JPS6068923A - Crosshead of extruder - Google Patents

Abstract

PURPOSE:To prevent rubber, plastics from burning etc. in a crosshead not withstanding that a conductor is kept at a high temperature by a method wherein a refrigerant passage is provided in a nipple holder and each nipple body is supported by the nipple holder so that heat can be exchanged. CONSTITUTION:A refrigerant passge 9 is provided in an inside nipple holder body 7 and a nipple 10 is connected with the tip of the nipple holder so that heat can be exchanged. The nipple 10 is composed of an inside nipple body 12 and an outside nipple body 13 that are concentrically arranged through a space, the heat of a cable conductor is made hard to transmit to the outside nipple body through a heat insulating air layer by said space and each of the inside and the outside nipple body is cooled by the nipple holder.

Description

Detailed Description of the Invention (Industrial Application Field) The present invention involves heating a conductor to a temperature higher than the extrusion temperature of rubber or plastic, and continuously extruding and coating the conductor with the rubber or plastic. The present invention relates to an extruder crosshead suitable for use in a continuous extrusion crosslinking apparatus for rubber and plastics.

(Prior art) In continuous extrusion crosslinking equipment for rubber and plastics, rubber is coated on the outer periphery of the conductor using a crosshead.

The plastic layer is continuously crosslinked by heating it from the outside, but if the conductor that enters the crosshead is preheated at this time, it is possible to heat the rubber and glass layers from inside as well, increasing the crosslinking speed. This has the advantage of being able to significantly increase the line speed. However, if the temperature of the conductor is raised above the temperature of the rubber or plastic, the heat will be transferred to the rubber or plastic in the crosshead via the nipple or nipple holder. This had the disadvantage that the plastic would get burnt or smudged, reducing the quality of the cable.

(Purpose of the invention) The object of the invention is a rubber coating for temperature of conductors.

To provide an extruder crosshead capable of preventing rubber and plastic from burning or forming lumps in the crosshead even if the hot water temperature is raised to a temperature higher than that of the plastic.

(Structure of the Invention) The present invention extrudes cross-linking rubber or plastic from between a nipple supported by a nipple holder and its outer periphery (disposed die), and a heated cable conductor that passes through the nipple. In the extruder crosshead in which coating is performed on the outer periphery of the extruder, a refrigerant passage is provided in the nipple holder, and the nipple is composed of an outer nipple body and an inner nipple body that are arranged concentrically with a gap in between. The nipple body is characterized in that it is supported by the nipple holder in a heat exchangeable manner.

In such a loss head, the temperature of the nipple holder and the nipple can be cooled by a cooling medium flowing through the nipple holder. In particular, the nipple is composed of an inner nipple body and an outer nipple body that are arranged concentrically with a gap in between, and the heat of the cable conductor is difficult to transfer to the outer nipple body through the air insulation layer created by the gap. Above, each of the inner and outer nipple bodies is connected through the nipple holder 7. Since it is cooled, it is possible to effectively prevent the crosslinking rubber and glass from burning or forming spots inside the crosshead.

(Example) Examples of the present invention will be described in detail below with reference to FIGS. 1 to 3. The extruder crosshead 1 of this embodiment has a crosshead main body 3 to which crosslinking rubber and plastic are supplied from the extruder 2.

A heater 4 is attached to the outer periphery of the crosshead body 3, and is designed to heat the crosshead body 3 so that rubber and plastic are not cooled. A nipple holder 6 is installed in the hole 5 cut 4A inside the crosshead body 3.
are fitted. The nipple holder 6 is composed of an inner nipple holder unit 7 and an outer nipple holder unit 8 which are arranged concentrically. A refrigerant passage 9 is formed in a spiral shape in the inner nipple holder unit 7. The inner nipple holder unit 7 has a length that projects beyond the outer nipple holder unit 8 toward the extrusion side. A nipple 10 is connected to the tip of the nipple holder 6 for heat exchange. The nipple 10 consists of an inner nipple body 12 and an outer nipple body 13, which are arranged concentrically with a gap 11 having a size t in between. Inner nipple body 12
is connected to the tip of the inner nipple holder unit 7 in a heat exchangeable manner, and the outer nipple body 13- is connected to the tip of the outer nipple holder unit 8 in a heat exchangeable manner. Dφ, inner nipple body 12
When the inner diameter of the tip of the cable is dφ, the relationship between the two is set to be D≧d, and dφ is set to a size that allows the cable conductor to pass through. A plurality of convection holes 14 are intermittently formed in the inner nipple body 12 in the circumferential direction. A die seat 15 is fitted onto the inner periphery of the tip of the crosshead body 3. A die 16 is arranged concentrically surrounding the outer nipple body 13 and is in contact with an end surface of the die seat 15.

