CN203893340U - High-efficiency cold-heat radiation plate - Google Patents

Abstract

The utility model discloses a high-efficiency cold-heat radiation plate which comprises a radiation plate body. Multiple parallelly-penetrating microchannels are arranged in the radiation plate body, a flow collecting pipe and a flow dispersing pipe which are communicated with the microchannels are arranged at two ends of the radiation plate body respectively, and a heat exchange structure used for increasing outer surface area of the radiation plate body is arranged on the outer surface of the radiation plate body. By arranging the parallelly-penetrating microchannels, a working medium flows into each microchannel after being uniformly dispersed through the flow dispersing pipe for heat exchange and then flows out after being collected through the flow collecting pipe, and the outer surface of the radiation plate body forms a corrugated surface to increase area of heat exchange with the outside, so that radiation heat exchange efficiency is improved greatly, the objectives of heating and cooling are achieved more quickly, and energy saving effect is realized; a splicing groove and a splicing boss which correspond to each other are arranged at the edge ends on two sides of the radiation plate body, so that convenience is brought to splicing and assembling of adjacent radiation plate bodies.

Description

High-efficiency cold-hot radiant panel

Technical field

the utility model relates to heat exchanger technical field, particularly a kind of high-efficiency cold-hot radiant panel.

Background technology

enter 21 century, along with economic fast development and people the improving constantly of grade of living, life has become people's daily necessities with confession cold-peace heating equipment.At present, the not end device of widely used heating, cooling mainly contains fan coil, air-conditioning internal machine and common radiation pipe apparatus, existing radiation pipe apparatus complex structural designs, and installation and maintenance inconvenience, and low with air radiation heat exchange efficiency.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of high-efficiency cold-hot radiant panel of easy for installation, good effect of heat exchange.

For solving the problems of the technologies described above adopted technical scheme: a kind of high-efficiency cold-hot radiant panel, comprise radiation plate body, in described radiation plate body, arrange and be provided with a plurality of parallel microchannels of running through, at described radiation plate body two ends, be respectively equipped with header and the isocon being connected with microchannel, the outer surface of described radiation plate body is provided with to increase the heat exchange structure of its external surface area.

Further, described heat exchange structure is the corrugation face that is molded over radiant panel external surface.

Further, at described radiation plate body one side acies, be provided with splicing groove, at described radiation plate body opposite side marginal end, be provided with splicing boss, by described splicing groove, cooperatively interacting to be connected with splicing boss makes adjacent radiation plate body be spliced into one.

Further, on described isocon, be provided with at least one working medium and flow into connector, on described header, be provided with at least one working medium and flow out connector.

Beneficial effect: this high-efficiency cold-hot radiant panel is by arranging the parallel microchannel of running through, working medium is carried out heat exchange through dispersed the flowing into of isocon in each microchannel, through header, converge outflow again, at the outer surface of radiation plate body, be shaped to the surface of corrugated, to increase and extraneous heat exchange area, greatly improve radiation heat transfer efficiency, reach quickly heating, cooling object, thereby reach energy-saving effect; Radiation plate body both sides of the edge end also arranges respectively corresponding splicing groove and splicing boss simultaneously, facilitates the splicing assembling of adjacent radiation plate body.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is described further;

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

Fig. 2 is the side view of the utility model embodiment;

Fig. 3 is the top view of the utility model embodiment;

Fig. 4 is the generalized section of A-A in Fig. 3.

The specific embodiment

Referring to figs. 1 through Fig. 4, a kind of high-efficiency cold-hot radiant panel of the utility model, comprise radiation plate body 10, in the interior arrangement of radiation plate body 10, be provided with a plurality of parallel microchannels of running through 11, at radiation plate body 10 two ends, be respectively equipped with header 20 and the isocon 30 being connected with microchannel 11, the outer surface of radiation plate body 10 is provided with to increase the heat exchange structure of its external surface area.

Wherein, on isocon 30, be provided with at least one working medium and flow into connector 31, on header 20, be provided with at least one working medium and flow out connector 21, working medium flows into connector 31 through working medium and flows in isocon 30, under the effect of isocon 30, dispersed flowing in each microchannel 11 carried out heat exchange, and the working medium after heat exchange flows out to header 20, then flows out connector 21 outflows through working medium.Working medium flows out connector 21 and working medium inflow connector 31 is all provided with threaded ends, to facilitate with the pipeline of transferring working medium, is connected.

As preferably, heat exchange structure is the corrugation face 14 that is arranged on the outer surface of radiation plate body 10, certainly, also can be arranged to heaving of the sea or rough similar surfaces, the contact area of main Enhanced Radiation Reduced Blast plate body 10 and outside air, because the outer surface of radiation plate body 10 is arranged to corrugation face 14, the contact heat-exchanging area of Enhanced Radiation Reduced Blast plate body 10 and outside air, can improve radiation heat transfer efficiency greatly.

In order to facilitate assembling combination between adjacent radiation plate body 10, at each radiation plate body 10 dual-side acies, corresponding splicing groove 12 and splicing boss 13 are set respectively, by splicing groove 12, cooperatively interacting to be connected with splicing boss 13 to make adjacent radiation plate body 10 be spliced into one, convenient to disassembly.

By reference to the accompanying drawings embodiment of the present utility model is explained in detail above, but the utility model is not limited to above-mentioned embodiment, in the ken possessing at described technical field those of ordinary skill, can also under the prerequisite that does not depart from the utility model aim, make various variations.

Claims (4)

1. a high-efficiency cold-hot radiant panel, it is characterized in that: comprise radiation plate body, in described radiation plate body, arrange and be provided with a plurality of parallel microchannels of running through, at described radiation plate body two ends, be respectively equipped with header and the isocon being connected with microchannel, the outer surface of described radiation plate body is provided with to increase the heat exchange structure of its external surface area.

2. high-efficiency cold-hot radiant panel according to claim 1, is characterized in that: described heat exchange structure is the corrugation face that is molded over radiant panel external surface.

3. high-efficiency cold-hot radiant panel according to claim 1, it is characterized in that: at described radiation plate body one side acies, be provided with splicing groove, at described radiation plate body opposite side marginal end, be provided with splicing boss, by described splicing groove, cooperatively interacting to be connected with splicing boss makes adjacent radiation plate body be spliced into one.

4. high-efficiency cold-hot radiant panel according to claim 1, is characterized in that: on described isocon, be provided with at least one working medium and flow into connector, be provided with at least one working medium and flow out connector on described header.