CN2793616Y - Heat supplier of high-efficient energy-saving radiative board - Google Patents

Abstract

The utility model relates to a heat supplier which is particularly applied to the industry of dispersed heating the civil construction, particularly a heat supplier of a high-efficient energy-saving radiative board using light oil or gas as an energy resource. In order to achieve the aim, the utility model has the technical scheme that the utility model comprises a combustion chamber and an exhaust blower, wherein the combustion chamber is connected with an air inlet of a heating pipe and an air outlet of the heating pipe is connected with a heat exchanger of a heat pipe. The heating pipe is arranged on the front of the radiative board, and the heat exchanger of the heat pipe is connected with the exhaust blower by an exhaust outlet. The utility model has the advantages of efficient energy saving, cost reduction, small occupying space, good comfortability and high security and two kinds of fuel are adopted.

Description

Energy-efficient radiant panel heating device

Technical field

The utility model relates to a kind of heating installation, relates in particular to a kind of industry and civil buildings that are applied to the distributing heating, and adopting light oil or combustion gas is the energy-efficient radiant panel heating device of the energy.

Background technology

Traditional central heating modes such as boiler room need certain scale, and need the special messenger to come operational management, for the building that disperses, can not enjoy this heating system.This heating system is operation in a single day, and all can not cease fire whole winter; According to the outside air temperature situation, the ability of adjusting operating load is also relatively poor.

The heat transmission has three kinds of i.e. conduction of mode, convection current, heat radiation.The loss minimum that only in transmittance process, produces wherein with the heat of radiation mode transmission.The traditional heating mode is mainly by conduction and convection heat transfer' heat-transfer by convection building to be carried out heating.This heating system thermic load height during heating, load coefficient in the winter time is big, and because thermograde is big, the phenomenon of air serious up and down layering formation upper heat and lower cold; The cold air that slits such as door and window are permeated has also increased the demand of thermic load.This heating system heating agent by trench in the outdoor heat supply network inlet chamber, makes heated with ambient air by the radiator preheating by the boiler room again, and by cross-ventilation heating heating object, the indirect energy consumption of heating is bigger.

The electric radiation plate heating system of Chu Xianing in recent years, though solved those shortcomings of traditional heating system, because the generating efficiency in power plant only is 35%; Add in the electric heating transfer process, generate an electromagnetic field, consume a part of electric energy, electric conversion efficiency is 95%.Therefore the overall efficiency of this heating system is that 33.25% (35% * 95%=33.25%), efficient is low, and heating power consumption is big, and not only the user does not afford to do, and does not meet energy conservation and environment protection yet.

The utility model content

Provide a kind of energy-efficient radiant panel heating device for solving the problems of the technologies described above, its purpose is under any environment, solve to use the limitation of traditional approach and there are many problems in aspects such as energy waste is serious, inefficiency, operating cost height, installation and maintenance complexity, and by a built-in heat exchange of heat pipe recovery waste heat, total thermal efficiency is improved greatly, reach more than 90%, reach energy-efficient, operating cost is extremely low.

For reaching the above-mentioned purpose the technical solution of the utility model: energy-efficient radiant panel heating device, comprise combustion chamber, exhaust blower, the combustion chamber is connected with the air inlet of heating tube, the gas outlet of heating tube is connected with heat exchange of heat pipe, heating tube is arranged on the place ahead of radiant panel, and heat exchange of heat pipe is connected with exhaust blower by exhaust outlet.

Described radiant panel is general steel plate or aluminium alloy reflecting plate; The surface of general steel plate scribbles the radiation agent, and the back side of general steel plate is provided with heat-insulating fiberboard.

1/2 periphery of described heating tube embeds in the radiation board slot.

Described heat exchange of heat pipe top is provided with air inlet, and the bottom is provided with the tube connector that is communicated with the combustion chamber, is provided with heat exchanger tube in the inside of heat exchange of heat pipe.

Described combustion chamber is connected with combustor, and controller is connected with pressure sensor, temperature sensor, and pressure sensor is sent to controller to pressure signal, and controller is controlled the exhaust blower exhaust air rate thus; Controller receives the temperature signal of temperature sensor, controls the combustor quantity combusted thus.

Advantage of the present utility model and effect:

1, energy-efficient

In the winter time, the application of radiation principle utilizes far infrared only to heat useful body of wall, ground, equipment, human body etc., needn't make the energy loss minimum by the interior whole air of heating space, and reduce because the heat loss that cross-ventilation is taken away as far as possible; System adopts special heat exchange of heat pipe that flue gas is carried out waste heat recovery, has reduced the flue gas exhaust gas temperature, has improved the heating thermal efficiency, and is higher more than 30% than the traditional approach heating thermal efficiency.

2, reduce cost

Can adopt the intermitting heating mode according to the heating need of work, unlatching or shutdown system are to save the energy at any time, can not cease fire whole winter in the operation back of needn't lighting a fire as traditional warming installations such as boiler.In the winter time as heat, even also must the minimum operation holding temperature (general 5 ℃) of employing need not warm oneself the time, make energy waste very big with hot water (or vapour) mode.The native system Automatic Control, can keep constant indoor temperature (setting arbitrarily) automatically at 12-28 ℃, and system's actual energy consumption running time can be according to technology and staff's action need not timing operation, than traditional warming installation minimizing maintenance and repair and staff such as boilers.

3, occupy little space

This system is arranged on roof or sidewall, and shared useful space is minimum, and install, lifting is convenient, flexibly, can save a lot of usage spaces.

