CN204305378U - Twin-core fire prevention mineral insulation heating cable loop structure - Google Patents

Abstract

The utility model discloses a kind of twin-core fire prevention mineral insulation heating cable loop structure, comprise the twin-core mineral insulation heating cable, twin-core mineral insulation conductive cable, the common cable that dock mutual conduction successively; The stainless steel lining having stainless steel lining, point large small bore end is overlapped in twin-core mineral insulation heating cable and twin-core mineral insulation conductive cable junction, fills Insulation stopping in the stainless steel lining of point large small bore end; The other end twin-core conductor butt welding of twin-core mineral insulation heating cable, lining is inserted in twin-core mineral insulation heating cable end, fills Insulation stopping in lining; Twin-core mineral insulation conductive cable and common cable junction are overlapped and are had copper sheathing, have been provided with the crimp type terminal of connection function in copper sheathing, filling with sealant in copper sheathing.The utility model avoids mineral insulated cable and makes moist, and effectively solves the problem that high temperature do not resisted by fluid sealant.

Description

Twin-core fire prevention mineral insulation heating cable loop structure

Technical field

The utility model relates to a kind of twin-core mineral insulation heating cable, particularly relate to a kind of twin-core mineral insulation heating cable fire end and twin-core mineral insulation heating cable conducting end, twin-core conducting end is docked with common insulated cable, is the improvement to existing twin-core mineral insulation heating cable structure.

Background technology

Twin-core mineral insulation heating cable, compared with single core, has better economy, higher heating efficiency,

Loop connects also simpler, convenient and swift.But concerning the manufacturing require also relatively high.

Although existing twin-core mineral insulation heating cable has many good qualities, such as crush resistance strength is high, high temperature resistant and can bear in corrosive atmosphere, the features such as long service life.But be fill magnesium oxide to realize insulation between twin-core mineral insulation heating cable heating core wire and stainless steel oversheath.And magnesium oxide characteristic easily absorbs water to make moist, magnesium oxide water suction is made moist and is caused insulating capacity to decline on the one hand, if two is in use make moist easily to cause stainless steel oversheath ftracture and lose use ability.This just require companion hot loop making and use procedure in prevent insulating barrier magnesium oxide from making moist, prior art is generally solved by sealing, but due to heating tape serviceability temperature high, rubber seal easily goes wrong.

Utility model content

Technical problem to be solved in the utility model is, overcomes problems of the prior art, provides a kind of twin-core fire prevention mineral insulation heating cable loop structure.

To achieve these goals, the technical solution of the utility model is as follows:

Twin-core fire prevention mineral insulation heating cable loop structure, is characterized in that, comprise the twin-core mineral insulation heating cable, twin-core mineral insulation conductive cable, the common cable that dock mutual conduction successively; The stainless steel lining having stainless steel lining, point large small bore end is overlapped in described twin-core mineral insulation heating cable and twin-core mineral insulation conductive cable junction, fills Insulation stopping in the stainless steel lining of point large small bore end; The other end twin-core conductor butt welding of described twin-core mineral insulation heating cable, lining is inserted in twin-core mineral insulation heating cable end, fills Insulation stopping in lining; Described twin-core mineral insulation conductive cable and common cable junction are overlapped and are had copper sheathing, have been provided with the crimp type terminal of connection function in copper sheathing, filling with sealant in copper sheathing.

In the utility model, in described copper sheathing, be provided with the heat-shrinkable T bush playing reinforced insulation effect be set in outside conductor.

In the utility model, be provided with in described copper sheathing and prevent excessively close twin-core insulation division board.

In the utility model, the lining outer end of described twin-core mineral insulation heating cable end is by the shutoff of stainless steel plug.

In the utility model, described Insulation stopping is quartz sand.

In the utility model, described twin-core mineral insulation heating cable is divided into three-decker: the magnesium oxide that double wired conductor is Exothermal Alloys line, insulating barrier is filling, oversheath are stainless steel tube.Further, the stainless steel lining of described stainless steel lining, point large small bore end is identical with the material of twin-core mineral insulation heating cable oversheath.

In the utility model, the stainless steel lining outer wrap stainless steel protection skin of described stainless steel lining, point large small bore end.

In the utility model, with gap between high temperature resistant silver solder built-up welding twin-core mineral insulation conductive cable, stainless steel lining, the stainless steel lining dividing large small bore end, twin-core mineral insulation heating cable.

