JPH0219507A - Melt spinning equipment - Google Patents

Abstract

PURPOSE:To keep plural polymers at an optimum temperature each other by independently heating a spin block for heating a spinning package and plural conduit blocks attached through thermal insulation boards to the spin block and carrying out temperature control. CONSTITUTION:A spin block for heating a spinning package is equipped through thermal insulation boards 6 and 14 with conduit block 7 and 15 to enable independent control of each of the spin block and the conduit block at different temperatures by a heater 8, etc. Interception of polymers is carried out by cooling a projecting conduit connecting the spin block with the conduit block.

Description

Detailed Description of the Invention [Industrial Application Field] The present invention relates to a melt spinning device capable of composite spinning in a spinning device for thermoplastic synthetic fibers such as polyester and nylon, and more specifically, to a spinning device for spinning thermoplastic synthetic fibers such as polyester and nylon. This invention relates to a device for blocking the flow of polymer.

[Prior Art] Several structures have conventionally been implemented as apparatuses for composite melt spinning of thermoplastic synthetic tar. For example, (1) the most commonly used ones include a spinning pump that includes a polymer introduction path for multiple types of polymers melted and supplied to the spinning pack by an extruder or the like, and that measures each polymer, and a spinning pack; There is a melt spinning device that has a spin block that can be inserted. With this device, each polymer introduction path can only be set at the same temperature, which limits the types of polymers that can be spun into composites, and there are problems such as severe polymer deterioration and problems with the spinning process. .

(2) (In order to solve the problem in 11, a device has been devised in which the polymer conduit is separated from the spin block section and insulated, thereby making it possible to independently heat and adjust the temperature (Japanese Patent Application Laid-Open No. 137970/1982). ), by suppressing polymer deterioration, a spinning device with extremely stable spinning process conditions has been put into practical use.

However, even in this spinning apparatus, if there is a defective retention area of polymer in the spin block, there is a phenomenon that the spinning process condition deteriorates over time, and the spinning apparatus cannot be said to be a satisfactory spinning apparatus. For example, 1. Polymer is measured in a fixed amount by a metering pump installed at the end of each polymer conduit and extruded from the spinneret of the spinning pack. Devices based on mechanical operating principles, such as valves, cocks, etc., have been used to block only the flow of polymer in the corresponding conduit when it becomes necessary to remove the polymer. However, these devices have a blocking section for blocking the flow of molten polymer and an operating section for activating the blocking section, and therefore, there is a problem in that the molten polymer is insufficiently retained in the blocking section.

[Object of the Invention J The present invention has been made against the background of the above circumstances,
The purpose is to provide a melt spinning device that can perform composite spinning using multiple polymers and stably produce thermoplastic synthetic materials capable of producing a wide variety of products in small quantities.

As a result of various studies to achieve the above object, the present inventors separated the polymer introduction path from the spin block part,
Heats up independently through insulation.

The temperature can be controlled, and the polymer can be blocked by connecting the spin block and the insulated conduit block separated from the spin block with a part of the polymer conduit protruding from the spin block, and connecting the connected polymer conduit to a temperature below the melting point of the polymer. The inventors have discovered that by cooling the polymer pipe to a temperature of 50°C, the defective retention area in the polymer conduit can be eliminated, and the present invention has been achieved based on this finding.

[Structure of the Invention] That is, the present invention provides a melt spinning apparatus for thermoplastic synthetic fibers, which includes a spin block in which a spinning pack can be inserted from above, and a plurality of spin blocks attached to the spin block via a heat insulating material. a conduit block having a polymer conduit;
This melt spinning apparatus is characterized in that the spin block and each conduit block have independent heating means, and the spin block and each conduit block are connected by a portion of a polymer conduit that protrudes from the spin block.

[Example] The present invention will be described below based on the drawings. FIG. 1 is a plan view showing an example in which compound spinning is carried out in tandem;
Figure 2 is a side view of Figure 1 viewed from six directions, Figure 3 is a side view of Figure 1.
It is a cross-sectional view taken along line B-8 in the figure.

In the figure, reference numeral 1 denotes a rectangular parallelepiped spin block body, which is entirely covered with a heat insulating material 5. The body 1 is provided with two vertical holes 2 for attaching spinning packs, and the outer wall of the vertical holes 2 is A jacket chamber 3 is formed to surround it. The jacket chamber 3 is filled with a heat medium (for example, Dowtherm, a product of the Dow Chemical Company in the United States), and an electric heater 4,
4 allows heating to a predetermined temperature. A conduit block 7 is connected to the upper part of the spin block main body 1 via a heat insulating material (for example, a plate-like heat insulating material made of calcium silicate) 6.
A! is arranged on the upper part of the conduit block 7 as a heating source for the conduit block 7. l Cast-in heater 8 is attached,
The temperature can be adjusted independently of the spin block temperature. Here, the A polymer melted and extruded by an extruder or the like flows into the conduit block 7 through the opening 9 provided at the upper part of the conduit block 7, and then is distributed equally to the left and right within the conduit block 7. be done. A portion 10° 10' of the polymer conduit protruding from the spin block body 1 is an opening 10a at the end of the conduit block 7.

