CN201025432Y - A radiant end heat exchanger - Google Patents

Abstract

The utility model discloses a radiation terminal heat exchanger connected with a heating or refrigeration system of peripherals. The utility model is characterized in that: the exchanger comprises a radiation layer, a water division and collection plastic pipe network and a protective layer; the water division and collection plastic pipe network is arranged in the radiation layer and the protection layer, and the three of which are bonded to a whole; two end ports are arranged at the diagonal direction of the whole, the input end and the output end of the water division and collection plastic pipe network extend out of the end ports. The utility has the advantages of simple structure, uniform heat dissipation, no noise, little space occupation, remarkable energy-saving effect and convenient in popularizing and implementing.

Description

A kind of radiant end heat exchanger

Technical field

The utility model relates to a kind of end heat exchanger, particularly a kind of radiant end heat exchanger that is connected with peripheral hardware heating or refrigeration system.

Background technology

At present, what heating of most rooms or refrigeration mainly adopted is traditional air-conditioning, and the use of air-conditioning exists that energy consumption height, noise are big, the temperature difference of wind pushing temperature and room temperature is big, cause indoor temperature inhomogeneous, in air-conditioned room, stay of a specified duration, the air conditioner comprehensive disease that also can produce similar cold symptoms such as dizziness, headache that can be very uncomfortable, serious; Simultaneously, when operation of air conditioner, because dust and bacterium that the long-term use in air channel, air port is grown easily cause the propagation of bacteriums such as Legionella, the disastrous effect that causes environmental pollution and be detrimental to health.In recent years, continuous development along with Building Trade in China, the development of energy-saving heat preserving goods and popularization are more and more deep, promoted rapidly as low-temperature hot water floor heating, heating cable, electrothermal film technology etc., but usually quantities big, take up room, the maintenance cost height, it is inhomogeneous to dispel the heat, energy resource consumption is big, thereby causes novel energy-saving heat preserving product promotion application to be restricted.Appearance along with country's " renewable resource method ", technology such as earth source heat pump obtain paying attention to and using, low grade heat energy or cold energy are provided, need combine with the high end prod of a kind of heat radiation or refrigerating efficiency especially, up to the present, also do not have a kind of can be used to dispel the heat and can be used to freeze with radiation mode realize that the end prod of regulating temperature occurs.

The utility model content

In order to solve defective of the prior art, the purpose of this utility model is to provide a kind of and realizes adjustment with radiation mode heat radiation or refrigeration, and is simple in structure, do not take up space radiating efficiency height, the radiant end heat exchanger that can save energy.

To achieve these goals; the utility model adopts following technical scheme: a kind of radiant end heat exchanger; its characteristics are: it is made of radiating layer, diversity ability of swimming plastic tube network and protective layer one; described diversity ability of swimming plastic tube network is located between described radiating layer and the described protective layer; be tightly connected around described radiating layer and the described protective layer; its both sides the angular direction is left two ports respectively, the input and the output of described diversity ability of swimming plastic tube network are stretched out by described port respectively.

Above-mentioned radiating layer is selected metallic plate or metal forming for use.

Above-mentioned diversity ability of swimming plastic tube network combines by being responsible for arm, and wherein, arm is the many tubules that the isoplanar was arranged side by side and had at interval the space; The person in charge is provided with 2, lay respectively at described many tubule two ends and with its isoplanar vertical connection, 2 person in charges' port is respectively the input and the output of this diversity ability of swimming plastic tube network.

The above-mentioned person in charge and arm all adopt in polypropylene random copolymer pipe or refractory polyethylene pipe or the Polybutylene Pipe any; Wherein, being responsible for caliber D is 12-40mm, and branch diameter D is 3-16mm.

Above-mentioned protective layer has three kinds of designs; a kind of protective layer is made as heat insulating thermal preserving board; heat insulating thermal preserving board can be selected in expansion benzene plate or the extrusion molding benzene plate any for use; be respectively equipped with a plurality of grooves at expansion benzene plate and extrusion molding benzene plate upper surface; many tubules of diversity ability of swimming plastic tube network are embedded in respectively in a plurality of grooves of this expansion benzene plate or extrusion molding benzene plate; radiating layer is attached at diversity ability of swimming plastic tube network upper surface, its stickup face is closely sturdy with the upper surface of expansion benzene plate or extrusion molding benzene plate again.

Second kind of protective layer is made as the adiabatic heat-insulation film, and the adiabatic heat-insulation film can be selected polyethylene film or rubber-plastic sponge for use; Be attached at the lower surface of diversity ability of swimming plastic tube network, the radiating layer of its upper surface is selected metal forming for use.

The third protective layer is selected the material identical with radiating layer for use, with in metallic plate or the metal forming any; The metallic plate that above-mentioned radiating layer adopted comprises aluminium sheet or copper coin, and metal forming comprises aluminium foil or Copper Foil.

Be responsible for ports for two that stretch out at the radiating layer that is bonded as one and place, diagonal angle, protective layer both sides, charge input terminal is communicated with the heating system heating agent of peripheral hardware or the output of refrigerating system coolant, is responsible for output and is communicated with the output of this heating system heating agent or refrigerating system coolant; The heating system heating agent of peripheral hardware or refrigerating system coolant be for circulating water or working fluid, and this working fluid adopts propane diols, ethylene glycol or is added with in the circulating water of oxygen scavenger any.

The utility model adopts as above technical scheme, its beneficial effect is as follows: 1, the utility model adopts the mode that folder is established diversity ability of swimming plastic tube network between radiating layer and protective layer, constitute a kind of novel radiant end heat exchanger, wherein, diversity ability of swimming plastic tube network combines by being responsible for arm, the person in charge is provided with 2, and its caliber D is between 12-40mm; Arm is parallel many tubules that are arranged side by side and the space is arranged at interval, and the caliber D of every tubule is between 3-16mm; Two persons in charge are horizontally distributed in the two ends and the perpendicular connection of many tubules; Radiating layer sticks in diversity ability of swimming plastic tube network upper surface, and protective layer is pasted on diversity ability of swimming plastic tube network lower surface, and protective layer and radiating layer inner face are bonded as one diversity ability of swimming plastic tube network; Diversity ability of swimming plastic tube network feeds refrigerant or heating agent or other fluid according to demand by the porch of being responsible for, the branch road of forming through many tubules imports the outlet of being responsible for, return connected heating system or refrigeration system again, after system's heating or cooling, input to this radiant end heat exchanger by being responsible for arrival end again, move in circles; The arrival end of being responsible for and the heating system heating agent or the refrigerating system coolant output of peripheral hardware join, and the person in charge's the port of export is connected with the heating system heating agent or the refrigerating system coolant input of peripheral hardware, and its connected mode adopts hot melt or mechanical system to connect.By outer heat radiation of radiating layer one side direction or cold scattering, and the heat or the cold transmission of the isolated opposite side of thermal insulating warm-keeping layer, if need the two sides to conduct heat or during refrigeration, only need protective layer used radiating layer is substituted and can realize; It is simple in structure, current are unobstructed, and in the ordinary course of things, the system water supply temperature is at 28-55 ℃ during heating, and the system water supply temperature promptly can satisfy the requirement of room temperature at 10-19 ℃ during refrigeration; No matter be winter heating, or freeze summer that hot gas within doors or cold air scatter evenly, noiseless, comfort level height, energy-saving effect is remarkable, can reduce the pollution of air again, can substitute traditional air-conditioning fully.2, radiating layer available metal plate of the present utility model or metal forming, protective layer can be used heat insulating thermal preserving board, as expansion benzene plate, extrusion molding benzene plate or heat-preservation cotton etc., unidirectional heat transfer; Also can use metallic plate identical or metal forming bidirectional cooling with radiating layer; radiating layer and protective layer Material Selection can satisfy the various demands of building structure and house fitting-up; especially in surface of wall, ceiling, floor, furniture or ornament materials, can adopt to press from both sides between metal forming and the insulation film and establish the radiant end heat exchanger that diversity ability of swimming plastic tube network is made; its product has certain pliability, and thickness is little not to take up space, it is convenient to use flexibly, install.When 3, radiating layer and protective layer adopt board-like material, have a plurality of grooves at its plate upper surface, many tubules are embedded in respectively wherein; If when adopting metal forming and adiabatic heat-insulation film, metal forming and adiabatic heat-insulation film tightly are coated on diversity ability of swimming plastic tube network wherein; This structure helps protecting the tube wall of diversity ability of swimming plastic tube network not to be damaged, freedom from repairs, and long service life, radiating efficiency and heat radiation uniformity all can be improved.4, radiant end heat exchanger of the present utility model is the purpose that realizes regulating temperature with radiation mode heat radiation or refrigeration, can select for use a plurality of radiant end heat exchangers to be used in combination according to the room-size and the demand of regulating temperature, compound mode can be that to connect also can be in parallel; Have wide range of applications, can be installed on surface of wall, ceiling, the floor, also can brightly pretend the blanket that dispels the heat, concealed installation combines with decorative cover.

Description of drawings

Fig. 1 is the profile of the utility model embodiment one

Fig. 2 is the profile of the utility model embodiment two

Fig. 3 is the profile of the utility model embodiment three

Fig. 4 is a diversity ability of swimming plastic tube network structural representation of the present utility model

Fig. 5 installs and uses schematic diagram for the utility model

The specific embodiment

The utility model is combined by radiating layer, diversity ability of swimming plastic tube network and protective layer, and wherein, radiating layer is selected metallic plate or metal forming for use, and metallic plate is aluminium sheet or copper coin, and metal forming is aluminium foil or Copper Foil, and the thickness of aluminium foil or Copper Foil is between 0.01-2mm; Protective layer is selected heat insulating thermal preserving board or adiabatic heat-insulation film for use; Protective layer can also substitute with radiating layer; Diversity ability of swimming plastic tube network combines by being responsible for arm, and its material is selected in atactic copolymerized polypropene (PP-R) pipe or refractory polyethylene (PE-RT) pipe or polybutene (PB) pipe any for use; Wherein, arm is the many tubules that the isoplanar was arranged side by side and had at interval the space, and the caliber D of every tubule is 3-16mm; The person in charge is provided with 2, and its every caliber D is 12-40mm, and two persons in charge lay respectively at the arm two ends and the arm isoplanar is vertical is connected with it; Radiating layer sticks in the upper surface of diversity ability of swimming plastic tube network, diversity ability of swimming plastic tube network lower surface is positioned on the protective layer, weld or be tightly connected around radiating layer and the protective layer and be one, the person in charge's 2 root ports are exposed at two ends respectively, wherein, one port is an arrival end, and the heating system heating agent or the refrigerating system coolant output of arrival end and peripheral hardware join, and the another port is the port of export; The port of export is connected with the heating system heating agent or the refrigerating system coolant input of peripheral hardware, and its connected mode adopts hot melt or mechanical system.

Protective layer has three kinds of designs; a kind of protective layer is made as heat insulating thermal preserving board; heat insulating thermal preserving board can be selected expansion benzene plate or extrusion molding benzene plate for use; its thickness is 10-40mm; be respectively equipped with a plurality of grooves at expansion benzene plate and extrusion molding benzene plate upper surface; many tubules of diversity ability of swimming plastic tube network are embedded in respectively in a plurality of grooves of this expansion benzene plate or extrusion molding benzene plate, radiating layer are attached at diversity ability of swimming plastic tube network upper surface again, and its stickup face is closely sturdy with the upper surface of expansion benzene plate or extrusion molding benzene plate.

Protective layer is made as the adiabatic heat-insulation film in second kind, and the adiabatic heat-insulation film can be selected polyethylene film or rubber-plastic sponge for use; Be attached at the lower surface of diversity ability of swimming plastic tube network.

The third protective layer is selected the material identical with radiating layer for use, with in metallic plate or the metal forming any.

The heating system heating agent of peripheral hardware or refrigerating system coolant are for circulating water or working fluid, this working fluid adopts propane diols, ethylene glycol or is added with in the circulating water of oxygen scavenger any, when being used for heating, feed hot water in the diversity ability of swimming plastic tube network, the heat transmission of isolated diversity ability of swimming plastic tube network one side of this thermal insulating warm-keeping layer, guarantee that heat is all by the radiant panel Homogeneouslly-radiating, improved effectively in the prior art that the heat radiation of air-conditioning or caliduct is inhomogeneous, energy consumption is big, the defective that comfort level is not high, energy-saving effect significantly improves; In like manner, when being used to freeze, feed cold water in the diversity ability of swimming plastic tube network, isolated its pipe network opposite side cold of heat-insulating material transmits, and guarantees that cold all distributes by the radiant panel radiation, realizes the purpose of cooling refrigeration.

