JPS62269738A - Bearing device - Google Patents

Abstract

PURPOSE:To simplify the title bearing device by providing a screw for transferring a liq. to the bearing side placed at the next to the bearing of a rotating shaft, a liq. circulating passage for communicating the end part of the bearing with the inside of the main body furnished with a pressure sensor, etc. CONSTITUTION:When the rotating shaft 4 is rotated, the liq. in the main body 1 is transferred to the bearing 2 side by the screw 6, and introduced into a liq. circulating groove 3. After the bearing 2 is lubricated, the liq. is introduced into the liq. circulating passage 7 from the end part of the bearing 2, and returned into the main body 1 from an outlet 9. The viscosity of the liq. can be measured by detecting the liq. pressure in the liq. circulating passage 7 with the pressure sensor 8, and calculating the length of the liq. circulating passage 7 to the outlet 9 and the discharge capacity of the screw 6. The viscosity of a high molecular substance is correlated to its quality, and hence the device can be effectively used for a high molecular substance such as polyethylene terephthalate.

Description

Detailed Description of the Invention 3. Detailed Description of the Invention [Field of Industrial Application] The present invention relates to a bearing device, and particularly to a bearing device suitable for a bearing of an agitator for processing a high viscosity liquid.

[Conventional technology]

In the conventional bearing device for an agitator, since an external oil supply gt position is used, the bearing device is provided through a shaft seal device. In addition, as this type of device, for example,
-40599 etc. are mentioned.

[Problem that the invention seeks to solve]

In conventional shaft seals and bearing devices, in addition to the bearing, shaft seal devices such as mechanical seals, gland seals, O-rings, and other seals are required, as well as a shaft seal fluid supply device and cooling device. In addition, since it requires an oil supply device and a cooling device for the bearing device, there are problems in that the structure is complicated and the equipment cost is high. Furthermore, in the case of a stirring tank for treating high viscosity liquids, a separate liquid viscosity needle was required to measure the viscosity of the liquid in the stirring tank.

SUMMARY OF THE INVENTION An object of the present invention is to solve the problems in the prior art described above and to provide a bearing device that has a simple structure and does not require an external oil supply device or a shaft seal device.

[Means for solving problems]

The above purpose is to provide a bearing that supports one end of the rotating shaft by providing a liquid circulation groove in the axial direction on the inner surface of the bearing in the stirring tank body, and a bearing that is provided adjacent to the bearing on the rotating shaft to transfer the liquid in the main body to the bearing side. This is achieved by providing a liquid circulation passage that communicates between the bearing end and the inside of the main body, and a pressure sensor provided in the middle of the liquid circulation passage.

[For production]

When the rotary shaft rotates, the liquid in the main body is transferred to the bearing side by the screw, enters the liquid circulation groove, lubricates the bearing, and then returns to the main body through the liquid circulation passage.

Further, the liquid viscosity can be measured by detecting the liquid pressure with a pressure sensor provided in the middle of the liquid circulation passage.

〔Example〕

An embodiment of the present invention will be described below with reference to FIGS. 1 and 2. l is the main body of the stirring tank, 2 is a liquid circulation groove 3 in the axial direction on the inner surface.
4 is a rotary shaft whose one end is supported by the bearing 2 via a sleeve 5, and 6 is a bearing 2 for transferring the liquid in the main body l to the bearing 2 side. Screws provided at the end of the rotating shaft 4 adjacent to , 7 are liquid circulation passages connecting the end of the bearing 2 opposite to the rotating shaft 4 and the inside of the main body 1, and 8 are liquid circulation passages 7. A pressure sensor 9 provided in the middle is an outlet of the liquid circulation passage 7 on the main body 1 side.

In the configuration described above, when the rotating shaft 2 rotates, the main body l
The liquid inside is transferred to the bearing 2 side by the screw 6, enters the liquid circulation groove 3, lubricates the bearing 2, passes through the liquid circulation passage 7 from the end of the bearing 2, and is returned into the main body l from the outlet 9. .

Furthermore, by detecting the liquid pressure in the liquid circulation passage 7 with the pressure sensor 8, the viscosity of the liquid can be measured by calculating the distance to the outlet 9 of the liquid circulation passage 7 and the discharge capacity of the screw 6. , especially polymeric substances (thermoplastic resins, etc.)
There is a correlation between viscosity and quality, and it is effective for substances with high processing liquid viscosity, for example, polymeric substances such as polyethylene terephthalate.

According to the embodiment described above, since the bearing 2 can be lubricated by the liquid inside the main body 1, there is no need to supply lubricating oil from the outside, and the bearing device can be installed inside the sealed main body 1. C
5. The device can be simplified.

next,! A case where the bearing device of the present invention is employed in a continuous polymerization apparatus for thermoplastic resin will be explained with reference to Fig. J3. l
O is a polymerized 51tM main body, 11 is a bearing device according to the present invention,
The company is a pressure control valve, 8a and 8b are pressure sensors, and a bearing device! Polymerize ill! The polymerization apparatus main body 10 is installed on the product outlet side of the aM main body 10 to measure the viscosity of the product, determine the quality of the product based on the viscosity, and actuate the pressure control valve, which is a factor that affects the quality. Control internal pressure. Further, by providing the bearing device 11 on the raw material inlet side of the polymerization apparatus main body 10, the difference in viscosity of the liquid before and after treatment can be determined, which can further contribute to product quality determination.

〔Effect of the invention〕

According to the invention, external lubrication g! The bearing device can be simplified without requiring a shaft sealing device, a shaft sealing device, or a cooling device.

[Brief explanation of drawings]

FIG. 1 is a vertical cross-sectional view showing an embodiment of a bearing device according to the present invention, FIG. 2 is a side view of the same bearing, and FIG. 3 is a system showing an example of a continuous polymerization apparatus for thermoplastic resin in which the present invention is applied. It is a diagram. 1... Stirring tank body, 2... Bearing, 3.
...Liquid flow groove, 4...Rotating shaft, 5...Sleeve,
6...Suffu, Yu, 7...-Liquid circulation channel, 8
, 8 a, 8 b...-pressure sensor, 9...
・Outlet, 10... Polymerization device main body, 11...
・・Bearing device, ・・Pressure control valve ,,′
r). Figure 1 2nd evil

Claims (1)

[Claims] 1. In a bearing device for an agitating tank having a rotating shaft with a stirring blade fixed therein, the bearing device includes a bearing that supports one end of the rotating shaft by providing a liquid flow groove in the axial direction on the inner surface of the bearing in the agitating tank body, and the rotating shaft. A screw is provided adjacent to the bearing to transfer the liquid inside the main body to the bearing side, a liquid circulation passage connecting the end of the bearing and the inside of the main body, and a pressure sensor provided in the middle of the liquid circulation passage. A bearing device characterized by: