CN204787819U - Radio frequency coaxial cable fritting furnace insulation construction that insulates against heat - Google Patents

Abstract

Radio frequency coaxial cable fritting furnace insulation construction that insulates against heat is including the fine aluminium foil cloth of the two -layer glass of locating the fritting furnace outside to and the aluminium silicate cooking vessel heat of being wrapped up between the fine aluminium foil cloth of two -layer glass is cotton, the cotton thickness of aluminium silicate cooking vessel heat is 20mm -25mm. The utility model has the advantages of save electric energy, safe in utilization, small, with low costs.

Description

Radio frequency coaxial-cable sintering furnace thermal insulation structure

[technical field]

The utility model relates to field of cable technology, particularly a kind of radio frequency coaxial-cable sintering furnace thermal insulation structure.

[background technology]

Existing sintering furnace mainly through arranging glass fibre cotton to realize heat-insulation and heat-preservation outside 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 increase equipment cost, and the installing space of equipment.In addition, the effect of heat insulation of glass fibre is bad, and the environment temperature around body of heater peripheral temperature and body of heater can be made again very high, there is the danger that high temperature is scalded, adds the work load of operating personnel.

[summary of the invention]

The purpose of this utility model is to overcome the deficiencies in the prior art, provides a kind of structure simple, reasonable in design, and the radio frequency coaxial-cable sintering furnace thermal insulation structure that heat-proof quality is good.

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

Radio frequency coaxial-cable sintering furnace thermal insulation structure, comprises the two-layer fiberglass aluminum foil cloth be located at outside sintering furnace, and is wrapped in the alumina silicate pottery heat insulation foam between two-layer fiberglass aluminum foil cloth, and the thickness of described alumina silicate pottery heat insulation foam is 20mm-25mm.

Preferably, the thickness of described alumina silicate pottery heat insulation foam is 20mm-24mm.

Preferably, the thickness of described alumina silicate pottery heat insulation foam is 20mm.

Preferably, the thickness of described fiberglass aluminum foil cloth is 0.4mm.

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 operating personnel occur to scald because equipment peripheral temperature is too high to occur;

3, reduce the environment temperature around sintering furnace, improve the working environment of operating personnel;

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

[accompanying drawing explanation]

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

[specific embodiment]

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

As shown in Figure 1, radio frequency coaxial-cable sintering furnace thermal insulation structure described in the utility model, comprise the two-layer fiberglass aluminum foil cloth 1 be located at outside sintering furnace, and be wrapped in the alumina silicate pottery heat insulation foam 2 between two-layer fiberglass aluminum foil cloth 1, the thickness of described alumina silicate pottery heat insulation foam is 20mm-25mm.

The utility model adopts fiberglass aluminum foil cloth 1 and alumina silicate pottery heat insulation foam 2, and in conjunction with the design feature of radio frequency coaxial-cable sintering furnace self, 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 operating personnel, also reduce the environment temperature around body of heater, improve the working environment of operating personnel.

The thickness of alumina silicate pottery heat insulation foam can be 20mm-24mm, and in the present embodiment, the thickness of alumina silicate pottery heat insulation foam 2 is preferably 20mm, can realize above-mentioned heat insulation effect, reduce equipment volume again, good looking appearance.

During use, first cut fiberglass aluminum foil cloth 1 according to the size of sintering furnace, wherein the thickness of fiberglass aluminum foil cloth is 0.4mm, wraps up the thick alumina silicate pottery heat insulation foam 2 of 20mm with the fiberglass aluminum foil cloth 1 cut, forming both sides is fiberglass aluminum foil cloth 1, and centre is the thermal insulation structure of alumina silicate pottery heat insulation foam 2.Because alumina silicate pottery heat insulation foam 2 is more open, and can feel after contact human body skin to itch, adopt sewing machine the periphery fissure of two-layer fiberglass aluminum foil cloth 1 to be got up so more, can prevent alumina silicate pottery heat insulation foam 2 from exposing or dropping, the discomfort that its contact skin causes human body can be avoided again.Subsequently, above-mentioned ready-made thermal insulation structure is sheathed on outside sintering furnace, realizes heat insulation.During installation, also can being fixed on above-mentioned thermal insulation structure on sintering furnace blinds with Liu Ding, then wrapped anti-clockwise is wrapped in outside sintering furnace.

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 (4)

1. radio frequency coaxial-cable sintering furnace thermal insulation structure, it is characterized in that, comprise the two-layer fiberglass aluminum foil cloth be located at outside sintering furnace, and be wrapped in the alumina silicate pottery heat insulation foam between two-layer fiberglass aluminum foil cloth, the thickness of described alumina silicate pottery heat insulation foam is 20mm-25mm.

2. radio frequency coaxial-cable sintering furnace thermal insulation structure according to claim 1, is characterized in that, the thickness of described alumina silicate pottery heat insulation foam is 20mm-24mm.

3. radio frequency coaxial-cable sintering furnace thermal insulation structure according to claim 2, is characterized in that, the thickness of described alumina silicate pottery heat insulation foam is 20mm.

4. radio frequency coaxial-cable sintering furnace thermal insulation structure according to claim 3, is characterized in that, the thickness of described fiberglass aluminum foil cloth is 0.4mm.