In the utility model, the stainless steel lining arranged outside of described point of large small bore end has the filling sand hole of a filled stone sand, fills with sand hole and is positioned in the middle part of the stainless steel lining of point large small bore end.Further, described filling sand hole welding wire built-up welding sealing of hole.

The manufacture method of twin-core fire prevention mineral insulation heating cable, is characterized in that, comprise the following steps:

(1) first by twin-core mineral insulation heating cable and the docking of twin-core mineral insulation conductive cable, again the stainless steel lining of point large small bore end is inserted in twin-core mineral insulation heating cable, another stainless steel lining is inserted in twin-core mineral insulation conductive cable, welds together after the docking of twin cable heart yearn; Between built-up welding stainless steel lining and twin-core mineral insulation conductive cable; The stainless steel lining having large aperture is divided at mobile two ends, the filling sand hole making it leave and the alignment of docking center, filling quartz sand, sealing filling sand hole after filled stone sand with welding wire built-up welding by filling with sand hole in cavity; Gap respectively between built-up welding size head bore lining and stainless steel lining, twin-core mineral insulation heating cable, wraps metal coating skin in outside, stainless steel lining two ends, completes twin-core mineral insulation heating cable and the docking of twin-core mineral insulation conductive cable;

(2) twin-core mineral insulation conductive cable in previous step is connected with common cable, respectively to twin-core mineral insulation conductive cable and common cable stripping head, and copper sheathing is inserted in twin-core mineral insulation conductive cable, twin-core mineral insulation conductive cable heart yearn and common cable heart yearn is connected with crimp type terminal, external application heat-shrinkable T bush pyrocondensation crimp type terminal, mobile copper sheathing is to crimp type terminal position, and make the stainless steel oversheath lock jail of copper sheathing and twin-core mineral insulation conductive cable, twin-core mineral insulation conductive cable conductor is inserted in insulation division board, fills with fluid sealant encapsulation in copper sheathing;

(3) at the other end of twin-core mineral insulation heating cable its twin-core conductor butt welding; Stainless steel lining is inserted in twin-core mineral insulation heating cable end, with the gap between welding wire built-up welding lining and twin-core mineral insulation heating cable oversheath; Filled stone sand in stainless steel lining, stainless steel plug shutoff stainless steel lining, soldering and sealing stainless steel plug and stainless steel lining cover faying face.

In step (2), adopt copper sheathing distortion frock by firm for the stainless steel oversheath lock of copper sheathing and twin-core mineral insulation conductive cable, copper sheathing distortion frock is clipped with bench vice, then conductive cable is penetrated from below, copper sheathing is put in copper sheathing distortion frock from above, knocking copper sheathing with knocking lining, guaranteeing the stainless steel oversheath locking of copper sheathing and conductive cable.

The utility model, by twin-core mineral insulation heating cable and the welding of twin-core mineral insulation conductive cable, docks between twin-core mineral insulation conductive cable and common cable, avoids mineral insulated cable and make moist, effectively solve the problem that high temperature do not resisted by fluid sealant.

The detailed description and obtaining that feature of the present utility model can consult the graphic and following better execution mode of this case is well understood to.

Accompanying drawing explanation

Fig. 1 is the cross-sectional view of twin-core fire prevention mineral insulation heating cable loop structure.

Fig. 2 is the A place enlarged diagram of Fig. 1.

Fig. 3 is the B place enlarged diagram of Fig. 1.

Fig. 4 is the C place enlarged diagram of Fig. 1.

Fig. 5 is copper sheathing distortion tool structure schematic diagram.

Embodiment

The technological means realized to make the utility model, creation characteristic, reaching object and effect is easy to understand, setting forth the utility model further below in conjunction with specific embodiment.

See Fig. 1-4, twin-core fire prevention mineral insulation heating cable loop structure, comprises the twin-core mineral insulation heating cable 1, twin-core mineral insulation conductive cable 2, the common cable 11 that dock mutual conduction successively; The stainless steel lining 4 having stainless steel lining 3, point large small bore end is overlapped in twin-core mineral insulation heating cable 1 and twin-core mineral insulation conductive cable 2 junction, fills Insulation stopping (quartz sand 16) in the stainless steel lining 4 of point large small bore end; Twin-core conductor passes in the middle of quartz sand 16, magnesium oxide 14.With gap between high temperature resistant silver solder AG206 690/840 built-up welding twin-core mineral insulation conductive cable 2, stainless steel lining 3, the stainless steel lining 4 dividing large small bore end, twin-core mineral insulation heating cable 1.

