CN204720251U - A kind of assisted heating device being applied to production line of electrical wire and cable curing tube - Google Patents

Abstract

The utility model discloses a kind of assisted heating device being applied to production line of electrical wire and cable curing tube, its auxiliary heating body comprises upside body, downside body, upside body comprises the upside heat-conducting plate, upside metallic spacer layer, upside insulating, the upside coat of metal that stack gradually layout from the inside to the outside, the exterior arc surface of upside heat-conducting plate offers upside heating tube support slot, electric heating tube on the upside of inlay card in the heating tube support slot of upside; Downside body comprises the downside heat-conducting plate, downside metallic spacer layer, downside insulating, the downside coat of metal that stack gradually layout from the inside to the outside; the exterior arc surface of downside heat-conducting plate offers downside heating tube support slot, electric heating tube on the downside of inlay card in the heating tube support slot of downside.Designed by said structure, the utility model can ensure the temperature of curing tube effectively, and then effectively ensures curing efficiency, novel in structural design.

Description

A kind of assisted heating device being applied to production line of electrical wire and cable curing tube

Technical field

The utility model relates to technical field of electric wires and cables, particularly relates to a kind of assisted heating device being applied to production line of electrical wire and cable curing tube.

Background technology

For electric wire, for ensureing its insulating properties, the skin of electric wire is generally all provided with rubber-covered Rotating fields; In electric wire process of manufacture, rubber insulation generally fits over the periphery of heart yearn by the mode of extrusion molding, and shaping after rubber insulation need carry out vulcanizing treatment by curing tube.

Need to explain further, carrying out electric wire, in the process of vulcanizing treatment, passing into the steam of high temperature, high pressure in curing tube, rubber insulation carries out chemical crosslink reaction under HTHP effect, plays insulating effect to make rubber insulation.

Need point out further, due to the curingprocess rate of rubber and temperature proportional, how effectively to ensure that the temperature of curing tube just seems particularly important.

Utility model content

The purpose of this utility model is to provide a kind of assisted heating device being applied to production line of electrical wire and cable curing tube, it is novel in design and effectively can ensure the temperature of curing tube that this is applied to the assisted heating device of production line of electrical wire and cable curing tube, and then effectively ensure curing efficiency.

For achieving the above object, the utility model is achieved through the following technical solutions.

A kind of assisted heating device being applied to production line of electrical wire and cable curing tube, include the auxiliary heating body being set in curing tube periphery, auxiliary heating body includes upside body, the downside body of semicircular in shape shape respectively, and downside body is installed in the lower end side of upside body;

Upside body includes semicircular in shape shape respectively and stacks gradually upside heat-conducting plate, upside metallic spacer layer, upside insulating, the upside coat of metal of layout from the inside to the outside, the exterior arc surface of upside heat-conducting plate to offer in uniform intervals distribution and respectively along the upside heating tube support slot that the length direction of upside heat-conducting plate extends, in the heating tube support slot of each upside, inlay card has the upside electric heating tube be positioned at inside the metallic spacer layer of upside respectively, all upsides electric heating tube is connected successively, and upside insulating is installed in upside metallic spacer layer and upside coat of metal;

Downside body includes semicircular in shape shape respectively and stacks gradually downside heat-conducting plate, downside metallic spacer layer, downside insulating, the downside coat of metal of layout from the inside to the outside; the exterior arc surface of downside heat-conducting plate to offer in uniform intervals distribution and respectively along the downside heating tube support slot that the length direction of downside heat-conducting plate extends; in the heating tube support slot of each downside, inlay card has the downside electric heating tube be positioned at inside the metallic spacer layer of downside respectively; all downsides electric heating tube is connected successively, and downside insulating is installed in downside metallic spacer layer and downside coat of metal.

Wherein, the left end edge part of described upside coat of metal and the left end edge part of described downside coat of metal hinged, the right-hand member edge part of upside coat of metal and the right-hand member edge part snapping of downside coat of metal.

Wherein, described upside insulating is asbestos layer or expanded pearlite rock stratum.

Wherein, described downside insulating is asbestos layer or expanded pearlite rock stratum.