At some special occasions, protective layer can substitute with radiating layer, and it is identical with the radiating layer material that its material is selected for use, as aluminium or copper material etc.; Promptly folder is established diversity ability of swimming plastic tube network between two-layer radiating layer, can brightly be loaded on indoor bidirectional radiation, and after diversity ability of swimming plastic tube network fed hot water, heat was dispelled the heat respectively by its two sides; If feed cold water, cold can improve the speed that the room heats or freezes by the cold scattering respectively of its two sides, improves comfort level.

Enter the heating agent of radiant end heat exchanger of the present utility model or refrigerant for circulating water or working fluid, this working fluid can adopt propane diols or ethylene glycol or be added with in the circulating water of oxygen scavenger any.Heating agent or refrigerant body enter by being responsible for arrival end after heating system or refrigeration system processing, flow through arm, are collected to another root again and are responsible for, through this person in charge's port of export outflow; Two person in charge's ports that expose, the port of export of arrival end and heating system heating agent or refrigerating system coolant joins, the port of export is connected with the arrival end of heating system heating agent or refrigerating system coolant, and the heating system heating agent or the refrigerating system coolant of diversity ability of swimming plastic tube network and peripheral hardware constitute a closed circuit.

Usually during heating, the system water supply temperature is 28-55 °, and the system water supply temperature is 10-19 ° during refrigeration, can satisfy the requirement of room temperature.

Below contrast accompanying drawing, the technical solution of the utility model be further described by specific embodiment:

Embodiment one:

As Fig. 1, shown in Figure 4, the utility model is provided with radiating layer 1, diversity ability of swimming plastic tube network 2, thermal insulating warm-keeping layer 3, diversity ability of swimming plastic tube network 2 is embedded in the groove of thermal insulating warm-keeping layer 3 upper surfaces, radiating layer 1 sticks in the upper surface of diversity ability of swimming plastic tube network 2, and radiating layer 1 and thermal insulating warm-keeping layer 3 are bonding all around or welding is fixing; Wherein, radiating layer 1 adopts copper coin, and its thickness can be determined according to needs are installed; Thermal insulating warm-keeping layer 3 is selected expansion benzene plate for use, and thickness is 30mm; Diversity ability of swimming plastic tube network 2 by be responsible for 21,21 ' and arm 22 combine, its material is selected atactic copolymerized polypropene (PP-R) pipe for use, wherein, arm is that the isoplanar is arranged side by side, length is identical and the many tubules in space is arranged at interval, the caliber D of every tubule is 16mm, and many tubules are embedded in respectively in a plurality of grooves of expansion benzene plate; The person in charge 21,21 ' lays respectively at many tubule two ends and is connected with its isoplanar is vertical, and the person in charge 21,21 ' caliber D is 40mm; Copper coin and expansion benzene plate surface bonding, bonding or the welded seal of periphery connects as one, 2 person in charges' port 211,211 ' is exposed at two ends respectively, port 211 is the arrival end of this diversity ability of swimming plastic tube network 2, port 211 ' is the port of export, and heating agent or refrigerant medium are entered by arrival end 211 and be responsible for 21, after too much the root tubule is shunted, import to be responsible for 21 ' again, to flow out through being responsible for 21 ' port 211 '; Radiant end heat exchanger of the present utility model two by diversity ability of swimming plastic tube network 2 are exposed port 211,211 ' and are adopted the heating system heating agent of hot melt or mechanical system and peripheral hardware or refrigerating system coolant to be communicated with and constitute the closed circuit that medium flow, realization heating or the purpose of freezing.

