JP2020182925A - Molten hot melt adhesive feeder using screw extruder - Google Patents

Abstract

[Problem] To apply a block of solid hot melt adhesive as a hot melt adhesive in a melt pressure feeding device using a screw extruder, and smoothly melt and supply it continuously. [Solution] In a molten hot melt adhesive supply device using a screw extruder, a hopper is provided at the inlet of the cylinder of the screw extruder to drop and supply a block of hot melt adhesive in solid state, and an inductor 10 is provided adjacent to the front part of the lower end of the hopper to form a block guide space B that communicates with a block input space A at the lower end of the hopper 9. [Selected drawing] Figure 1

Description

Detailed description of the invention

The present invention relates to a molten hot melt adhesive supply device for heating and melting a hot melt adhesive in a solid state and supplying it as a hot melt adhesive in a molten state to an adhesive coating device.

As a known means for heating and melting a hot-melt adhesive in a solid state and supplying it as a hot-melt adhesive in a molten state to an adhesive coating device, there is a melt pumping device using a screw-type extruder shown in FIG.
In the melt pumping device using the screw type extruder, a hopper 9 is provided on the inlet side of the cylinder 1, and a pellet-shaped solid hot melt adhesive MA is supplied to the hopper 9 and driven into the cylinder 1. It is equipped with a screw 2 that is rotationally driven by a wheel 4.
A pellet-shaped solid hot-melt adhesive MA supplied from the hopper 9 is conveyed to the inlet of the cylinder 1 toward the outlet of the cylinder 1 by the rotation of the screw 2, and a heater 3 is provided on the outlet side of the cylinder 1. The outlet side of the cylinder 1 is heated.
The pellet-shaped solid hot-melt adhesive MA supplied to the hopper 9 is forcibly conveyed in the cylinder 1 heated by the heater 3 while being melted to the outlet 6 side by the screw 2 rotationally driven by the motor M. Then, it becomes a molten hot melt adhesive MC via a semi-molten hot melt adhesive.
From the outlet 6 of the cylinder 1, the molten hot melt adhesive MC is supplied to the molten hot melt tank (not shown) of the coating apparatus via the hose 8.

Problems to be solved by the invention

In the melt pumping device using the screw type extruder shown above, the block-shaped solid hot melt adhesive MA contacts the front wall 9a at the lower end of the hopper 9 at the inlet 5 of the cylinder 1 to prevent advancement. Will be done. As a result, there is a problem that the block-shaped hot melt adhesive MA cannot be smoothly fed.
Therefore, it is an object of the present invention to apply a solid hot melt adhesive of a block as a hot melt adhesive in a solid state in a melt pumping device using a screw type extruder, and to smoothly continuously melt and supply the adhesive. And.

Means to solve problems

According to the present invention, in a molten hot melt adhesive supply device using a screw type extruder, a hopper for dropping and supplying hot melt adhesive in a block solid state is provided at a cylinder inlet of the screw type extruder, and the hopper A derivative 10 is provided adjacent to the front end portion of the lower end to form a block guide space HB communicating with the block input space HA at the lower end portion of the hopper 9.

The invention's effect

In the present invention, the block-shaped solid hot-melt adhesive supplied to the hopper is guided by guiding the block-solid hot-melt adhesive dropped and supplied from the hopper into the cylinder 1 via the guide space HB. It has the effect of being able to be smoothly supplied as a molten hot melt adhesive without causing retention in the cylinder.
Therefore, as the solid hot melt adhesive, there is an effect that the block-shaped solid hot melt can be dropped and supplied from the hopper, and the molten hot melt adhesive can be supplied without generating a heat history.

FIG. 3 is a vertical cross-sectional view of a molten hot melt adhesive supply device using a screw type extruder showing an embodiment of the present invention. Similarly, a plan view of a partial cross section. The vertical sectional view by the S3-S3 cutting line of FIG. A vertical sectional view similar to FIG. 3 showing the operation of the present invention. A perspective view showing a solid hot melt. A vertical sectional view of a molten hot melt adhesive feeder using a screw type extruder showing a conventional example.

