventilation integral type, can be widely used in the floor heating of industry and civil buildings indoor and new wind devices, metope radiator etc.

In the embodiment that some are different, all the other are identical with above-mentioned embodiment, unlike, new air heat-exchange layer 3 is arranged at the top of medium layer 2, medium layer 2 is arranged at the top of radiant panel 1, then the utility model is also applicable to ceiling radiation and new wind devices.

Novel preferred embodiment, it should be pointed out that for the person of ordinary skill of the art, and under the prerequisite not departing from the utility model creation design, can also make some distortion and improvement, these all belong to protection domain of the present utility model.

Claims (9)

1. radiation refrigeration/heat and fresh air refrigerating/hot merit energy integrated heat exchange device, is characterized in that, comprising:

Radiant panel;

Medium layer: described medium layer is arranged at the up/down side of described radiant panel, the end-face wall of described medium layer is provided with cold/heating agent entrance and cold/heating agent outlet, and described cold/heating agent entrance and described cold/heating agent exports in being oppositely arranged;

New air heat-exchange layer: described new air heat-exchange layer is arranged at the up/down side of described medium layer, the end-face wall of described new air heat-exchange layer is provided with new wind entrance and the outlet of new wind, and described new wind entrance and described new wind exports in being oppositely arranged;

Heat-insulation layer: described heat-insulation layer is arranged at the outside of described medium layer and/or described new air heat-exchange layer.

2. radiation refrigeration/heat according to claim 1 and fresh air refrigerating/hot merit energy integrated heat exchange device, it is characterized in that, described cold/heating agent entrance and described new wind exports and is arranged on the same side, described cold/heating agent outlet is arranged on the same side with described new wind entrance.

3. radiation refrigeration/heat according to claim 2 and fresh air refrigerating/hot merit energy integrated heat exchange device, is characterized in that, be provided with some deflectors and/or guiding gutter in described medium layer.

4. radiation refrigeration/heat according to claim 3 and fresh air refrigerating/hot merit energy integrated heat exchange device, it is characterized in that, described deflector comprises left deflector and right deflector, described left deflector is arranged on the left side wall of described medium layer, described right deflector is arranged on the right side wall of described medium layer, and described left deflector and described right deflector are in being crisscross arranged.

5. radiation refrigeration/heat according to claim 4 and fresh air refrigerating/hot merit energy integrated heat exchange device, it is characterized in that, multiple described deflector is set in parallel.

6. radiation refrigeration/heat according to claim 4 and fresh air refrigerating/hot merit energy integrated heat exchange device, it is characterized in that, the height of described deflector is identical with the height of described medium layer.

7. radiation refrigeration/the heat according to any one of claim 1-6 and fresh air refrigerating/hot merit energy integrated heat exchange device, it is characterized in that, be provided with guide plate in described new air heat-exchange layer, described guide plate is along new wind flow directional spreding.

8. radiation refrigeration/heat according to claim 7 and fresh air refrigerating/hot merit energy integrated heat exchange device, it is characterized in that, be provided with multiple described guide plate in described new air heat-exchange layer, multiple described guide plate is set in parallel, and spacing between multiple described guide plate is equal.

9. radiation refrigeration/heat according to claim 8 and fresh air refrigerating/hot merit energy integrated heat exchange device, is characterized in that, the cross section indention of each described guide plate or waveform.