4, can adopt double fuel

The background radiation heating system both also flammable light oil of combustible gas, the energy is selected convenient, flexible.

5, comfortableness

Reduce hot gas come-up layer.Indoor occupant, object, floor heating are even, and no hot blast brushes dust, dust, clean health.Can recover constant temperature rapidly, direct warm staff, floor, operation thing and operator after opening and closing door and window.Can help to promote personnel's blood circulation in the radiation areas, improve health useful and harmless.

6, security

Flames of anger heating, 100% safety opens and closes.Zero pressure system, the negative pressure operation.Used chamber's outer air is combustion-supporting.System provides multinomial mutual inspection safety measure for oneself, guarantees 100% safe operation: (1) is externally regulated for the automatic zero-pressure of combustion gas; (2) the vacuum pretrigger detects; (3) heat-generating system negative pressure operation; (4) heating space flames of anger heat supply; (5) close fully emptying of back.

Description of drawings

Fig. 1 is a primary structure schematic diagram of the present utility model;

Fig. 2 be in the utility model accompanying drawing 1 A-A to the profile of general steel plate radiant panel;

Fig. 3 be in the utility model accompanying drawing 1 A-A to the profile of aluminium alloy reflecting plate radiant panel;

Heat exchange of heat pipe structural representation in Fig. 4 the utility model.

Among the figure 1, heat exchange of heat pipe; 2, exhaust blower; 3, combustion chamber; 4, combustor; 5, radiant panel; 6, heating tube; 7, controller; 8, pressure sensor; 9, temperature sensor; 10, heat-insulating fiberboard; 11, general steel plate; 12, aluminium alloy reflecting plate; 13, air inlet; 14, exhaust outlet; 15, gas outlet; 16, heat exchanger tube; 17, tube connector; 18, air inlet.

The specific embodiment

The utility model is described in further detail below in conjunction with accompanying drawing.

Energy-efficient radiant panel heating device, comprise combustion chamber 3, exhaust blower 2, combustion chamber 3 is connected with the air inlet 18 of heating tube 6, and the gas outlet 15 of heating tube 6 is connected with heat exchange of heat pipe 1, heating tube 6 is arranged on the place ahead of radiant panel 5, and heat exchange of heat pipe 1 is connected with exhaust blower 2 by exhaust outlet 14.

Described radiant panel 5 is general steel plate 11 or aluminium alloy reflecting plate 12; The surface of general steel plate scribbles the radiation agent, and the back side of general steel plate is provided with heat-insulating fiberboard 10.

1/2 periphery of described heating tube 6 embeds in radiant panel 5 grooves.

Described heat exchange of heat pipe 1 top is provided with air inlet 13, and the bottom is provided with the tube connector 17 that is communicated with combustion chamber 3, is provided with heat exchanger tube 16 in the inside of heat exchange of heat pipe 1.

Described combustion chamber 3 is provided with pressure sensor 8, pressure sensor 8 is sent to controller 7 to pressure signal, controller 7 receives the temperature signal of temperature sensor 9, controller 7 transmits control signal according to pressure signal and temperature signal, respectively rotation speed of fan and air demand is carried out adjusting control automatically.

Operation principle of the present utility model: the high-temperature flue gas that combustion chamber 3 produces enters heating tube 6, by heating tube 6 to indoor release heat.Hot gas enters into heat exchange of heat pipe 1 from the gas outlet 15 of heating tube 6, comes the heat exchanger tube 16 of heat hot heat exchange of heat pipe 1, makes that the working fluid in the heat exchanger tube 16 evaporates, and produces hot-fluid, thereby has heated the air inlet (low temperature) that is entered by air inlet 13.Exhaust outlet 14 blower fan that runs in is discharged heat exchanger tube exhaust after heat exchange; By the air inlet of air inlet 13, after heating, enter into the combustion chamber by tube connector 17.

Heating tube diameter 50-100mm.Heating tube radical 4-10 root.The radiation cooling plate size is determined according to heating tube radical, diameter and length, heating tube spacing 250mm-300mm.

Claims (5)

1, energy-efficient radiant panel heating device, comprise combustion chamber (3), exhaust blower (2), it is characterized in that combustion chamber (3) is connected with the air inlet (18) of heating tube (6), the gas outlet (15) of heating tube (6) is connected with heat exchange of heat pipe (1), heating tube (6) is arranged on the place ahead of radiant panel (5), and heat exchange of heat pipe (1) is connected with exhaust blower (2) by exhaust outlet (14).

2, energy-efficient radiant panel heating device according to claim 1 is characterized in that described radiant panel (5) is general steel plate (11) or aluminium alloy reflecting plate (12); The surface of general steel plate (11) scribbles the radiation agent, and the back side of general steel plate (11) is provided with heat-insulating fiberboard (10).

3, energy-efficient radiant panel heating device according to claim 1 and 2 is characterized in that 1/2 periphery of described heating tube (6) embeds in radiant panel (5) groove.

4, energy-efficient radiant panel heating device according to claim 1, it is characterized in that described heat exchange of heat pipe (1) top is provided with air inlet (13), the bottom is provided with the tube connector (17) that is communicated with combustion chamber (3), is provided with heat exchanger tube (16) in the inside of heat exchange of heat pipe (1).

5, energy-efficient radiant panel heating device according to claim 1, it is characterized in that described combustion chamber (3) is connected with combustor (4), controller (7) is connected with pressure sensor (8), temperature sensor (9), and pressure sensor (8) is sent to controller (7) to pressure signal; Controller (7) receives the temperature signal of temperature sensor (9).

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