The beneficial effects of the utility model are: a kind of assisted heating device being applied to production line of electrical wire and cable curing tube described in the utility model, its auxiliary heating body comprises upside body, downside body, upside body comprises the upside heat-conducting plate, upside metallic spacer layer, upside insulating, the upside coat of metal that stack gradually layout from the inside to the outside, the exterior arc surface of upside heat-conducting plate offers upside heating tube support slot, electric heating tube on the upside of inlay card in the heating tube support slot of upside, upside insulating is installed in upside metallic spacer layer and upside coat of metal; Downside body comprises the downside heat-conducting plate, downside metallic spacer layer, downside insulating, the downside coat of metal that stack gradually layout from the inside to the outside; the exterior arc surface of downside heat-conducting plate offers downside heating tube support slot; electric heating tube on the downside of inlay card in the heating tube support slot of downside, downside insulating is installed in downside metallic spacer layer and downside coat of metal.Designed by said structure, the utility model can ensure the temperature of curing tube effectively, and then effectively ensures curing efficiency, novel in structural design.

Accompanying drawing explanation

Utilize accompanying drawing to be further detailed the utility model below, but the embodiment in accompanying drawing is not formed any restriction of the present utility model.

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

1---curing tube 2---upside body

21---upside heat-conducting plate 211---upside heating tube support slot

22---upside metallic spacer layer 23---upside insulating

24---upside coat of metal 25---upside electric heating tube

3---downside body 31---downside heat-conducting plate

311---downside heating tube support slot 32---downside metallic spacer layer

33---downside insulating 34---downside coat of metal

35---downside electric heating tube.

Embodiment

Below in conjunction with concrete execution mode, the utility model is described.

As shown in Figure 1, a kind of assisted heating device being applied to production line of electrical wire and cable curing tube, include the auxiliary heating body being set in curing tube 1 periphery, auxiliary heating body includes upside body 2, the downside body 3 of semicircular in shape shape respectively, and downside body 3 is installed in the lower end side of upside body 2.

Further, upside body 2 includes semicircular in shape shape respectively and stacks gradually the upside heat-conducting plate 21 of layout from the inside to the outside, upside metallic spacer layer 22, upside insulating 23, upside coat of metal 24, the exterior arc surface of upside heat-conducting plate 21 to offer in uniform intervals distribution and respectively along the upside heating tube support slot 211 that the length direction of upside heat-conducting plate 21 extends, in each upside heating tube support slot 211, inlay card has the upside electric heating tube 25 be positioned at inside the metallic spacer layer 22 of upside respectively, all upsides electric heating tube 25 is connected successively, upside insulating 23 is installed in upside metallic spacer layer 22 and upside coat of metal 24.

Further, downside body 3 includes semicircular in shape shape respectively and stacks gradually the downside heat-conducting plate 31 of layout from the inside to the outside, downside metallic spacer layer 32, downside insulating 33, downside coat of metal 34, the exterior arc surface of downside heat-conducting plate 31 to offer in uniform intervals distribution and respectively along the downside heating tube support slot 311 that the length direction of downside heat-conducting plate 31 extends, in each downside heating tube support slot 311, inlay card has the downside electric heating tube 35 be positioned at inside the metallic spacer layer 32 of downside respectively, all downsides electric heating tube 35 is connected successively, downside insulating 33 is installed in downside metallic spacer layer 32 and downside coat of metal 34.

In utility model works process, produce heat after upside electric heating tube 25 is energized and heat be directly conducted to upside heat-conducting plate 21, upside heat-conducting plate 21 again by heat conduction to curing tube 1; Wherein, because upside electric heating tube 25 is embedded in the upside heating tube support slot 211 of upside heat-conducting plate 21, this structural design can ensure that upside electric heating tube 25 contacts with upside heat-conducting plate 21 more fully, and then effectively improves heat conduction efficiency.Same, produce heat after downside electric heating tube 35 is energized and heat is directly conducted to downside heat-conducting plate 31, downside heat-conducting plate 31 again by heat conduction to curing tube 1; Wherein, because downside electric heating tube 35 is embedded in the downside heating tube support slot 311 of downside heat-conducting plate 31, this structural design can ensure that downside electric heating tube 35 contacts with downside heat-conducting plate 31 more fully, and then effectively improves heat conduction efficiency.

