KR102111096B1 - Oil seal - Google Patents

Abstract

 The present invention forms a mounting groove at a predetermined depth and diameter on the upper part of the body formed in a ring shape using Teflon, and forms a binding groove in a circular shape on the inner periphery of the mounting groove to bind a coil spring provided in a ring shape. In addition, the upper portion of the outer body of the mounting groove presses a reinforcing ring, so that even if high temperature is applied or the chemical is in contact, the body does not contract or expand, thereby preventing leakage of lubricant or chemicals due to deformation. In order to improve the processability, productivity and economics, we want to provide an oil seal.

Description

Oil seal

The present invention relates to an oil seal, and more specifically, to prevent the phenomenon of leakage of lubricant or the like through the outer surface of the shaft or the housing surface of the device, which is installed in rotation or reciprocation of various devices, such as a pump, compressor, or hydraulic equipment. , In particular, it is capable of withstanding high temperatures, and relates to an oil seal having durability against chemicals.

As is well known, the oil seal prevents abrasion and overheating of bearings such as pumps, generators, compressors, etc., in bearing housings through which rotating shafts of various rotating machines pass, and bearings that support the rotating shafts to rotate smoothly. , The oil chamber is interposed in the shaft shaft of the rotating shaft and the housing through which the rotating shaft passes, so that the lubricant does not leak to the outside during operation.

Among the conventional oil seals, there was a ring-shaped oil seal made of Teflon for use with a shaft having a large diameter, and these oil seals combine shafts having a diameter larger than the diameter of the inner surface when joining the shafts through their inner surfaces. As the inner surface of the oil seal opens in proportion to the difference in diameters of the inner and outer surfaces, the contraction force caused by self-elasticity, which occurs according to the degree of opening, acts, so that the inner surface of the oil seal is tightly sealed to maintain the airtightness on the outer surface of the shaft. Even in the process of rotating or reciprocating, the lubricant or the like was leaked through the inner and outer surfaces or foreign matter was not introduced from the outside.

However, these oil seals have excellent wear resistance, chemical resistance, etc., and are non-wetting and self-lubricating, whereas they are hard compared to rubber, and thus have limitations in causing their inner surfaces to open, so that the difference between the inner surface diameter and the shaft diameter is relatively different. Since it should be minimized, the extent to which the inner surface is opened is relatively reduced, and the contraction force acting to be in close contact with the outer surface of the shaft is weakened, and thus there is a problem in that the function of blocking leakage of lubricant or inflow of foreign substances is greatly reduced.

In addition, considering this point, the difference in diameter between the inner surface and the shaft of the oil seal is increased to strengthen the shrinkage force, so that the inner surface of the oil seal is kept in close contact with the outer surface of the shaft, but in this case, their frictional force is relatively high and the oil increases. There was also a problem that the shaft was easily worn as well as the seal, resulting in a shortening of its life.

In order to solve this problem, the oil seal of Patent Registration No. 10-1395983, which has been proposed by the applicant of the present invention, protrudes and forms a sealing jaw on the sealing portion and installs a reinforcing member provided with a binding piece on the inner surface of the cover member. In order to prevent the main member from being denatured or abrasive, the number of parts is large and the processability and economic efficiency are greatly reduced, and when a high temperature is applied to the oil seal or comes into contact with chemicals, the main member is formed of Teflon as it repeats contraction and expansion. The body contained a problem that deformation occurred within the cover member.

Registered Patent Publication No. 10-0499798 Registered Patent Publication No. 10-1395983

Therefore, in order to solve the above problems, the present invention forms a mounting groove at a predetermined depth and diameter on the upper portion of the body formed in a ring shape using Teflon, and a binding groove is formed in a circular shape on the inner periphery of the mounting groove. By attaching the coil spring provided in the form of a ring, and the upper part of the outer body of the mounting groove presses the reinforcing ring, so that the body does not contract or expand even if high temperature is applied or it comes into contact with chemicals. An object of the invention is to provide an oil seal that can prevent leakage of lubricants or chemicals and greatly improve processability, productivity, and economy.

In order to achieve the above object, the present invention is tightly coupled to the shaft so that lubricant or chemicals do not leak through the outer surface of the shaft, which is installed to rotate or reciprocate the pump or compressor or hydraulic equipment and various devices, and the inner surface of the device. In the oil seal, the compression molding is performed in the form of a ring using Teflon, and an axial hole is formed through the center, and a mounting groove of a predetermined depth is formed in a circular shape on the outer upper portion of the shaft hole, and an inner peripheral portion of the mounting groove The binding groove is integrally formed, the body having a predetermined depth and a circular indentation groove on the outer upper portion of the mounting groove; An elastic member inserted through the mounting groove of the body and attached to the binding groove, or provided in a ring shape to be inserted into and coupled to the mounting groove; Including, a ring-shaped reinforcement ring that is press-fitted and installed in the press-fit groove formed on the outer upper portion of the mounting groove of the body to prevent deformation of the body. , It characterized in that the deformation of the body can be minimized by combining a reinforcing member formed in a ring shape of a coil spring provided separately in the fixing groove.

delete

As described above, by providing the oil seal according to the present invention, the resistance to high temperature and chemicals is enhanced to prevent the body from contracting or expanding, thereby preventing leakage of lubricant or chemicals due to deformation, and processability and productivity are improved. Of course, there is an effect that can greatly improve the economic efficiency.