Hereinafter, the present invention will be described in detail based on the examples shown in the drawings.
With reference to FIG. 1, the drive wheel 4 rotationally driven by the motor M rotationally drives the screw 2 in the cylinder 1, and the heater 3 heats the cylinder 1. The cooling water circulation means 12 is connected to the screw shaft 11, and the screw shaft 11 is cooled by the cooling water W.
The hopper 9 is installed by looking into the supply port 5 of the cylinder 1. The hose 6 is connected to the outlet 4 of the cylinder 1.

A derivative 10 is provided adjacent to the front surface of the lower end of the hopper 9 to form a block guide space B communicating with the block input space A inside the hopper 9.
A guide port 7 is continuously provided / added in front of the supply port 5 of the cylinder 1, and the supply port 5 is substantially expanded.
The block input space A communicates with the internal space of the cylinder 1 via the supply port 5 and the guide port 7.
The derivative 10 regulates the top surface of the block guide space B, and the bottom surface (working surface) of the derivative 10 has a slope shape that descends toward the outlet side of the cylinder 1.

Hereinafter, the operation of the present invention will be described.
With reference to FIG. 4, the block-shaped solid hot melt adhesive MA is dropped and supplied to the hopper 9.
In the examples, as the block-shaped solid hot-melt adhesive MA, a 45x95x270 mm horizontally arranged square pillar-shaped block was applied.
The block-shaped solid hot-melt adhesive has various shapes, and those having an appropriate shape and size can be applied.

The block-shaped solid hot-melt adhesive MA at the lower end is located on the upper surface of the screw 2 and is located in the first half of the block loading space A and the block guide space B. 1 ▼ bite, ▲ 2 ▼ receive the screw action of pulling.
As a result, it moves to the working space C of the screw 2.

Next, by moving in the screw working space C, Q (3) transfer / press-fitting (4) melting action is performed, and then the molten hot melt adhesive MC is obtained.

Thus, the molten hot melt adhesive MC is delivered from the outlet 6 of the cylinder 1 to the tank of the coating apparatus via the hose 8.

The block solid hot melt adhesive sent to the supply port 5 of the screw type extruder is forcibly conveyed toward the outlet 6 by the screw 2 rotationally driven by the motor, and is changed from the solid state to the molten state by heating by the heater 3. It moves to the outlet 6 while changing, and does not stay in the cylinder 1.

The block-shaped solid hot-melt adhesive to be charged into the hopper 9 is not limited to the 45 × 95 × 270 mm horizontally arranged square pillar-shaped block (▲ 1 ▼ in FIG. 4) shown in the examples, and has various shapes and dimensions. Things can be applied. For example, those having a shape and dimensions smaller than the cross-sectional shape of the hopper 9 shown in FIGS. 2 ▼ and 3 ▼ can be used.
Further, even when a pellet-shaped, round-shaped, chunk-shaped, or gel-like liquid hot-melt adhesive is charged, the hot-melt adhesive is smoothly delivered from the hopper 9 to the cylinder 1.

The present invention promotes the use of a coating device using a molten hot melt adhesive and contributes to the development of industry.

1 Cylinder 2 Screw 4 Outlet 5 Supply port 6 Hose 7 Guide port 9 Hopper A Block insertion space B Block guidance space

Claims (1)

In a molten hot melt adhesive feeder using a screw extruder
A hopper that drops and supplies hot melt adhesive in the block solid state is provided at the input port of the cylinder of the screw type extruder.
Derivatives are provided adjacent to the front of the lower end of the hopper.
A molten hot melt adhesive supply device using a screw type extruder, which is characterized by forming a block guide space that communicates with a block input space at the lower end of the hopper.

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