KR101846653B1 - Nipple - Google Patents

Abstract

A coupling nipple is disclosed. The nipple includes a nipple body 100 including a through hole 200, and an end 300 for connecting the coupling. The through hole 200 includes a first compartment 210 having a first diameter 212 and a second compartment 220 having a second diameter 222. The second section 220 is adjacent to the first section and the second section 220 is closer to the end 300 than the first section 210 and the second diameter 222 is closer than the first diameter 212 So that a shoulder 230 is formed between the first compartment 210 and the second compartment 220. The nipple body 100 and the through hole 200 further include one or more openings 240 extending through the shoulder 230. According to one embodiment, the one or more openings 240 extend through at least a portion of the first section 210 and through the shoulder 230. According to one embodiment, the one or more openings 240 extend through at least a portion of the second compartment 220 and through the shoulder 230. According to one embodiment, the one or more openings 240 extend through at least a portion of the first compartment 210 and the second compartment 220 and through the shoulder 230.

Description

Nipple {NIPPLE}

The present invention relates to quick connect coupling. More particularly, the present invention relates to a nipple for quick connect coupling.

Couplings, for example hydraulic couplings, often have couplings and nipples. The nipple may be referred to as the male portion, and the coupling may be referred to as the female portion. This coupling is used to connect the hydraulic fluid.

A known nipple, such as a high pressure hydraulic nipple on a 116 series CEJN, is made up of a pipe and nipple body inside the nipple. This pipe is connected to the valve of the coupling when the coupling between the nipple and the coupling opens the valve. This structure causes some problems. This requires that the two parts, namely the nipple body and the pipe, be assembled and also be assembled relatively precisely to each other. Pipes have a change in length, especially under the influence of heat. Therefore, it is desired to overcome these problems and improve the nipple.

It is also desired to provide a strong nipple which is inexpensive to manufacture, easy to manufacture, and costly to manufacture. The nipples must also be capable of being manufactured in different sizes. The present invention is directed to overcoming one or more of the problems described above.

It is an object of the present invention to provide a nipple for coupling. This object can be achieved by features as defined by the dependent claims. Further improvements are characterized by dependent claims.

According to one embodiment, a nipple for coupling is disclosed. The nipple includes a nipple body 100 including a through hole 200, and an end 300 for connecting the coupling. The through hole 200 includes a first compartment 210 having a first diameter 212 of the through hole 200 and a second compartment 220 having a second diameter 222. The second section 220 is adjacent to the first section and the second section 220 is closer to the end 300 than the first section 210 and the second diameter 222 is closer than the first diameter 212 So that a shoulder 230 is formed between the first compartment 210 and the second compartment 220. As shown in FIG. The nipple body 100 and the through hole 200 further include one or more openings 240 extending through the shoulder 230. According to one embodiment, the one or more openings 240 extend through at least a portion of the first section 210 and through the shoulder 230. According to one embodiment, the one or more openings 240 extend through at least a portion of the second compartment 220 and through the shoulder 230. According to one embodiment, the one or more openings 240 extend through at least a portion of the first compartment 210 and the second compartment 220 and through the shoulder 230. Thus, in these embodiments, one or more openings 240 extend through at least a portion of the nipple body 100.

According to one embodiment, the one or more openings 240 extend through at least a portion of the first section 210 and through the shoulder 230. Alternatively or in addition, one or more openings 240 extend through at least a portion of the second compartment 220 and through the shoulder 230.

According to one embodiment, the nipple is a single integral piece. The second diameter 222 may vary. The second diameter may not be constant. According to one embodiment, the first diameter 212 is constant, and the second diameter 222 is varied to be closer to the end 300, which is greater.

According to one embodiment, the through hole 200 comprises one, two, three, four, five or six openings 240. The shoulder 230 may extend perpendicularly to the axis 202 of the through hole 200. The axis 242 of the one or more openings 240 may be about 0 to 60 degrees, preferably 22 degrees, relative to the axis 202 of the through-

According to one embodiment, the nipple is suitable for high pressure fluid, preferably over 70 MPa. According to one embodiment, the coupling may be a quick connect coupling.

At least one of the above embodiments provides one or more solutions to the problems and disadvantages of the technical column that is the background of the invention. Other technical advantages of the present invention will be readily apparent to those skilled in the art from the following detailed description and claims. The various embodiments of the present application merely obtain a subset of the described advantages. One advantage is not critical to the embodiment. Any claimed embodiments may be combined technically with any other claimed embodiment (s).

The accompanying drawings illustrate presently preferred embodiments of the invention and, together with the general description given above and the detailed description of the embodiments given below, serve to explain the principles of the invention by way of example.
1 is a schematic view of a cross-sectional view of a nipple in accordance with an exemplary embodiment of the present invention;
Figure 2 is a schematic view from one end of a nipple in accordance with an exemplary embodiment of the present invention; And
3 is a schematic view of a nipple in accordance with an exemplary embodiment of the present invention.