Stainless steel lining 3, the stainless steel lining 4 outer wrapping stainless steel protection skin 5 of point large small bore end.Mainly in order to increase stainless steel lining 3, the mechanical strength of the stainless steel lining 4 of point large small bore end and twin-core mineral insulation heating cable 1, twin-core conductive cable 2 weld, prevents excessive bending herein.Divide stainless steel lining 4 arranged outside of large small bore end to have the filling sand hole 15 of a filled stone sand, fill with sand hole 15 and be positioned in the middle part of the stainless steel lining 4 of point large small bore end.Fill with sand hole 15 welding wire built-up welding sealing of hole.

Twin-core mineral insulation heating cable 1 is divided into three-decker: the magnesium oxide 14 that double wired conductor is Exothermal Alloys line, insulating barrier is filling, oversheath are stainless steel tube.So heating cable can reach a high temperature, and has very high mechanical protection intensity.Stainless steel lining 3, stainless steel lining 4 material of point large small bore end is identical with twin-core mineral insulation heating cable 1 jacket material, can ensure that interface and heating cable 1 oversheath have same performance and intensity like this.

The other end twin-core conductor butt welding 18 of twin-core mineral insulation heating cable 1, lining (stainless steel) 6 is inserted in twin-core mineral insulation heating cable end, fills Insulation stopping (quartz sand 16) in lining 6; The quartz sand 16 of filling, magnesium oxide 14 mainly these materials has very high insulation property, guarantees between double wired conductor, and the insulating properties between stainless steel oversheath is guaranteed.

Twin-core mineral insulation conductive cable 2 and common cable 11 junction are overlapped and are had copper sheathing 8.Crimp type terminal 12, heat-shrinkable T bush 10, twin-core insulation division board 9 is provided with, filling with sealant 13 in copper sheathing in copper sheathing 8.Crimp type terminal in copper sheathing 8, mainly in order to connect twin-core conductive cable 2 and common cable 11, reduces conductive resistance herein.As long as heat-shrinkable T bush 10 in order to play reinforced insulation effect between twin-core conductor.Twin-core insulation division board 9, mainly in order to ensure the spacing between twin-core conductor, prevents excessively close.Division board edge leaves fluid sealant breach, ensures that fluid sealant can be full of the inner chamber of copper sheathing 8.Filling with sealant 13 in copper sheathing 8 has been insulating effects.Herein because be the junction of twin-core mineral insulation conductive cable 2 and common cable 11, heat is not had to produce, therefore with sealant sealing.

The manufacture method of twin-core fire prevention mineral insulation heating cable, comprises the following steps:

(1) first twin-core mineral insulation heating cable 1 and twin-core mineral insulation conductive cable 2 are docked, again the stainless steel lining 4 of point large small bore end is inserted in twin-core mineral insulation heating cable 1, another stainless steel lining 3 is inserted in twin-core mineral insulation conductive cable 2, twin cable heart yearn 17 welds together after docking, mobile stainless steel lining 3, makes bush end face align conductive cable end face or slightly above end face (see figure 1); With between high temperature resistant silver solder AG206 690/840 built-up welding stainless steel lining and twin-core mineral insulation conductive cable; The stainless steel lining 4 having large aperture is divided at mobile two ends, the filling sand hole making it leave and the alignment of docking center, filling quartz sand 16, sealing filling sand hole after filled stone sand with welding wire built-up welding by filling with sand hole 15 in cavity; Respectively with the gap between high temperature resistant silver solder AG206 690/840 built-up welding size head bore lining 4 and stainless steel lining 3, twin-core mineral insulation heating cable 1, wrap metal coating skin 5 in outside, stainless steel lining two ends, complete twin-core mineral insulation heating cable 1 and twin-core mineral insulation conductive cable 2 docks;

(2) twin-core mineral insulation conductive cable 2 in previous step is connected with common cable 11, respectively to twin-core mineral insulation conductive cable and common cable stripping head, and copper sheathing 8 is inserted in twin-core mineral insulation conductive cable 2, the heart yearn of twin-core mineral insulation conductive cable 2 and the heart yearn of common cable 11 is connected with crimp type terminal 12, external application heat-shrinkable T bush 10 pyrocondensation crimp type terminal 12, mobile copper sheathing 8 is to crimp type terminal 12 position, adopt copper sheathing distortion frock 20 by firm for the stainless steel oversheath lock of copper sheathing and twin-core mineral insulation conductive cable, copper sheathing distortion frock is clipped with bench vice, then conductive cable is penetrated from below, copper sheathing is put in copper sheathing distortion frock from above, copper sheathing is knocked with knocking lining, guarantee the stainless steel oversheath locking of copper sheathing and conductive cable.

