CN208118366U - A kind of pyrocondensation branch fingerstall production system - Google Patents

Abstract

The utility model discloses a kind of pyrocondensation branch fingerstall production system, including extruder, several press nips, electron accelerator, dilatation mold and the cutter being set in sequence.Extruder squeezes out casing, casing is extruded in extruded segment through press nips interval and forms several finger sleeves, casing after extruding carries out expansion into dilatation mold after electron accelerator irradiates and forms heat-shrinkable T bush, and heat-shrinkable T bush successively cuts to form several pyrocondensation branches fingerstall from the front end of its extruded segment, centre or rear end.Pyrocondensation branch fingerstall is made by extrusion, pressure pipe, irradiation, expansion and cutting continuous production in the utility model pyrocondensation branch fingerstall production system, or pyrocondensation branch fingerstall is made by extrusion, pressure pipe, irradiation, cutting and expansion continuous production, compared with using the prior art of injection molding manner production branch's fingerstall, method is simple, and time-consuming short and production cost is low.

Description

A kind of pyrocondensation branch fingerstall production system

Technical field

The utility model relates to the production methods and production system of a kind of pyrocondensation branch fingerstall.

Background technique

Branch's fingerstall can be used for the multi-thread core insulation protection of cable, also can be used for the reparation of cable accessory.Branch's fingerstall exists It is produced by the way of injection molding when manufacture.

However, above-mentioned branch's fingerstall is produced by the way of injection molding, this kind of production method is complex, and time-consuming, At high cost, production efficiency and production cost are very high.

Utility model content

The purpose of this utility model is to provide a kind of methods simply, the pyrocondensation branch fingerstall that time-consuming is short, production cost is low Production system.

To achieve the above object, the utility model provides a kind of pyrocondensation branch fingerstall production system, using above-mentioned pyrocondensation The production method of branch's fingerstall, including be set in sequence extruder, several press nips, electron accelerator, dilatation mold and Cutter, extruder squeeze out casing, and casing is extruded in extruded segment through press nips interval and forms several finger sleeves, casing warp after extruding Expansion is carried out into dilatation mold after electron accelerator irradiation and forms heat-shrinkable T bush, and heat-shrinkable T bush is successively from its extruded segment Front end, centre or rear end cut to form several pyrocondensation branches fingerstall.

The utility model also provides another pyrocondensation branch fingerstall production system, using the life of above-mentioned pyrocondensation branch fingerstall Production method, including extruder, several press nips, electron accelerator, cutter and the dilatation mold being set in sequence, extruder is squeezed Casing out, casing are extruded in extruded segment through press nips interval and form several finger sleeves, and casing after extruding accelerates through electron irradiation Device irradiation, the heat-shrinkable T bush after irradiation successively cut to form several points from the front end of its extruded segment, centre or rear end by cutter Branch fingerstall, branch's fingerstall, which enters dilatation mold, to carry out expansion respectively and forms pyrocondensation branch and divide fingerstall.

As described above, the utility model pyrocondensation branch fingerstall production system passes through extrusion, pressure pipe, irradiation, expansion and cutting Pyrocondensation branch fingerstall is made in continuous production, or pyrocondensation branch is made by extrusion, pressure pipe, irradiation, cutting and expansion continuous production Fingerstall, compared with using the prior art of injection molding manner production branch's fingerstall, method is simple, and time-consuming short and production cost is low.

Detailed description of the invention

Fig. 1 is the flow diagram of the utility model pyrocondensation branch fingerstall production system embodiment 1；

Fig. 2 is the schematic diagram of the utility model Heat shrink tube expansion system embodiment 1；

Fig. 3 is the heat-shrinkable T bush schematic diagram after extruding of the utility model embodiment 1；

Fig. 4 is the schematic diagram of the pyrocondensation branch fingerstall after the utility model embodiment 1 is cut；

Fig. 5 is the flow diagram of the utility model pyrocondensation branch fingerstall production system embodiment 2；

Fig. 6 is the schematic diagram of the utility model Heat shrink tube expansion system embodiment 2.

Specific embodiment

For the technology contents, method characteristic, the objects and the effects that the utility model is described in detail, below in conjunction with implementation Mode is explained in detail.