1 is a schematic view of a nipple according to an exemplary embodiment of the present invention. Here the nipple is shown as cut through his center along his axis. 2 is a schematic view of the same nipple according to an exemplary embodiment of the present invention. Where the nipple is shown in the drawing at one end, which is the end into which the coupling enters. Coupling is not shown because it is not part of the present invention. The nipple corresponds to the male part, the coupling corresponds to the female part, and the male part and the female part can be joined together.

The nipple is for coupling, preferably for quick-connect coupling. The nipple may be for high pressure coupling. The high pressure may be 70 MPa or more, or 100 MPa or more, or 150 MPa or more, or 200 MPa or more, or 300 MPa or more, or 400 MPa or more. The nipple can be a fluid, such as air, gas, liquid, hydraulic fluid, and the like. The nipple may be for a high pressure quick fit coupling.

The nipple includes a nipple body 100. The nipple main body 100 can be manufactured from one single product. The nipple body 100 may be made from stainless steel, zinc-plated steel, or chemical nickel-plated steel for use, for example, in corrosive environments. Stainless steel pipes as required in the prior art are not required. The nipple body 100 includes a through hole 200, and an end 300 for connecting the coupling. The through hole 200 extends straight through the nipple body 100 so that the fluid can pass through the nipple. The through hole 200 is preferably circular. The through hole 200 has a shaft 202, which may be the center axis of the entire nipple body 100. The end portion 300 is an end portion of the nipple main body 100 into which the coupling, which is a female portion, enters.

The through hole 200 includes a first compartment 210 having a first diameter 212 and a second compartment 220 having a second diameter 222. These diameters may not be constant and may vary. The first compartment 210 and the second compartment 220 are different parts of the through-hole 200. For better understanding, the first compartment 210 is denoted as S1 in FIG. 1 and the second compartment 220 is denoted as S2 in FIG. The second compartment 220 is adjacent to the first compartment 210. The first compartment 210 and the second compartment 220 of the through hole 200 are adjacent to each other. The second compartment 220 is closer to the end 300 than the first compartment 210. Looking from the end 300, the first compartment 210 follows the second compartment 220.

The second diameter 222 of the second compartment 220 is greater than the first diameter 212 of the first compartment 210. At least the second diameter 222 of the second compartment 220 adjacent to the first compartment 210 is greater than the first diameter 212 of the first compartment 210. Here, the shoulder 230 is formed between the first compartment 210 and the second compartment 220. The shoulder 230 is suitable for connecting the valve in the coupling when the nipple is connected to the coupling. Since the second diameter 222 is larger and wider than the first diameter 212 of the through hole 200, a shoulder is formed. This difference between the adjacent first compartment 210 and the second compartment 220 allows the first compartment 210 having the through hole 200 to be narrower than the second compartment 220 having the larger through- And the extension, which is this difference, forms the shoulder 230. The shoulder may be similar to a shelf extending radially about and about the axis 202 of the through hole 200.

The nipple body 100 and the through hole 200 further include one or more openings 240 extending through the shoulder 230. One or more openings 240 partially open the shoulder 230 upwardly so that fluid can flow between the first and second compartments 210 and 220 through the one or more openings 240. This fluid flow may occur when the shoulder 230 engages a valve in the coupling and opens the valve. The plurality of openings 240 separate the shoulder 230 into a plurality of segments. The opening 240 can be a machined circular hole as shown in the exemplary embodiment of Figs. The openings 240 may be of any shape, for example, rectangular, polygonal, semicircular, and the like.

According to one embodiment, one or more openings 240 extend through at least a portion of the first section 210 and through the shoulder 230. According to one embodiment, the one or more openings 240 extend through at least a portion of the second compartment 220 and through the shoulder 230. According to one embodiment, the one or more openings 240 extend through at least a portion of the first compartment 210 and the second compartment 220 and through the shoulder 230. In these embodiments, the one or more openings 240 partially open the shoulder 230 upwardly so that the fluid flows through the one or more openings 240 into the first compartment 210 of the through- 2 compartments 220. In one embodiment, This fluid flow may occur when the shoulder 230 engages a valve in the coupling and opens the valve.

According to one embodiment, the nipple is a single integral piece. The nipple body may be made from one solid single piece and preferably made from the same material. 1 to 3, it can be seen that the nipple and nipple body 100 are made of a single integral piece made of the same material. The nipple body 100 may be made of, for example, stainless steel, zinc-plated steel, or chemical nickel-plated steel for use in corrosive environments. By using only a single integral article as described above and forming one or more openings 240 therein, the need for a separate pipe is eliminated.

According to one embodiment, the second diameter 222 of the second section 220 of the through-hole 200 can be varied. The second diameter 222 may not be constant. The change in the second diameter 222 may form a second compartment 220 that opens upwardly, for example, conically towards the end 300. The second diameter 222 may increase or decrease, or both, either constantly or not, compared to all or only a portion of the second compartment 220. An example of the second compartment 220 in Figure 1 is a second compartment 220 having an opening toward the end 300 and having an increasing second diameter 222 forming a truncated cone or cone frustum ).