In addition; upside of the present utility model coat of metal 24 is as the outer layer protection structure of upside body 2; the heat insulation layer be installed between upside coat of metal 24 and upside metallic spacer layer 22 can avoid heat loss effectively; and good function of heat insulation can be played, and then improve heat conduction efficiency further.Same; downside of the present utility model coat of metal 34 is as the outer layer protection structure of downside body 3; the heat insulation layer be installed between downside coat of metal 34 and downside metallic spacer layer 32 can avoid heat loss effectively; and good function of heat insulation can be played, and then improve heat conduction efficiency further.

Need point out further, upside of the present utility model insulating 23, downside insulating 33 can adopt asbestos or expanded perlite to be prepared from respectively, namely upside insulating 23 is asbestos layer or expanded pearlite rock stratum, and downside insulating 33 is asbestos layer or expanded pearlite rock stratum.

Comprehensive above-mentioned situation is known, is designed by said structure, and the utility model can ensure the temperature of curing tube 1 effectively, and then effectively ensures curing efficiency, novel in structural design.

As preferred embodiment; as shown in Figure 1; peripheral for ensureing that the utility model can be installed on curing tube 1 quickly and easily; the utility model adopts following structural design; be specially: the left end edge part of upside coat of metal 24 and the left end edge part of downside coat of metal 34 hinged, the right-hand member edge part of upside coat of metal 24 and the right-hand member edge part snapping of downside coat of metal 34.

Above content is only preferred embodiment of the present utility model, for those of ordinary skill in the art, according to thought of the present utility model, all will change in specific embodiments and applications, this description should not be construed as restriction of the present utility model.

Claims (4)

1. one kind is applied to the assisted heating device of production line of electrical wire and cable curing tube, it is characterized in that: include and be set in the peripheral auxiliary heating body of curing tube (1), auxiliary heating body includes upside body (2), the downside body (3) of semicircular in shape shape respectively, and downside body (3) is installed in the lower end side of upside body (2);

Upside body (2) includes semicircular in shape shape respectively and stacks gradually the upside heat-conducting plate (21) of layout from the inside to the outside, upside metallic spacer layer (22), upside insulating (23), upside coat of metal (24), the exterior arc surface of upside heat-conducting plate (21) to offer in uniform intervals distribution and respectively along upside heating tube support slot (211) that the length direction of upside heat-conducting plate (21) extends, in each upside heating tube support slot (211), inlay card has the upside electric heating tube (25) being positioned at inner side, upside metallic spacer layer (22) respectively, connect successively in all upsides electric heating tube (25), upside insulating (23) is installed in upside metallic spacer layer (22) and upside coat of metal (24),

Downside body (3) includes semicircular in shape shape respectively and stacks gradually the downside heat-conducting plate (31) of layout from the inside to the outside, downside metallic spacer layer (32), downside insulating (33), downside coat of metal (34), the exterior arc surface of downside heat-conducting plate (31) to offer in uniform intervals distribution and respectively along downside heating tube support slot (311) that the length direction of downside heat-conducting plate (31) extends, in each downside heating tube support slot (311), inlay card has the downside electric heating tube (35) being positioned at inner side, downside metallic spacer layer (32) respectively, connect successively in all downsides electric heating tube (35), downside insulating (33) is installed in downside metallic spacer layer (32) and downside coat of metal (34).

2. a kind of assisted heating device being applied to production line of electrical wire and cable curing tube according to claim 1; it is characterized in that: the left end edge part of described upside coat of metal (24) and the left end edge part of described downside coat of metal (34) hinged, the right-hand member edge part of upside coat of metal (24) and the right-hand member edge part snapping of downside coat of metal (34).

3. a kind of assisted heating device being applied to production line of electrical wire and cable curing tube according to claim 2, is characterized in that: described upside insulating (23) is asbestos layer or expanded pearlite rock stratum.

4. a kind of assisted heating device being applied to production line of electrical wire and cable curing tube according to claim 3, is characterized in that: described downside insulating (33) is asbestos layer or expanded pearlite rock stratum.