Embodiment 1

Referring to Fig. 1, the embodiment 1 of its production method for disclosing the utility model pyrocondensation branch fingerstall, including walk as follows Suddenly：

Squeeze pipe step：Casing is squeezed out using extruder；

Pressure pipe step, when being in molten condition after casing extrusion, using several pinch rollers arranged side by side along casing length direction Interruption squeezing bushing simultaneously forms interval at extruding, which makes the extruded segment of casing be separated into several finger sleeves；

Irradiation steps irradiate casing after extruding；

Expansion step expands the casing after irradiation；

Casing after expansion successively is cut to form several points from the front end of its extruded segment, centre or rear end by cutting step Branch fingerstall.

Please refer to Fig. 2, Fig. 3 and Fig. 4, the utility model pyrocondensation branch fingerstall production system, using above-mentioned pyrocondensation branch The production method of fingerstall, including extruder 1, several press nips 2, electron accelerator 3,4 and of dilatation mold being set in sequence Cutter 5, extruder 1 squeeze out casing t ', and casing t ' is extruded in extruded segment through the interval of press nips 2 and forms several connections intervals arranged side by side, Casing after extruding carries out expansion into dilatation mold 4 after the irradiation of electron accelerator 3 and forms heat-shrinkable T bush t, thermal shrinkable sleeve Pipe t successively cuts to form several pyrocondensation branch fingerstall f from the front end of its extruded segment, centre or rear end.

Embodiment 2

Referring to Fig. 5, the embodiment 2 of its production method for disclosing the utility model pyrocondensation branch fingerstall, and implements 1 base This is similar, and difference is：This embodiment is first to cut further expansion, is included the following steps：

Pipe step is squeezed, casing is squeezed out using extruder；

Pressure pipe step, when being in molten condition after casing extrusion, using several pinch rollers arranged side by side along casing length direction Interruption squeezing bushing simultaneously forms connection interval at extruding, which makes the extruded segment of casing be separated into several fingerstall Pipe；

Irradiation steps irradiate casing after extruding；

Casing after irradiation successively is cut to form several points from the front end of its extruded segment, centre or rear end by cutting step Branch fingerstall；

Expansion step carries out expansion respectively to branch's fingerstall after cutting and forms several pyrocondensation branches fingerstall.

Please refer to Fig. 3, Fig. 4 and Fig. 6, the utility model pyrocondensation branch fingerstall production system, using above-mentioned pyrocondensation branch The production method of fingerstall, including extruder 1, several press nips 2, electron accelerator 3, cutter 5 and the expansion being set in sequence Mold 4, extruder 1 squeeze out casing t ', and casing t ' is extruded in extruded segment through the interval of press nips 2 and forms several connections intervals arranged side by side, Casing after extruding is irradiated through electron accelerator 3, by the casing after irradiation successively from the front end of its extruded segment, centre or after End cutting forms several branch's fingerstall, carries out expansion respectively to branch's fingerstall after cutting and forms several pyrocondensation branch fingerstall f.

In conclusion the utility model pyrocondensation branch fingerstall production system passes through extrusion, pressure pipe, irradiation, expansion and cutting Pyrocondensation branch fingerstall is made in continuous production, or pyrocondensation branch is made by extrusion, pressure pipe, irradiation, cutting and expansion continuous production Fingerstall, compared with using the prior art of injection molding manner production branch's fingerstall, method is simple, and time-consuming short and production cost is low.

The utility model is not limited to above-mentioned specific embodiment, and those skilled in the art can also make accordingly A variety of variations, but any model being equal with the utility model or similar variation should all be covered in the utility model claims In enclosing.

Claims (2)

1. a kind of pyrocondensation branch fingerstall production system, it is characterised in that：Including be set in sequence extruder, several press nips, electricity Sub- irradiation accelerator, dilatation mold and cutter, extruder squeeze out casing, are formed if casing is extruded in extruded segment through press nips interval Dry finger sleeve, casing after extruding carry out expansion into dilatation mold after electron accelerator irradiates and form heat-shrinkable T bush, Heat-shrinkable T bush successively cuts to form several pyrocondensation branches fingerstall from the front end of its extruded segment, centre or rear end.

2. a kind of pyrocondensation branch fingerstall production system, it is characterised in that：Including be set in sequence extruder, several press nips, electricity Sub- irradiation accelerator, cutter and dilatation mold, extruder squeeze out casing, are formed if casing is extruded in extruded segment through press nips interval Dry finger sleeve, casing after extruding are irradiated through electron accelerator, and the heat-shrinkable T bush after irradiation is successively squeezed from it by cutter Front end, centre or the rear end of pressure section cut to form several branch's fingerstall, and branch's fingerstall enters dilatation mold and carries out expansion shape respectively Divide fingerstall at pyrocondensation branch.