CN204779771U - Thermal -insulated good radio frequency coaxial cable wicking stove of thermal insulation performance - Google Patents

Abstract

Thermal -insulated good radio frequency coaxial cable wicking stove of thermal insulation performance includes the stove courage, places the furnace body of stove courage, be equipped with interior insulation construction between stove courage and the furnace body, the outside cover of furnace body is equipped with outer thermal -insulated structure, outer thermal -insulated structure overcoat is equipped with the dustcoat, interior insulation construction including locate the furnace body all around with the glass fibre aluminium foil cloth layer of bottom to and locate the aerogel carpet veneer on the fine aluminium foil cloth layer of glass, wherein the aluminium foil on the fine aluminium foil cloth layer of glass faces to be placed to stove courage direction. The utility model has the advantages of save electric energy, safe in utilization, small, with low costs.

Description

The radio frequency coaxial-cable tin immersion furnace that heat preservation and insulation is good

[technical field]

The utility model relates to field of cable technology, the tin immersion furnace that particularly a kind of heat preservation and insulation for radio frequency coaxial-cable is good.

[background technology]

In prior art, the heat insulation effect of tin immersion furnace is undesirable, and heat is easy to scatter and disappear, and is unfavorable for the theory realizing energy-conserving and environment-protective; In addition, existing tin immersion furnace realizes heat-insulation and heat-preservation by arranging glass fibre cotton in body of heater, although this way is simple, but the effect of heat insulation due to glass fibre is not fine, so the thickness that default effect of heat insulation just must increase glass fibre will be reached, this just makes the external form volume of equipment increase, thus increases equipment cost, and the installing space of equipment.The heat insulating effect of glass fibre is bad, and the envrionment temperature around body of heater peripheral temperature and body of heater can be made very high, there is the danger that high temperature is scalded, adds the work load of operator.

[summary of the invention]

The purpose of this utility model is to overcome the deficiencies in the prior art, provide the radio frequency coaxial-cable tin immersion furnace that a kind of heat preservation and insulation is good, electric energy can not only be saved and prevent heat loss, and the outer temperature of tin immersion furnace can be avoided to raise, increase operator's work load.

For solving the problems of the technologies described above, the utility model have employed following technical proposals:

The radio frequency coaxial-cable tin immersion furnace that heat preservation and insulation is good, comprise flue, place the body of heater of described flue, internal insulation structure is provided with between described flue and body of heater, the outside of described body of heater is arranged with outer heat insulation structural, outer cover is arranged with outside described outer heat insulation structural, described internal insulation structure comprises the fiberglass aluminum foil layer of cloth being layed in body of heater surrounding and bottom, and is located at the aerogel carpet veneer on fiberglass aluminum foil cloth, and the aluminium foil surface of wherein said fiberglass aluminum foil layer of cloth is placed towards flue direction.

Preferably, be also provided with the pure aluminium silicate making aerogel blanket be closely attached on furnace gall periphery between described body of heater surrounding and fiberglass aluminum foil layer of cloth to make pottery heat insulation foam.

Preferably, described outer heat insulation structural comprises two-layer fiberglass aluminum foil layer of cloth, and is wrapped in the pure aluminium silicate pottery heat insulation foam layer between two-layer fiberglass aluminum foil layer of cloth.

Preferably, the thickness of the pure aluminium silicate pottery heat insulation foam layer in described outer heat insulation structural is 20mm.

Preferably, the bottom of described flue is provided with heat-generating pipe, the aerogel carpet veneer in internal insulation structure is placed with the ingot pig of fixing above-mentioned heat-generating pipe.

Preferably, described outer cover is made up of stainless steel.

Compared with prior art, the beneficial effects of the utility model are:

1, save electric energy, the energy consumption of every day declines 8%-10% relatively;

2, equipment peripheral temperature is below 60 °, avoids the accident that operator occur to scald because equipment peripheral temperature is too high to occur;

3, reduce the envrionment temperature around tinning furnace, improve the Working environment of operator;

4, the overall volume of reduction equipment, reduces the manufacturing cost of equipment, saves installation space.

[accompanying drawing explanation]

Fig. 1 is the cross-sectional view of the utility model embodiment;

Fig. 2 is the structural representation of internal insulation structure in the utility model embodiment;

Fig. 3 is the structural representation of the utility model embodiment China and foreign countries heat insulation structural.

[specific embodiment]

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

As shown in Figure 1, the radio frequency coaxial-cable tin immersion furnace that heat preservation and insulation described in the utility model is good, comprise flue 1, place the body of heater 2 of described flue 1, internal insulation structure 3 is provided with between described flue 1 and body of heater 2, the outside of described body of heater 2 is arranged with outer heat insulation structural 4, is arranged with outer cover 5, as shown in Figure 2 outside described outer heat insulation structural 4, described internal insulation structure 3 comprises the fiberglass aluminum foil layer of cloth 31 being located at body of heater 2 surrounding and bottom, and is located at the aerogel carpet veneer 32 on fiberglass aluminum foil layer of cloth 31.Because the aluminium foil surface in fiberglass aluminum foil layer of cloth 31 can reflecting heat, experiment shows, the better heat preservation when the aluminium foil surface of described fiberglass aluminum foil layer of cloth 31 is placed towards flue 1 direction, the energy consumption of average every day can decline 8%-10%, is beneficial to the theory realizing energy-conserving and environment-protective.The temperature of middle device outer surface 100 ° compared to existing technology, now, the temperature of device outer surface can drop to 80 °-90 °.

In addition, in the present embodiment, the bottom of flue 1 is provided with heat-generating pipe, the aerogel carpet veneer 32 in internal insulation structure 3 is placed with the ingot pig of fixing above-mentioned heat-generating pipe.Also be provided with pure aluminium silicate between body of heater 2 surrounding and fiberglass aluminum foil layer of cloth 31 to make pottery heat insulation foam layer 33, to guarantee that aerogel carpet veneer 32 is closely attached on flue 1 periphery and does not loosen.