Embodiment two:

As Fig. 1, shown in Figure 4, radiating layer 1 adopts aluminium sheet, and its thickness can be determined according to needs are installed; Thermal insulating warm-keeping layer 3 is selected extrusion molding benzene plate for use, and thickness is 30mm, and this extrusion molding benzene plate upper surface has a plurality of grooves; Diversity ability of swimming plastic tube network 2 by be responsible for 21,21 ' and arm 22 combine, its material is selected atactic copolymerized polypropene (PP-R) pipe for use, wherein, arm is that the isoplanar is arranged side by side, length is identical and the many tubules in space is arranged at interval, the caliber D of every tubule is 16mm, and many tubules are embedded in respectively in a plurality of grooves of extrusion molding benzene plate; The person in charge 21,21 ' lays respectively at many tubule two ends and is connected with its isoplanar is vertical, and the person in charge 21,21 ' caliber D is 40mm; Aluminium sheet and extrusion molding benzene plate surface bonding, the bonding or welded seal of periphery connects as one, and 2 person in charges' port 211,211 ' is exposed at two ends respectively, and main tube end mouth structure and effect do not repeat them here with embodiment one.

Embodiment three:

As Fig. 2, shown in Figure 4, radiating layer 1 of the present utility model is selected aluminium foil for use, and thickness is 0.2mm, and thermal insulating warm-keeping layer 3 is selected polyethylene film for use, and thickness is 10mm; Diversity ability of swimming plastic tube network 2 is located between aluminium foil and the polyethylene film, and aluminium foil sticks in the upper surface of diversity ability of swimming plastic tube network 2, and polyethylene film is bonded in the lower surface of diversity ability of swimming plastic tube network 2, and binding agent adopts conventional adhesive; Diversity ability of swimming plastic tube network 2 by be responsible for 21,21 ' and arm 22 sweat solderings form, its material is selected refractory polyethylene (PE-RT) pipe for use, wherein, arm 22 is for the isoplanar is arranged side by side, length is identical and the many tubules in space are arranged at interval, and the caliber D of every tubule is 3mm; The person in charge is provided with 2, lay respectively at arm 22 two ends and with its vertical connection of arm 22 isoplanars, this person in charge's caliber D is 20mm; In the centre, tight bond and periphery are welded as a whole with refractory polyethylene (PE-RT) pipe clamp for aluminium foil and polyethylene film, and 2 person in charges' port is exposed at two ends respectively; Main tube end mouth structure and effect do not repeat them here with embodiment one.

Embodiment four:

As Fig. 2, shown in Figure 4, radiating layer 1 of the present utility model is selected aluminium foil for use, and thickness is 0.2mm, and thermal insulating warm-keeping layer 3 is selected rubber-plastic sponge for use, and thickness is 10mm; Diversity ability of swimming plastic tube network 2 is located between aluminium foil and the rubber-plastic sponge, and aluminium foil sticks in the upper surface of diversity ability of swimming plastic tube network 2, and rubber-plastic sponge is bonded in the lower surface of diversity ability of swimming plastic tube network 2, and binding agent adopts conventional adhesive; Diversity ability of swimming plastic tube network 2 by be responsible for 21,21 ' and arm 22 sweat solderings form, its material is selected refractory polyethylene (PE-RT) pipe for use, wherein, arm 22 is for the isoplanar is arranged side by side, length is identical and the many tubules in space are arranged at interval, and the caliber D of every tubule is 3mm; The person in charge is provided with 2, lay respectively at arm 22 two ends and with its vertical connection of arm 22 isoplanars, this person in charge's caliber D is 20mm; Aluminium foil and rubber-plastic sponge in the centre, are one with conventional adhesive tight bond with refractory polyethylene (PE-RT) pipe clamp, and 2 person in charges' port is exposed at two ends respectively; Main tube end mouth structure and effect do not repeat them here with embodiment one.

Embodiment five:

As shown in Figure 3, Figure 4, radiating layer 1 of the present utility model is used aluminium foil, protective layer 3 is also selected aluminium foil for use, diversity ability of swimming plastics webmaster 2 by be responsible for 21,21 ' and arm 22 sweat solderings form, its material is selected polybutene (PB) pipe for use, wherein, arm 22 is arranged side by side and has at interval the many tubules in space for the isoplanar, and its caliber D of every is 10mm; The person in charge is provided with 2, lay respectively at arm 22 two ends and with its vertical connection of arm 22 isoplanars, this person in charge's caliber D is 32mm; Folder is established diversity ability of swimming plastic tube network between two aluminium foils, with conventional adhesive the three is bonded as one, and 2 person in charges' port is exposed at two ends respectively; Main tube end mouth structure and effect do not repeat them here with embodiment one.