Twin-core mineral insulation conductive cable conductor is inserted in insulation division board 9, fills with fluid sealant 13 and encapsulate in copper sheathing 8;

(3) at the other end of twin-core mineral insulation heating cable 1 with high temperature resistant silver solder AG206 690/840 its twin-core conductor butt welding; Stainless steel lining 6 is inserted in twin-core mineral insulation heating cable end, with the gap between welding wire built-up welding lining 6 and the oversheath of twin-core mineral insulation heating cable 1; Filled stone sand 16 in stainless steel lining 6, stainless steel plug 7 shutoff stainless steel lining 6, soldering and sealing stainless steel plug and stainless steel lining cover faying face.

More than show and describe general principle of the present utility model, principal character and advantage of the present utility model.The technical staff of the industry should understand; the utility model is not restricted to the described embodiments; the just principle of the present utility model described in above-described embodiment and specification; under the prerequisite not departing from the utility model spirit and scope, the utility model also has various changes and modifications, and these changes and improvements all fall in claimed scope of the present utility model.The protection range that the utility model requires is defined by appending claims and equivalent thereof.

Claims (11)

1. twin-core fire prevention mineral insulation heating cable loop structure, is characterized in that, comprise the twin-core mineral insulation heating cable, twin-core mineral insulation conductive cable, the common cable that dock mutual conduction successively; The stainless steel lining having stainless steel lining, point large small bore end is overlapped in described twin-core mineral insulation heating cable and twin-core mineral insulation conductive cable junction, fills Insulation stopping in the stainless steel lining of point large small bore end; The other end twin-core conductor butt welding of described twin-core mineral insulation heating cable, lining is inserted in twin-core mineral insulation heating cable end, fills Insulation stopping in lining; Described twin-core mineral insulation conductive cable and common cable junction are overlapped and are had copper sheathing, have been provided with the crimp type terminal of connection function in copper sheathing, filling with sealant in copper sheathing.

2. twin-core fire prevention mineral insulation heating cable loop structure according to claim 1, is characterized in that, be provided with the heat-shrinkable T bush playing reinforced insulation effect be set in outside conductor in described copper sheathing.

3. twin-core fire prevention mineral insulation heating cable loop structure according to claim 1, is characterized in that, is provided with and prevents excessively close twin-core insulation division board in described copper sheathing.

4. twin-core fire prevention mineral insulation heating cable loop structure according to claim 1, it is characterized in that, the lining outer end of described twin-core mineral insulation heating cable end is by the shutoff of stainless steel plug.

5. twin-core fire prevention mineral insulation heating cable loop structure according to claim 1, it is characterized in that, described Insulation stopping is quartz sand.

6. twin-core fire prevention mineral insulation heating cable loop structure according to claim 1, it is characterized in that, described twin-core mineral insulation heating cable is divided into three-decker: the magnesium oxide that double wired conductor is Exothermal Alloys line, insulating barrier is filling, oversheath are stainless steel tube.

7. twin-core fire prevention mineral insulation heating cable loop structure according to claim 6, it is characterized in that, the stainless steel lining of described stainless steel lining, point large small bore end is identical with the material of twin-core mineral insulation heating cable oversheath.

8. twin-core fire prevention mineral insulation heating cable loop structure according to claim 1, is characterized in that, the stainless steel lining outer wrap stainless steel protection skin of described stainless steel lining, point large small bore end.

9. twin-core fire prevention mineral insulation heating cable loop structure according to claim 1, it is characterized in that, with gap between high temperature resistant silver solder built-up welding twin-core mineral insulation conductive cable, stainless steel lining, the stainless steel lining dividing large small bore end, twin-core mineral insulation heating cable.

10. twin-core fire prevention mineral insulation heating cable loop structure according to claim 1, it is characterized in that, the stainless steel lining arranged outside of described point of large small bore end has the filling sand hole of a filled stone sand, fills with sand hole and is positioned in the middle part of the stainless steel lining of point large small bore end.

11. twin-core fire prevention mineral insulation heating cable loop structures according to claim 10, is characterized in that, described filling sand hole welding wire built-up welding sealing of hole.