Between the outer nipple holder unit 8 and the die seat 15 and between the outer nipple body 13 and the die 16, a crosslinking rubber or plastic extrusion channel 17 is formed concentrically. The dice 16 are housed in a dice holder 18,
An adjustment screw 19 screwed into the die holder 18 is used to adjust the eccentricity of the die 16.

dice holder It is attached.

In such an extruder crosshead 1, when a cable conductor heated to a temperature higher than that of the crosslinking rubber or plastic to be extruded passes through the crosshead 1,
The cable beak does not contact the outer nipple body 13 but contacts the inner nipple body 12. As a result, heat is transmitted from the cable conductor to the inner nipple body 12, but it is not transmitted to the outer nipple body 12 because there is an air insulation layer formed by the gap 11 between the two. The inner nipple body 12 is connected to the inner nipple holder integrally cooled with a cooling medium so as to be able to exchange heat 7Vc, so that it is cooled by the inner nipple holder integrally, thereby suppressing a rise in temperature. Also,
Convection occurs in the air within the air insulation layer formed by the void 11 through the convection holes 14, and the cooled air within the inner nipple holder unit 7 also moves, so that heat gradually builds up within the void 11. can be prevented.

Water, oil, etc. are used as the refrigerant to flow into the refrigerant passage 9, but normally the crosshead temperature should be around 110°>130°0. It is desirable to use a mixture of oils, and it is particularly desirable to cool the mixture with a mixed oil close to the extrusion temperature.

FIG. 4 shows another embodiment of the invention. In this embodiment, the nipple holder 6 does not have a two-layer structure but has a single-layer structure, a refrigerant passage 9 is provided therein, and an inner nipple body 12 and an outer nipple body 13 are both supported at the tip thereof for heat exchange. This is what is shown.

(Effects of the Invention) As explained above, in the extruder crosshead according to the present invention, a refrigerant passage is provided in the nipple holder to cool the nipple holder, and the nipple can be connected to the tip of the nipple holder for heat exchange. Since it has a supported structure, the temperature rise in the nipple can be cooled down by the nipple holder. In a pipe, the nipple consists of an inner nipple body and an outer nipple body that are arranged concentrically with a gap in between, and the heat of the cable conductor is difficult to transfer to the outer nipple body through the air insulation layer created by this gap. Furthermore, since the inner and outer nipple bodies are cooled by the nipple holder, it is possible to effectively prevent the bridging rubber and plastic from burning or popping inside the crosshead. Therefore, according to the present invention, it is possible to heat the cable conductor to a temperature higher than the extrusion temperature of the crosslinking rubber or plastic.
It can help internal crosslinking, greatly increase line speed, and improve manufacturing efficiency.

[Brief explanation of the drawing]

FIG. 1 is a longitudinal sectional view of an embodiment of the crosshead according to the present invention, FIG. 2 is a longitudinal sectional view showing the structure of the nipple of the crosshead of this embodiment, and FIG. 5 is a longitudinal sectional view of the crosshead used in this embodiment. FIG. 4 is a longitudinal sectional view of the main part of another embodiment of the present invention. 1...Cross head, 2...Extruder, 3...Cross head body, 6...Nipple holder, 7...Inside = tupuru, integrated in the bracket, 8...Outside nipple holder integrated, 9... Refrigerant passage, 10... Nipple, 11
...Gap, 12...Inner nipple body, 13...Outer nipple body, 14...Convection hole, 15...Dice seat, 16...Dice.

Claims (2)

[Claims] (1) Rubber for crosslinking is applied between the nipple supported by the nipple holder and the die arranged around its outer periphery. Plastic is extruded to coat the outer periphery of a heated cable conductor passing through the nipple. In the crosshead of the rell extruder, a coolant passage is provided in the nipple holder, and the nipples are arranged concentrically with a gap in between. It consists of an outer nipple body and an inner nipple body,
An extruder crosshead, wherein each of the nipple bodies is supported by the nipple holder in a heat exchangeable manner. (2) The inner nipple body is provided with a convection hole that communicates the inside and outside of the body.
The extruder crosshead described in section.