As shown in Figure 3, described outer heat insulation structural 4 comprises two-layer fiberglass aluminum foil layer of cloth 41, and the pure aluminium silicate pottery heat insulation foam layer 42 be wrapped between two-layer fiberglass aluminum foil layer of cloth 41, when outer heat insulation structural 4 adopts above-mentioned materials, the temperature of device outer surface can drop to less than 60 °, general at about 50 °, effect of heat insulation is better.

The thickness of the pure aluminium silicate pottery heat insulation foam layer 42 in outer heat insulation structural 4 is preferably 20mm, can realize above-mentioned heat insulation effect, reduce equipment volume again, good looking appearance.

When internal insulation structure 3 is installed, flue 1 is taken out from body of heater 2, has cut fiberglass aluminum foil layer of cloth 31 according to body of heater 2 size, and by its smooth surrounding and bottom being layered on body of heater 2, wherein, the aluminium foil surface of fiberglass aluminum foil layer of cloth 31 is towards flue 1; Be laid in smooth for aerogel carpet veneer 32 on fiberglass aluminum foil layer of cloth 31 subsequently, the ingot pig laying heat-generating pipe bottom flue 1 is placed on aerogel carpet veneer 32, then is put back in body of heater by flue 1.In order to prevent aerogel carpet veneer 32 loose or dislocation, pure aluminium silicate pottery heat insulation foam layer 33 can be filled in from body of heater 2 side, peripheral to ensure that aerogel carpet veneer 32 is closely attached on flue 1 all the time.When outer heat insulation structural 4 is installed, fiberglass aluminum foil layer of cloth 41 is wrapped up the pure aluminium silicate pottery heat insulation foam layer 42 that 20mm is thick, the size with reference to tin immersion furnace is sewed it up, and is set in the outside of body of heater 2, with the outer cover 5 be made up of stainless steel, outer heat insulation structural 4 is fixed subsequently, come off to prevent outer heat insulation structural 4.

From material, aerogel blanket is one of the most advanced in the world Novel energy saving thermal insulation material, is also the ideal heat preserving and insulating material in the fields such as equipment.Because the thermal conductivity of aerogel blanket is extremely low, can be applicable to-200 DEG C of heat insulatings to 1000 DEG C of temperature ranges, its heat-proof quality is 3 ~ 8 times of traditional material, reaches equal effect of heat insulation, compares the very thin thickness needed for traditional material.The radiation of fiberglass aluminum foil cloth energy usable reflection heat, plays good effect of heat insulation.

From structure, the utility model adopts novel heat insulation lagging material aerogel carpet veneer and fiberglass aluminum foil layer of cloth, in conjunction with the constructional feature of radio frequency coaxial-cable tin immersion furnace, internal insulation structure 3 is provided with between flue 1 and body of heater 2, outer heat insulation structural 4 is provided with between body of heater 2 and outer cover 5, its reasonable in design, effective minimizing heat energy loss, according to statistics, the energy consumption of average every day can decline 8%-10%, and make device outer surface temperature below 60 °, avoid because of device outer surface temperature too high scald operator, also reduce the envrionment temperature around body of heater, improve the Working environment of operator.

Although reference above embodiment describes the utility model in detail, but be it will be apparent to one skilled in the art that by the disclosure, when not departing from principle of the present utility model and the scope of described claim restriction, can make a variety of changes the utility model or revise.Therefore, the detailed description of disclosure embodiment is only used for explaining, instead of is used for limiting the utility model, but is defined by the subject-matter of the claims the scope of protection.

Claims (6)

1. the radio frequency coaxial-cable tin immersion furnace that heat preservation and insulation is good, it is characterized in that, comprise flue, place the body of heater of described flue, internal insulation structure is provided with between described flue and body of heater, the outside of described body of heater is arranged with outer heat insulation structural, is arranged with outer cover outside described outer heat insulation structural, and described internal insulation structure comprises the fiberglass aluminum foil layer of cloth being layed in body of heater surrounding and bottom, and the aerogel layer be located on fiberglass aluminum foil cloth, the aluminium foil surface of wherein said fiberglass aluminum foil layer of cloth is placed towards flue direction.

2. the radio frequency coaxial-cable tin immersion furnace that heat preservation and insulation according to claim 1 is good, is characterized in that, is also provided with the pure aluminium silicate making aerogel blanket layer be closely attached on furnace gall periphery and makes pottery heat insulation foam layer between described body of heater surrounding and fiberglass aluminum foil layer of cloth.

3. the radio frequency coaxial-cable tin immersion furnace that heat preservation and insulation according to claim 1 and 2 is good, is characterized in that, described outer heat insulation structural comprises two-layer fiberglass aluminum foil layer of cloth, and is wrapped in the pure aluminium silicate pottery heat insulation foam layer between two-layer fiberglass aluminum foil layer of cloth.

4. the radio frequency coaxial-cable tin immersion furnace that heat preservation and insulation according to claim 3 is good, is characterized in that, the thickness of the pure aluminium silicate pottery heat insulation foam layer in described outer heat insulation structural is 20mm.

5. the radio frequency coaxial-cable tin immersion furnace that heat preservation and insulation according to claim 4 is good, is characterized in that, the bottom of described flue is provided with heat-generating pipe, the aerogel carpet veneer in internal insulation structure is placed with the ingot pig of fixing above-mentioned heat-generating pipe.

6. the radio frequency coaxial-cable tin immersion furnace that heat preservation and insulation according to claim 5 is good, is characterized in that, described outer cover is made up of stainless steel.