1 is a schematic exploded perspective view of an oil seal according to the present invention.
Figure 2 is a perspective view of a combined state of the oil seal according to the invention.
3 is a cross-sectional view of an oil seal according to the present invention.
4, a, b is an exemplary view showing an elastic member of the oil seal according to the present invention.
Figure 5 is a cross-sectional view showing another embodiment of an oil seal according to the present invention.

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

As shown, the oil seal 100 according to the present invention is installed in a housing of a mechanical device, and lubricant or chemicals are not leaked when rotating or reciprocating while a shaft having a predetermined length and diameter is tightly inserted. As to prevent it, the body 110 and the elastic member 120 and the reinforcing ring 130 is largely composed.

The body 110 is compression molded using Teflon, which is excellent in durability, abrasion resistance and chemical resistance, and then processed after heat treatment, but in the upper center, a shaft (not shown) of a mechanical device can be inserted into a predetermined diameter. Shaft hole 112 is formed to penetrate, the mounting groove 114 of a predetermined depth is formed in a circular shape on the outer upper portion of the shaft hole 112, the binding groove 116 is circular on the inner periphery of the mounting groove 114 It is formed, and the press-fit groove 118 is formed in a predetermined depth and a circle on the outer upper portion of the mounting groove 114.

That is, the body 110 is formed with a shaft hole 112 in the center, and forms a mounting groove 114 outside the shaft hole 112, but a binding groove 116 is formed inside the mounting groove 114. It is formed, the press-fit groove 118 is formed integrally with the outside of the mounting groove.

The elastic member 120 is provided to prevent the shaft hole 112 of the body 110 from being expanded or deformed by the environment of the mechanical device, and is provided in a ring form by connecting both ends of the coil spring having a certain length. Alternatively, a metal plate body having a predetermined length made of stainless steel may be press-processed to have a “U” cross-section and connected to both ends to provide a ring-shaped release spring.

At this time, when the coil spring is provided to the elastic member 120, it is only necessary to insert it through the mounting groove 114 of the body 110 and bind to the binding groove 116 formed in the inner periphery, and the elastic member 120 ) If a release spring is provided, it may be inserted into and coupled to the mounting groove 114 of the body 110.

The reinforcing ring 130 is provided to prevent the outer shape of the body 110 from being deformed by the environment of the mechanical device, and is made of a metal plate body having a certain length made of stainless material having excellent durability, corrosion resistance, and chemical resistance. It is sufficient to connect both ends integrally to form a ring.

At this time, the reinforcing ring 130 provided in the form of a ring is preferably installed so as not to be exposed to the outside by being tightly pressed into the pressing groove 118 formed on the upper part of the body 110, but the body 110 is provided. It may be compression molded so that the body 110 and the reinforcing ring 130 are integrated by injecting Teflon resin while the reinforcing ring 130 is first placed inside the forming mold.

Meanwhile, as illustrated in FIG. 5, a fixed groove 119 of a predetermined depth is formed in a circular shape on the outer circumference of the body 110, and a coil spring provided separately in the fixed groove 119 is formed in a ring shape. It is preferable to combine the reinforcing members 140 to minimize deformation of the body 110 so that durability is greatly improved.

The oil seal 100 according to the present invention composed of a plurality of component parts as described above is a mounting groove 114 formed outside the shaft hole 112 of the body 110 or a binding groove formed in the inner periphery of the mounting groove 114 ( Inserting and binding the elastic member 120 to 116, is installed to be press-fitted so that the reinforcing ring 130 is not exposed to the outside of the mounting groove 114, a fixed groove formed on the outer periphery of the body 110 ( 119) is installed inside the housing of the mechanical device in a state in which a separate reinforcing member 140 is coupled, and the axis inserted into the shaft hole 112 formed in the center of the body 110 performs stable rotational or reciprocating motion. It is possible to do.

Therefore, the oil seal 100 according to the present invention further improves the durability, corrosion resistance and chemical resistance of the body 110 by the elastic member 120, the reinforcing ring 130, and the reinforcing member 140. By preventing or minimizing the deformation of the body 110, it can be applied to a machine that generates high temperature or a machine that processes chemicals, so that the range of use can be extended and the life of the machine can be extended. It is an invention that has very high industrial applicability.

110: body 112: shaft hole
114: mounting groove 116: binding groove
118: Pressing groove 119: Fixing groove
120: elastic member 130: reinforcing ring
140: reinforcement member

Claims (2)

In the oil seal in which the shaft is tightly coupled so that lubricant or chemicals do not leak through the outer surface of the shaft, which is installed to rotate or reciprocate the pump or the compressor or hydraulic equipment and various devices, and the inner surface of the device,
Compression molding is performed in the form of a ring using Teflon, a shaft hole is formed through the center, a mounting groove having a predetermined depth is formed in a circular shape on the outer upper portion of the shaft hole, and a binding groove is integrally formed at an inner periphery of the mounting groove. It is formed, and a body having a predetermined depth and a circular press-fit groove on the outer upper portion of the mounting groove;
An elastic member inserted through the mounting groove of the body and attached to the binding groove, or provided in a ring shape to be inserted into and coupled to the mounting groove;
It includes a reinforcing ring in the form of a ring that is press-fitted and installed in the press-fit groove formed on the outer upper portion of the mounting groove of the body to prevent deformation of the body.
On the outer periphery of the body, a fixed groove having a predetermined depth is formed in a circle, and a coil spring provided separately in the fixed groove is combined with a reinforcing member formed in a ring to minimize deformation of the body. Oil seal. delete

Images