KR200442258Y1 - Quantified vent apparatus for reclaim resin - Google Patents

Abstract

The present invention is a reclaimed resin liquid quantitative discharging device 22 in a resin recycling chip manufacturing apparatus comprising a configuration in which extrusion resin is melted in an extrusion melting furnace to discharge the recycled resin melt through the nozzle portion. Gear pump 30 and the drive motor 42 for driving the gear pump 30, the gear pump 30 is installed at the front end and kneaded and pumped by the extrusion melt furnace kneaded and pumped to the nozzle unit 24 The drive motor 42 is configured to converge to the target discharge pressure value preset based on the pressure sensor 38 installed in the discharge path 36 of the pump 30 and the current discharge pressure value detected by the pressure sensor 38. It consists of the motor control part 40 to control.

Recycled Resin Melt, Gear Pump, Quantitative Discharge

Description

QUANTIFIED VENT APPARATUS FOR RECLAIM RESIN}

The present invention relates to a waste resin recycling facility, and more particularly, to an apparatus for uniformly discharging the melt-extruded recycled resin melt in the apparatus for melt extrusion of the resin scrap to produce a resin recycling chip.

Various waste synthetic resins such as polyethylene (PE) and polypropylene (PP) discarded at industrial sites, and various resin scraps such as nylon yarn, poly yarn and cotton are melt-extruded to be produced in the form of resin recycled chips or pellets as recycled raw materials. This is useful.

However, in order to manufacture and produce resin regenerated chips using various resin scraps as described above, after pretreatment steps such as collection, dehydration, screening, and drying, grinding, melt extrusion, etc., and then cooling and crushing (cutting) steps are performed. You have to go through.

In the melt extrusion step for the production of resin regenerated chips, resin scrap is usually introduced into a cylindrical extrusion melting furnace having an extrusion screw, and the melting by the heater in the extrusion melting furnace and the extrusion by the extrusion screw are simultaneously performed, and then the exit of the extrusion melting furnace. Chip wires, for example, are discharged through the nozzle portion. The discharged chips and ears are cooled by a rear cooling device and then cut and produced into recycled chips or pellets.

However, in the melt extrusion step of the resin scrap, the melt-extruded recycled resin melt is not always discharged constantly to the outlet, but is changed at any time, so that the chip wires discharged through the outlet nozzle of the extrusion melting furnace are not continuously discharged, and the produced chip wires are discharged. Often the thickness was not uniform.

Accordingly, an object of the present invention is to provide a reclaimed resin liquid quantitative discharging device which allows the melt-extruded regenerated melt melted in the melt extrusion step of the resin scrap to be constantly discharged to the outlet nozzle unit at any time.

In accordance with the above object, the present invention, as the regeneration resin quantitative discharging device 22 in the resin regeneration chip manufacturing apparatus comprising a configuration in which the extrusion resin melt in the extrusion melting furnace to discharge the recycled resin melt through the nozzle portion, The drive motor is installed in front of the nozzle unit 24 and the gear pump 30 for kneading and pumping the recycled melt melt extruded in the extrusion melting furnace to discharge to the nozzle unit 24, the drive motor for driving the gear pump 30 (42), the pressure sensor (38) provided in the discharge path (36) of the gear pump (30), and converged to a predetermined target discharge pressure value based on the current discharge pressure value detected by the pressure sensor (38). Characterized in that it comprises a motor control unit 40 for controlling the drive motor (42).

The present invention ensures that the resin melt melt-extruded at the melt extrusion step of the resin scrap is always discharged constantly so that the chip wires falling from the outlet nozzle part to the cooling part are continuously discharged and the thickness of the manufactured chip wires is uniform. Do it.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic configuration diagram of a resin recycling chip manufacturing apparatus having a regenerative resin discharging device according to an embodiment of the present invention.

Referring to FIG. 1, when various resin scraps are introduced into the inlet 16 of the cylindrical extrusion melting furnace 14 of the resin recycling chip manufacturing apparatus 2, the extrusion melting furnace 14 melts the resin scrap introduced through the heater. At the same time, the recycled resin melt is extruded to the rear of the cylinder by an extrusion screw that rotates with the rotational force transmitted through the driving motor 10 and the gearbox 12. Gas or water in the cylinder generated during the extrusion melting process in the extrusion melting furnace 14 is discharged to the outside through the degassing connection 18, the recycled resin melt is extruded to the rear of the cylinder is foreign matter removal network exchange unit (20) The non-fusible foreign substances are filtered while passing through the foreign substance removal network, and continuously metered pumping is performed by the regenerative resin liquid quantitative discharging device 22 specified according to the embodiment of the present invention, and the nozzle unit 24 at the rear end is provided. Is discharged.

The nozzle unit 24 includes a plurality of chip nozzles and drops and discharges the recycled resin melt continuously discharged from the metered discharge device 22 to the cooling unit 26 in the form of chip wires through the chip nozzles. . The cooling section 26 cools the chip wires dropped and discharged from the nozzle section 24 and is cut at the cutting section (not shown) at the rear end so that the resin regeneration chip is obtained.

FIG. 2 is a schematic configuration diagram of the regenerative resin discharging device 22 shown in FIG. 1, wherein the recycled resin melt melt-extruded from the extrusion melting furnace 14 is always constantly discharged to the outlet nozzle part 24 according to the present invention. It is responsible for the discharge.

Referring to FIG. 2, the reclaimed resin liquid quantitative discharging device 22 according to the embodiment of the present invention always discharges the regenerated resin melt that is variably introduced into the inflow path 34 to the discharge path 36 at all times. A gear pump 30 having a pair of gears 32 that are rotors is provided. The nozzle portion 24 is connected to the discharge passage 36 of the gear pump 30, and a pressure sensor 38 such as a pressure gauge is provided therein.

The current discharge pressure value sensed by the pressure sensor 38 is configured to be transmitted to the motor controller 40, and the motor controller 40 drives the pair of gears 32 of the gear pump 30 to drive the motor 42. Configure to connect with

According to an embodiment of the present invention, the motor controller 40 controls the drive motor 42 to converge to a target discharge pressure value, for example, 50 kgf / cm ² , which is set in advance by inputting a current discharge pressure value detected by the pressure sensor 38. To control. For example, when the recycled resin melt that is pumped out of the gear pump 30 is slightly less and the current discharge pressure value detected by the pressure sensor 38 becomes lower than the preset target discharge pressure value, the motor control unit 40 is driven. The motor 42 is controlled to rotate faster than the present time, but the drive motor 42 is driven to the drive control value following the target discharge pressure value. If the recycled resin melt that is pumped out of the gear pump 30 is somewhat large, the control is reversed.

Based on the configuration as described above will be described in more detail the operation of the regenerative resin liquid discharging device 22 of the present invention.

When the recycled resin melt melted in the extrusion melting furnace 14 is introduced through the inflow path 34 of the gear pump 30, the gear pump 30 is driven from the driving motor 42 under the control of the motor control unit 40. Received by rotating a pair of gear 32 to knead and pump the recycled resin melt. Various kinds of resin scraps may be introduced, and various recycled resin melts are kneaded through the gear pump 30 and at the same time, quantitative pumping is performed.

The discharge amount of the recycled resin melt discharged to the discharge path 36 through the gear pump 30 is always maintained constantly because the adaptive control is performed by the motor control unit 40, and the continuously fixed quantity pumped recycled resin melt has a rear end. Is discharged to the nozzle part 24 of the.

Accordingly, the chip wires discharged through the nozzle unit 24 may be discharged to the cooling unit 26 while having a uniform chip wire thickness by the continuous metering pumping operation of the recycled resin melt metering pump 22. .

In the above description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be determined by the described embodiments, but should be determined by the equivalent of utility model registration claims and utility model registration claims.

The present invention can be used to manufacture a resin recycled chip.

1 is a schematic configuration diagram of a resin recycling chip manufacturing apparatus having a reclaimed resin liquid quantitative discharging device according to an embodiment of the present invention,

Figure 2 is a schematic configuration diagram of the regeneration resin quantitative discharging device of FIG.

<Explanation of symbols for the main parts of the drawings>

(22)-Reclaimed resin liquid dispensing device (30)-Gear pump

(32)-Gear (34)-Funnel

(36)-Exhaust Furnace (38)-Pressure Sensor

(40)-Motor control unit (42)-Drive motor

Claims (1)

In the resin recycling chip manufacturing apparatus comprising a configuration in which the melted resin scrap is discharged through the nozzle unit by extruding the resin scrap in the extrusion melting furnace, A gear pump 30 installed at the front end of the nozzle unit 24 and kneading and pumping the recycled resin melt melted in the extrusion melting furnace to the nozzle unit 24; A drive motor 42 for driving the gear pump 30, A pressure sensor 38 installed in the discharge path 36 of the gear pump 30, Quantitative discharge of the regenerative resin solution, characterized in that it comprises a motor control unit 40 for controlling the drive motor 42 to converge to a predetermined target discharge pressure value based on the current discharge pressure value detected by the pressure sensor 38. Device.

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