CN203869517U - Radiation heat exchanger for reinforcing radiation heat transfer - Google Patents

Abstract

The utility model discloses a radiation heat exchanger for reinforcing radiation heat transfer. The radiation heat exchanger comprises an upper half portion and a lower half portion, wherein the upper half portion comprises a ceramic hook, the lower half portion is a device for reinforcing radiation heat transfer, and the device for reinforcing radiation heat transfer comprises a cup body and a black-body radiation cavity. According to the radiation heat exchanger, a non-rigid installation mode can be provided through the ceramic hook; when the radiation heat exchanger is applied to the industry of high-temperature kilns, the radiation heat transfer rate is increased, fuel is saved, the energy consumption cost of a melting furnace is reduced, energy is saved, and consumption is reduced; meanwhile, due to the fact that the non-rigid pendant installation mode is adopted, deformability is achieved when machines make contact with each other in the production process, falling and breakage caused by contact between the machines can be avoided, the service life of the heat exchanger is prolonged, and the maintenance cost is reduced.

Description

A kind of radiation recuperator of strengthening radiant heat transfer

Technical field

The utility model belongs to melt combustion furnace technical field, relates to a kind of radiation recuperator of strengthening radiant heat transfer.

Background technology

In the non-ferrous metals industry of China, melting furnace melts material mainly with fuel mode of heating greatly.Along with energy prices rise steadily, the consuming cost of fuel proportion in processing cost is more and more higher, and follows a large amount of consumption of natural resources and a large amount of carbon emissions.New technology is constantly explored to reduce costs by correlative study mechanism and processing enterprise, and reduces the carbon emission of consumption and the burning of fuel.

Summary of the invention

For addressing the above problem, the purpose of this utility model is to provide a kind of radiation recuperator of strengthening radiant heat transfer, to reduce melting furnace cost, and reduces the carbon emission of consumption and the burning of fuel.

For achieving the above object, the technical solution of the utility model is:

Strengthen a radiation recuperator for radiant heat transfer, comprise the first half and the latter half, wherein, the first half includes a pottery hook; The latter half is to strengthen the device of radiant heat transfer, and the device of described reinforcement radiant heat transfer includes cup and black body radiation chamber; Wherein, the installation position of described radiation recuperator is described pottery hook, described radiation recuperator can be installed with suspension member or embedded mode by described ceramic hook.

Further, described black body radiation chamber is cup shape, opening down.

Further, described black body radiation chamber includes the chamber wall being formed by high radiant rate material at high temperature sintering.

The heat transmitter of the reinforcement radiant heat transfer that the utility model provides can provide a kind of nonrigid mounting means by pottery hook, is applied in the industrial increase radiant heat transfer speed of high temperature kiln, saves fuel, reduces the power consumption cost of melting furnace, energy-saving and cost-reducing.Be simultaneously non-rigid installation owing to adopting suspension member mode, there is deformability when apparatus touching in process of production, thereby dropping of can avoiding that apparatus touching causes and broken, increased the service life of heat transmitter, reduced maintenance cost.

Brief description of the drawings

Fig. 1 is structure principle chart of the present utility model.

Fig. 2 is the diagram that the utility model is installed in suspension member mode.

Fig. 3 is the diagram that the utility model is installed in embedded mode.

Fig. 4 is that the utility model is applied in the diagram on a molten aluminium stove.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

In description of the present utility model, it will be appreciated that, term " on ", orientation or the position relationship of the instruction such as D score, 'fornt', 'back', " interior ", " outward " be based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, instead of indicate or imply that the device of indication or element must have specific orientation, construct and operation with specific orientation, therefore can not be interpreted as restriction of the present utility model.

In description of the present utility model, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, and for example, can be to be fixedly connected with, connect integratedly, can be also to removably connect; It can be the connection of two element internals; Can be to be directly connected, also can indirectly be connected by intermediary, for the ordinary skill in the art, can concrete condition understand the concrete meaning of above-mentioned term in the utility model.

Please refer to shown in Fig. 1, the radiation recuperator that the utility model is strengthened radiant heat transfer includes pottery hook 11, cup 12 and black body radiation chamber 13.Wherein, the chamber wall surface in black body radiation chamber 13 adopts high radiant rate material to form through high temperature sintering.Under hot environment, radial chamber 13 inner surface material absorb heat in a large number, and are all converted to infra-red radiation ray.The one or many absorption of these infra-red radiation rays process radial chamber 13 inner surfaces and again emission process, be infrared ray by 95% above power conversion of the heat energy absorbing, and with powerful emittance form, launches to radial chamber 13 opening directions.Heat energy can be invested to the direction of specifying by the direction of adjusting radial chamber 13 openings.

The utility model radiation recuperator the first half is that hook, the latter half are to strengthen the device of radiant heat transfer, the device of wherein strengthening conducting heat is sintered into the artificial black matrix of cup shape by high radiant rate material, its installation position is hook, both can by the mode of suspension member, the radiant heat transfer downward with reinforced top be installed at roof of the furnace, and also can hook be implanted to the mode of refractory material on the refractory wall of side and install.As shown in Figure 2 and Figure 3, can install in order to suspension member or embedded mode, to bring different results of use.

Figure 4 shows that the utility model radiation recuperator is applied on a molten aluminium stove, by ceramic peg 2, radiant heat transfer device 1 is hung on to the top of molten aluminium stove 4 in suspension member mode, burner hearth bottom is heated object 6 (needing the aluminium ingot of fusing maybe to need the aluminium liquid heating up).In the time melting the fuel combustion of aluminium stove, in burner hearth, produce high-temperature flue gas, countless radiant heat transfer devices 1 absorbs a large amount of heat energy and is converted into infra-red radiation ray 5 in high-temperature flue gas, and infrared radiation 5 is transmitted energy is passed to the heated object 6 of bottom and become heat energy by radiant heat transfer mode.By using the utility model radiation recuperator, can accelerate heat energy in flue gas and, to the transmission speed of heating object and then the utilization rate of raising fuel thermal energy, realize energy-conservation effect.

The utility model radiation recuperator can provide a kind of nonrigid mounting means, is applied in the industrial increase radiant heat transfer speed of high temperature kiln, saves fuel, reduces the power consumption cost of melting furnace, energy-saving and cost-reducing.Meanwhile, be non-rigid installation owing to adopting suspension member mode, there is deformability when apparatus touching in process of production, thereby dropping of can avoiding that apparatus touching causes and broken, increase the service life of heat transmitter, reduce maintenance cost.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all any amendments of doing within spirit of the present utility model and principle, be equal to and replace and improvement etc., within all should being included in protection domain of the present utility model.

Claims (3)

1. strengthen a radiation recuperator for radiant heat transfer, comprise the first half and the latter half, it is characterized in that: the first half includes a pottery hook; The latter half is to strengthen the device of radiant heat transfer, and the device of described reinforcement radiant heat transfer includes cup and black body radiation chamber; Wherein, the installation position of described radiation recuperator is described pottery hook, described radiation recuperator can be installed with suspension member or embedded mode by described ceramic hook.

2. the radiation recuperator of strengthening as claimed in claim 1 radiant heat transfer, is characterized in that: described black body radiation chamber is cup shape, opening down.

3. the radiation recuperator of strengthening as claimed in claim 2 radiant heat transfer, is characterized in that: described black body radiation chamber includes the chamber wall being formed by high radiant rate material at high temperature sintering.