10a' and equally distributed in the conduit block 7 flows through projecting conduits 10.10' into polymer conduits 11. After a certain amount has been metered, it is discharged into the shaft 2 through a polymer conduit 13,13' which passes through the shaft 2 for attaching the spinning pack.

A conduit block 15 is disposed at the lower part of the spin block main body 1 on the side directly facing the vertical hole 2 for attaching the pack, with a heat insulating material (for example, a plate-shaped heat insulating material made of calcium silicate) 14 interposed therebetween. An AJII casting heater 1G is attached to the side surface as a heating source for the conduit block 15, and the temperature can be adjusted independently of the spin block temperature. In this case, the B polymer melted and extruded by an extruder or the like flows into the conduit block and is equally distributed to the left and right within the conduit block. A portion 17.17' of the polymer conduit protruding from the spin block body 1 is
Openings t7a, 17a at the end of the conduit block 15
In the conduit block 15, the equally distributed B polymer flows through projecting conduits 17, 17' into polymer conduits 18, 18' in the spin block, and is kept constant by polymer metering pumps 19, 19'. After being metered, it is discharged into the shaft 2 through a polymer conduit 20,20' which passes through the shaft 2 for attachment of the spinning bag.

Here, in normal operation, the discharge conduits 10.10', 1
7°17' is held in a sealed state between the spin block 1 and the conduit block 7.15 by the heat insulating box 21, so that the spin block 1. Spin block due to heat transfer from conduit block 7.15.

An equilibrium temperature is maintained between each conduit block, so that the flow of the molten polymer in these protruding conduits 10.10', 17.17' is not disturbed in any way.

Next, if it becomes necessary to replace the metering pump 12 for some reason, the heat insulating box 21 of the protruding conduit 10 corresponding to the metering pump 12 is removed.

Also, around this time, the operation of the metering pump 12 is stopped to stop the flow of the molten polymer. With such operations,
The temperature of the protruding conduit 10 increases as the amount of heat radiated into the air increases.
The molten polymer inside is cooled down to below its melting point and solidified, and the flow within the tube is regulated and blocked. Therefore, the polymer flow in the polymer flow path after the protruding conduit 1o is eliminated, and work such as parts replacement and leak repair can be performed.

Next, when the predetermined work is completed, the heat insulating box 21 is returned to its original position. As a result, the protruding conduit 1o is connected to the heat insulation box 2.
1, the polymer is sealed off and sealed from the outside air temperature, so the temperature rises quickly and reaches the equilibrium temperature between the spin block and the conduit block, and the solidified polymer in the protruding conduit 10 melts and becomes fluid.

[Effects of the Invention] Conventionally, in a melt spinning apparatus for composite spinning, the spinning process condition has been extremely unstable compared to a melt spinning apparatus for spinning a single polymer. The causes are as follows: 1. Since multiple polymers are attempted to be melt-spun at the same temperature, carbonization and deterioration of the polymers are severe.

2. Because the polymer is shut off by mechanical means such as valves and cocks, there is a defective retention area within the spinning device.

The above two points are being considered.

In this regard, the melt spinning apparatus according to the present invention can independently heat and adjust the temperature of the spin block that heats the spinning pack and the plurality of conduit blocks attached to the spin block via heat insulating plates. It is possible to maintain the polymer temperature at an optimum temperature, and there is no problem of polymer carbonization or deterioration.

In addition, since the polymer is blocked only by cooling the protruding conduit connecting the spin block and the conduit block, it is possible to completely eliminate a polymer defective accumulation section in the melt spinning apparatus.

[Brief explanation of the drawing]

FIG. 1 is a plan view showing an embodiment of composite spinning in a tandem system, FIG. 2 is a side view of FIG. 1 viewed from six directions,
FIG. 3 is a sectional view taken along line B-8 in FIG. 1. 1... Spin block body, 6.14... Heat insulation board. 7.15... Conduit block, 8.16... Heater. 10, 10', 17.17'...Protruding conduit. 12, 12', 19.19'...Measuring pump. 21...Heat insulation box third concave

Claims (1)

[Claims] This is a melt spinning apparatus for thermoplastic synthetic fibers, which consists of a spin block into which a spinning pack can be inserted from the top, and a conduit block having a plurality of polymer conduits attached to the spin block via a heat insulating material. A melt spinning apparatus characterized in that the block and each conduit block have independent heating control means, and the spin block and each conduit block are connected by a portion of a polymer conduit that protrudes from the spin block.