Embodiment six:

As shown in Figure 3, Figure 4, radiating layer 1 of the present utility model is used aluminium sheet, protective layer 3 is also selected aluminium sheet for use, diversity ability of swimming plastics webmaster 2 by be responsible for 21,21 ' and arm 22 sweat solderings form, its material is selected polybutene (PB) pipe for use, wherein, arm 22 is arranged side by side and has at interval the many tubules in space for the isoplanar, and its caliber D of every is 10mm; The person in charge is provided with 2, lay respectively at arm 22 two ends and with its vertical connection of arm 22 isoplanars, this person in charge's caliber D is 32mm; Folder is established diversity ability of swimming plastic tube network between two blocks of aluminium sheets, with conventional adhesive the three is bonded as one, and 2 person in charges' port is exposed at two ends respectively; Main tube end mouth structure and effect do not repeat them here with embodiment one.

Product of the present utility model is not limited only to above-mentioned specific embodiment, and in like manner, radiating layer 1 also can cooperate installation with aluminium foil with protective layer 3 with aluminium sheet, all can realize bidirectional cooling purpose of the present utility model.

The radiant end heat exchanger of moulding in the foregoing description, its volume size setting can be decided according to customer demand, adopts single independently radiant end heat exchanger and heating system heating agent or refrigerating system coolant ways of connecting to use usually; And at large stadium or have when using in the house of specific (special) requirements, can also adopt the compound mode use that several radiant end heat exchangers series connection backs are connected with heating system heating agent or refrigerating system coolant.

As shown in Figure 5, person in charge's port that 3 radiant end heat exchanger A1, A2, A3 both sides are exposed is communicated with the peripheral hardware pipeline respectively, the peripheral hardware pipeline is connected with input, the output of peripheral hardware heating system heating agent or refrigerating system coolant respectively, and the quantity of radiant end heat exchanger serial connection can increase and decrease as required.

Last kind of mode can also adopt parallel way, and the quantity of used radiant end heat exchanger is determined according to actual needs, will be connected with the heating system heating agent or the refrigerating system coolant of peripheral hardware by the peripheral hardware pipeline after several radiant end heat exchanger parallel connections.

Claims (10)

1. radiant end heat exchanger; it is characterized in that: it is made of radiating layer, diversity ability of swimming plastic tube network and protective layer one; described diversity ability of swimming plastic tube network is located between described radiating layer and the described protective layer; be tightly connected around described radiating layer and the described protective layer; its both sides the angular direction is left two ports respectively, the input and the output of described diversity ability of swimming plastic tube network are stretched out by described port respectively.

2. radiant end heat exchanger as claimed in claim 1 is characterized in that: described diversity ability of swimming plastic tube network combines by being responsible for arm, and wherein, arm is the many tubules that the isoplanar was arranged side by side and had at interval the space; The person in charge is provided with 2, lay respectively at described many tubule two ends and with its isoplanar vertical connection, described 2 person in charges' port is respectively the input and the output of described diversity ability of swimming plastic tube network.

3. as radiant end heat exchanger as described in the claim 2, it is characterized in that: the described person in charge and arm be in polypropylene random copolymer pipe or refractory polyethylene pipe or the Polybutylene Pipe any.

4. as radiant end heat exchanger as described in the claim 3, it is characterized in that: described person in charge's caliber D is 12-40mm, and described branch diameter D is 3-16mm.

5. as radiant end heat exchanger as described in the claim 4, it is characterized in that: described protective layer is a heat insulating thermal preserving board, and its upper surface is provided with a plurality of grooves, and described many tubules are embedded in respectively in a plurality of grooves of this heat insulating thermal preserving board.

6. as radiant end heat exchanger as described in the claim 5, it is characterized in that: described heat insulating thermal preserving board is expansion benzene plate or extrusion molding benzene plate.

7. as radiant end heat exchanger as described in the claim 4, it is characterized in that: described protective layer is the adiabatic heat-insulation film.

8. radiant end heat exchanger as claimed in claim 7 is characterized in that: described adiabatic heat-insulation film is polyethylene film or rubber-plastic sponge.

9. radiation appliance as claimed in claim 4 is characterized in that: described protective layer is a radiating layer.

10. as radiant end heat exchanger as described in claim 2 or 9, it is characterized in that: described radiating layer be in metallic plate or the metal forming any.

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