KR102484963B1 - Assembled Rotary Joint - Google Patents

Abstract

The present invention relates to an assembly type rotary joint. More particularly, the present invention relates to an assembly type rotary joint that can prevent leakage of a lubricant by preventing inflow into a lubrication space even when water leakage occurs at a joint and can be easily assembled. According to the present invention, the assembly type rotary joint comprises: a casing having a space part to which a rotor is coupled on one side and a flange for installation formed on the opposite side; a rotor inserted into the space part of the casing in a cylindrical shape and having a passage through which fluid passes; a bearing case provided between the casing and the rotor to rotate the rotor; and a guide ring which is coupled to the end of the rotor, and is for connection of mechanical devices.

Description

Assembled Rotary Joint {Assembled Rotary Joint}

The present invention relates to an assembly-type rotary joint, and more particularly, to an assembly-type rotary joint capable of preventing leakage of a lubricant by preventing inflow into a lubrication space even if leakage occurs at a joint, and which can be easily assembled. .

A general rotary joint refers to a pipe joint or a fitting that connects relatively rotating piping or equipment to each other, and usually supplies or discharges fluid from fixed piping to rotating parts of various machinery without leaking. Refers to the pipe fittings used when

In other words, it is a connecting device that supplies or discharges fluids such as coolant and cutting oil to the rotating body by connecting the fixed pipe and the rotating body. Machine tools using a rotating shaft, such as lathes and milling grinders, The rotating shaft is cooled by passing fluid such as cooling water or cutting oil through the furnace, or the rotating shaft is used as a fluid movement passage.

In this way, in order to pass the fluid through the rotating shaft, a rotary joint having a structure in which the fluid does not leak while connecting the fixed pipe and the rotating body is required.

In the past, various rotary joints having a structure in which various rotating bodies are connected to a fixed body so as to be rotatable and fluids can flow at the same time have been developed. Various structures have been developed and employed for the rotary joint, but it has not been easy to develop a structure that does not leak fluid at all in that the rotating body is rotatably connected to the fixed body.

In particular, when the highly corrosive fluid passes through the passage in the rotary joint, the passage is corroded by the highly corrosive fluid due to friction with the fluid for a long period of time, and the coupling force between the rotary joint and the pipe is reduced, deformation and damage occur , and, furthermore, foreign matter due to corrosion of the passage is separated, resulting in contamination of the fluid and deterioration of the operation of the mechanism.

Patent Document 1 is exposed at one end of the first flow path of the rotating shaft in a rotary joint comprising a rotating shaft, a seal housing, a seal member, a body portion, a bearing portion, a tension adjusting portion, and a first and second connecting member to form a cylindrical shape. While forming one end, the first cover tab protruding is connected to the first cover tab, extends along the first flow path, and adheres closely to the inner circumferential surface of the first seal groove of the rotating shaft while being closely fixed to the inner circumferential surface of the first flow path. A first connecting member forming a first connecting piece so that one is in close contact with the inner circumferential surface, and a second connecting piece that is in close contact with the inner circumferential surface of the second seal groove of the seal housing and the other one of the seal members is in close contact with the inner circumferential surface. The first protruding tab that is closely fixed to the inner circumferential surfaces of the flow passage and the third passage and protrudes outward from one outer circumferential surface so as to be closely fitted between the end of the second body of the seal housing and the end of the second space of the body portion and the second passage of the body portion It consists of a second connection member integrally formed with a second cover tab that is exposed from the other end and protrudes in a circumferential shape. To maximize the floating position of the connection member for high-speed flowing fluid, a slip prevention unit is installed to respond to the flow rate. The anti-slippery part itself has excellent mechanical, physical, and chemical properties and has the thickness required for the method, and the process of replacement and installation is simple, minimizing the cost required for the process. economy can be achieved.

However, Patent Document 1 is cumbersome to assemble, and separation is not easy, so there are problems in reinstallation and maintenance.

KR 10-1845987 B1

In order to solve the above problems, the present invention proposes an assembly structure for the flange, so that even if leakage occurs at the joint, it is possible to prevent leakage of lubricant by preventing inflow into the lubrication space, and to provide an assembly-type rotary joint that can be easily assembled. It aims to provide

In order to achieve the above object, the present invention is a space portion to which the rotor is coupled to one side, and a casing in which a flange for installation is formed on the opposite side; a rotor inserted into the space of the casing in a cylindrical shape and having a passage through which fluid passes; a bearing case provided between the casing and the rotor to rotate the rotor; It is coupled to the end of the rotor and provides an assembly-type rotary joint comprising a guide ring for connection of a mechanical device.

Here, the bearing case is formed in a cylindrical shape, and packing for preventing leakage of lubricating oil; A quad ring to prevent leakage of lubricating oil; a thrust bush for supporting the end of the rotor on the inside; It includes a dry bearing for supporting rotation of the rotor, and a first O-ring for preventing leakage of lubricating oil corresponding to the casing outside the bearing case.

In addition, a snap ring is further provided on one side of the casing to prevent separation of the bearing case provided inside, and the snap ring includes a spring pin for fixing the snap ring to the bearing case by pin coupling.

On the other hand, the rotor has a cylindrical shape having a hollow passage, and a third O-ring is provided while the guide ring is coupled to the side of the machine, and a drive pin that penetrates the guide ring to correspond to the drive groove formed at the end of the rotor and is coupled with the drive pin characterized in that they are combined.

By providing the present invention configured as described above, even if leakage occurs at the joint, it is possible to prevent leakage of the lubricant by preventing the inflow into the lubrication space, and there is an effect that the assembly can be easily performed.

1 is a configuration diagram showing an assembly-type rotary joint according to the present invention.
Figure 2 is a configuration diagram showing a flange applied to the assembly type rotary joint according to the present invention.
Figure 3 is an exemplary view showing a separation operation in the assembly type rotary joint according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily practice the present invention.

1 is a configuration diagram showing an assembly-type rotary joint according to the present invention. 2 is a configuration diagram showing a flange applied to an assembly-type rotary joint according to the present invention. Figure 3 is an exemplary view showing a separation operation in the assembly-type rotary joint according to the present invention.

As shown in FIGS. 1 to 3, the assembly-type rotary joint of the present invention has a space portion 1a to which the rotor 2 is coupled on one side and a casing 1 in which a flange 16 for installation is formed on the opposite side. )class; a rotor 2 inserted into the space 1a of the casing 1 in a cylindrical shape and having a passage 2a through which fluid passes; a bearing case 3 provided between the casing 1 and the rotor 2 to rotate the rotor 2; It is coupled to the end of the rotor 2 and may include a guide ring 12 for connection of mechanical devices.

According to Figure 2, the bearing case (3) is formed in a cylindrical shape, and the packing (4) for preventing leakage of the lubricating oil; a quad ring 5 preventing leakage of lubricating oil; a thrust bush 8 supporting the end of the rotor 2 on the inside; It includes a dry bearing 6 that supports rotation of the rotor 2, and a first O-ring 7 that prevents leakage of lubricating oil corresponding to the casing 1 may be included outside the bearing case 3. there is.

At this time, it is preferable that a second O-ring 9 is provided on the inside of the flange 16 to prevent leakage of the supplied fluid.

Here, according to FIG. 1, one side of the casing 1 is further provided with a snap ring 10 for preventing the separation of the bearing case 3 provided on the inside, and the snap ring 10 is coupled with a pin to the bearing case 3. It may include a spring pin 14 for fixing the snap ring 10 as.

On the other hand, one or more stepped grooves 18 are formed along the circumference of the flange 16, and a separation hole 19 having a screw thread inside may be formed through a portion corresponding to the stepped grooves 18.

That is, the flange ( 16) can be easily separated by pushing it out of the piping system.

In addition, the rotor 2 has a hollow cylindrical shape with a passage, and a third O-ring 11 is provided between the guide rings 12 coupled to the machine side, and the drive groove 2b formed at the end of the rotor 2 ) Correspondingly, the drive pin 13 penetrating the guide ring 12 and coupling the pin may be coupled.

At this time, a fourth O-ring 15 is further provided on the outer circumference of the guide ring 12 to prevent leakage of fluid in the coupled state of the mechanical device.

Meanwhile, a surface coating 20 may be further provided on the surface of the rotor 2 to ensure wear resistance in response to contact between the packing 4, the quad ring 5, and the dry bearing 6.

In addition, the surface coating 20 is made of a mixture of 50% by weight of tungsten and 50% by weight of carbonite based on 100% by weight of the total material, and formed on the surface of the rotor 2 to a thickness of 0.5mm It can be.

Looking at the assembly and disassembly process for the assembly-type rotary joint of the present invention configured as described above with reference to FIG. 3 attached as follows.

In general, through the fastening hole formed in the flange 16, the fluid can be supplied to the mechanical device by passing the fluid along the passage 2a of the rotor 2 in the installed state by fastening with the fastening force of the bolt BT in response to the piping device. there is.

In separating the assembled rotary joint according to long-term use, the separation operation is performed through two processes.

According to FIG. 3, even if the fastening of the bolt BT is released from the fastening hole 17 of the flange 16 for the separation of the rotary joint, the lever (CB) in the A process in a state where it is not separated due to the adhesion phenomenon caused by long-term use ) is inserted into the stepped groove portion 18, and the gap between the flange 16 and the piping device is finely opened using the principle of leverage, and the stepped groove portion 18 formed on both sides is alternately opened.

If the separation is not completed with the lever (CB) in the B process, bolts (BT) are fastened to each of the separation holes (19) on both sides and alternately rotated at a pitch of 1 to 2 to push the flange 16 out of the piping device and separate it. there is.

By providing the present invention configured as described above, even if leakage occurs at the joint, it is possible to prevent leakage of the lubricant by preventing the inflow into the lubrication space, and there is an effect that the assembly can be easily performed.

The terms and words used in the present specification and claims described above should not be construed as being limited to ordinary or dictionary meanings, and the present inventors appropriately use the concept of terms in order to describe their invention in the best way. It should be interpreted as a meaning and concept consistent with the technical spirit of the present invention based on the principle that it can be defined in the following way.

Therefore, the configurations shown in the drawings and embodiments described in this specification are only one of the most preferred embodiments of the present invention, and do not represent all of the technical ideas of the present invention, so they can be replaced at the time of the present application. It should be understood that there may be many equivalents and variations.

1: Casing 1a: Space
2: rotor 2a: passage
2b: drive groove 3: bearing case
4: packing 5: quad ring
6: dry bearing 7: first O-ring
8: thrust bush 9: second O-ring
10: snap ring 11: third O-ring
12: guide ring 13: drive pin
14: spring pin 15: fourth O-ring
16: flange 17: fastening hole
18: stepped groove portion 19: separation hole

Claims (7)

A space portion 1a to which the rotor 2 is coupled to one side and a casing 1 having a flange 16 for installation on the opposite side;
a rotor 2 inserted into the space 1a of the casing 1 in a cylindrical shape and having a passage 2a through which fluid passes;
a bearing case 3 provided between the casing 1 and the rotor 2 to rotate the rotor 2;
It is coupled to the end of the rotor 2 and includes a guide ring 12 for connecting a mechanical device,
Characterized in that one or more stepped grooves 18 are formed along the circumference of the flange 16, and a separation hole 19 having a screw thread is formed on the inside through a portion corresponding to the stepped groove 18. Assembly type rotary joint.
The method of claim 1,
The bearing case 3 is formed in a cylindrical shape,
Packing (4) for preventing leakage of lubricating oil;
a quad ring 5 preventing leakage of lubricating oil;
a thrust bush 8 supporting the end of the rotor 2 on the inside;
It includes a dry bearing 6 that supports the rotation of the rotor 2,
Assembly type rotary joint, characterized in that it comprises a first O-ring (7) for preventing leakage of the lubricating oil corresponding to the casing (1) on the outside of the bearing case (3).
The method of claim 2,
On the surface of the rotor 2,
The assembly-type rotary joint, characterized in that the surface coating (20) is further provided to ensure wear resistance in response to the contact of the packing (4), quad ring (5) and dry bearing (6).
The method of claim 3,
The surface coating 20,
It is made of a mixed material of 50% by weight of tungsten and 50% by weight of carbonite based on 100% by weight of the total material, and is formed on the surface of the rotor (2) to a thickness of 0.5mm. Assembled rotary joint, characterized in that .
The method of claim 1,
On one side of the casing 1,
A spring pin ( 14) Assembly type rotary joint comprising a.
The method of claim 1,
The rotor 2 is provided with a third O-ring 11 while the guide ring 12 is coupled to the mechanical device side in a cylindrical shape having a hollow passage,
Assembly-type rotary joint, characterized in that the drive pin 13 for pin coupling through the guide ring 12 corresponding to the drive groove (2b) formed at the end of the rotor (2) is coupled.
The method of claim 6,
Assembly type rotary joint, characterized in that the outer circumference of the guide ring (12) is further provided with a fourth O-ring (15) for preventing leakage of fluid in the coupled state of the mechanical device.

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