JPH0126430B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an improvement of a shaft sealing device for a resin processing machine such as an extruder. As is well known, shaft sealing devices are used to prevent internal molten resin from leaking outside or outside air from flowing into the machine body at the point where the shaft of an extruder passes through the machine body. .

(Prior art) Conventionally, as a shaft sealing device, a notch is provided in the main body 2 at the part where the shaft 1 passes through the main body 2, as shown in FIG. The shaft is held by a flange 4 and the shaft is sealed. However, in devices such as thermoplastic resin extruders where the shaft reciprocates in the longitudinal direction or causes shaft vibration, the packing is severely worn, and a gap quickly forms between the packing and the shaft, making it difficult to seal. It has the disadvantage of becoming

(Object of the present invention) The purpose of the present invention is to overcome the drawbacks of the conventional shaft sealing device. This was invented to prevent molten resin inside the machine from leaking to the outside of the machine body.

(Configuration of Embodiment) FIG. 2 is a sectional view for explaining a shaft sealing device according to an embodiment of the present invention. As for the sealing mechanism, first, like the conventional device, a labyrinth 3' is held by a flange 4 at a location where the shaft 1 penetrates to the outside of the machine body 2. A notch is provided over the entire circumference on the outer end surface of the flange 4 in contact with the shaft 1, and the seal ring 5 is mounted here. The seal ring 5 is prevented from rotating by a rotation prevention pin (not shown), and is secured to the outside by springs 6 installed in spring insertion holes provided at 40 to 45 degrees pitch. It is biased and forms a sealing surface A with a seal ring 5' which will be described later. Further, the flange portion 4 is provided with a sealing hole C, into which a gas fluid for sealing, cooling, or lubrication is injected.

On the other hand, a sleeve 7 is fitted with a key 8 to a portion of the shaft 1 that protrudes from the main body 2, and rotates together with the shaft 1. The keyway 8' has a length necessary for the reciprocating movement of the shaft 1, and the sleeve 8 is inserted through a spring 6'' to facilitate the attachment and detachment of the sleeve 7. On the other hand, the case 10 is inserted into the bearing 9 , a bolt 11' that is attached to the sleeve 7 by a bearing retainer 13 and fitted with a spring 6' provided on its flange 4'.
It is engaged with the main body flange 4 by. A suitable gap is provided between the bolt 11' and the through hole for the bolt 11' provided in the flange 4' to enable movement in the direction perpendicular to the axis due to shaft runout. A cylindrical protrusion 12 is provided on the machine main body 2 side of the case 10, and is pressed against the main body flange 4 so as to be slidable in the direction perpendicular to the axis on the B surface. Cutouts are provided at the upper and lower ends of the protrusion 12 (not shown, however) for fluid leakage. Also, sleeve 7
A seal ring 5' is provided on the end face of the main body and rotates together with the sleeve. In addition, this device has seal 1
4. Sealed by dust seal 15 and O-ring 16.

The device is supported relative to the main body via springs 6 and 6'. Therefore, when shaft vibration occurs, it is absorbed by the sliding movement of the seal surfaces A and B. Further, even when the shaft reciprocates, the sealing surface A is not damaged, so the sealing effect is extremely high and it can withstand long-term use.

(Structure of the present invention) As described above, the present invention provides a shaft sealing device in which a flange is provided at the portion where the shaft passing through the machine body projects to the outside, and a seal ring is attached to the inner peripheral end of the flange via a spring. and connect the sleeve with a key to the part of the shaft that protrudes from the machine body,
A seal ring is provided on the end surface of the sleeve on the main body side, and the two seal rings form a seal surface, and the case mounted on the sleeve via the bearing is connected to the flange by a connecting means having a spring, so that the end surface of the case main body is A shaft sealing device, characterized in that the shaft sealing device is capable of sliding in contact with the flange.

(Operations and Effects of the Present Invention) According to the present invention, sealing parts such as packing of conventional shaft sealing devices were damaged due to shaft rotation, reciprocating motion, shaft vibration, etc., and the sealing effect was insufficient. The sealing surface A is formed by the two seal rings, and the vibration caused by the shaft runout is absorbed by the sliding surface B, so the sealing effect is large and it can withstand long-term operation.

[Brief explanation of drawings]

FIG. 1 is a partially sectional view for explaining a conventional shaft sealing device.
FIG. 2 is a partially sectional view of the embodiment of the present invention. 1... shaft, 2... machine body, 3... packing,
3'... Labyrinth, 4, 4'... Flange, 5,
5'...Seal ring, 6,6',6''...Spring,
7...Sleeve, 8...Key, 8'...Keyway,
9... Bearing, 10... Case, 11, 11'...
... Bolt, 12 ... Case protrusion, 13 ... Bearing holder, 14 ... Seal, 15 ... Dust seal,
16...O-ring.

Claims (1)

[Claims] 1. In a shaft sealing device for a resin processing machine, a flange 4 is provided at the part where the shaft 1 passing through the machine body 2 projects to the outside, and a seal ring 5 is fitted to the inner peripheral end of the flange via a spring 6. , machine body 2 of axis 1
A sleeve 7 is connected by a key 8 to the part that protrudes more outwardly, a seal ring 5' is provided on the end surface of the sleeve on the side of the machine body 2, and the two seal rings 5, 5' form a seal surface A, and The case 10 attached to the sleeve 7 via the bearing 9 is connected to the flange 4 by a connecting means having a spring 6', and the end face of the case 10 body contacts the flange 4 and is slidable. Characteristic shaft sealing device for resin processing machines.