According to one embodiment, the first diameter 212 is constant, and the second diameter 222 is changed to be greater toward the end 300. This exemplary embodiment is illustrated by Fig. Where the second diameter 222 of the second compartment 220 may increase constantly toward the end 300 while the first diameter 212 of the first compartment 210 may be constant. In this embodiment, the second diameter 222 is adjacent the first diameter 212 to form the shoulder 230.

According to one embodiment, the nipple body 100 and the through-hole 200 include three openings 240. The opening 240 may be, for example, one, two, three, four, five, six, seven, eight, nine or ten openings 240. These openings 240 can be arranged with respect to each other at a certain distance. For example, as shown in FIGS. 2 and 3, they may be equally arranged at 120 degrees around each other around the through-hole 200. In this way, the shoulder 230 can be evenly divided into a plurality of the shoelace compartments. This provides a good mechanical connection and even flow of the valve when the nipple is connected to the coupling.

According to one embodiment, the shoulder 230 extends perpendicularly to the axis 202 of the through-hole 200. This gives adequate support for connection to the valve in the coupling. The shoulder 230 may alternatively or additionally be inclined in any direction, e.g., +/- 60 degrees, with respect to its vertical orientation.

According to one embodiment, the axis 242 of the one or more openings 240 is about 0 to 60 degrees, preferably 22 degrees, relative to the axis 202 of the through-hole 200. The axis 242 of the one or more openings 240 is shown in FIG. 1 and forms an angle of about 22 degrees with respect to the axis 202 of the through hole 200. The axis 242 may be parallel to the axis 202. The axis 242 may be at any angle from 0 to 60 degrees with respect to the axis 202. [

According to one embodiment, the nipple is suitable for high pressure fluid. The high-pressure fluid may be 70 MPa or more, or 100 MPa or more, or 150 MPa or more, or 200 MPa or more, or 300 MPa or more, or 400 MPa or more. The nipple can be a fluid, such as air, gas, liquid, hydraulic fluid, and the like. The nipple may be for high pressure quick fit coupling. Modifications can be made by selecting the appropriate metals, dimensions and machining. The nipple may be made of steel in one embodiment, chemically treated and / or heated to become harder.

According to at least one embodiment disclosed herein, the nipple need not have an inner pipe for connecting the valve in the coupling. By removing the pipe which may deviate in the length of the pipe, a more accurate opening of the valve can be achieved. Since the nipple body is made of a single integral piece, the assembly cost can be eliminated, and the nipple is strong. The nipples are also inexpensive to manufacture because they need only have one or more openings 240. The nipples are also easily made in different sizes. The cost of fabrication results in a highly controllable quality of the nipple.

It will be apparent to those skilled in the art that various modifications and changes can be made to the nipples. Other embodiments will be apparent to those skilled in the art from consideration of the specification and practice of the disclosed nipples. It is intended that the specification and examples be considered as exemplary only, with a true scope being indicated by the following claims.

100: Nipple body
200: Through hole
202: Axis of through hole
210: first compartment
212: first diameter
220: second compartment
222: second diameter
230: Shoulder
240: one or more openings
242: axis of one or more openings
300: End (to connect the coupling)

Claims (13)

As a nipple for coupling,
A nipple body (100) including a through hole (200), and an end (300) for engaging the coupling;
The through hole 200 includes a first compartment 210 having a first diameter 212 and a second compartment 220 having a second diameter 222,
The second compartment 220 is adjacent to the first compartment 210,
The second compartment 220 is closer to the end 300 than the first compartment 210,
The second diameter 222 is greater than the first diameter 212 and forms a shoulder 230 between the first and second sections 210 and 220; And
The nipple body 100 and the through hole 200 further include a plurality of openings 240 extending through the shoulder 230,
The plurality of openings 240 may allow fluid to flow between the first and second compartments 210 and 220 through the plurality of openings 240 by partially opening the shoulder 230 upwardly And the plurality of openings (240) separate the shoulder (230) into a plurality of segments. The nipple of claim 1, wherein the plurality of openings (240) extend through at least a portion of the first section (210) and through the shoulder (230). The nipple of claim 1, wherein the plurality of openings (240) extend through at least a portion of the second compartment (220) and through the shoulder (230). The nipple of claim 1, wherein the nipple is a single integral piece. 2. The nipple of claim 1, wherein the second diameter (222) is varied. 2. The nipple of claim 1, wherein the first diameter (212) is constant and the second diameter (222) is varied to be closer to the end (300). The nipple according to claim 1, wherein the through hole (200) comprises three openings (240). 2. The nipple of claim 1, wherein the shoulder (230) extends perpendicular to an axis (202) of the through hole (200). The nipple according to claim 1, wherein the axis (242) of the plurality of openings (240) forms 0 to 60 degrees with respect to the axis (202) of the through hole (200). The nipple of claim 1, wherein the nipple is configured for high pressure fluid. The nipple according to claim 1, wherein the nipple is for a quick connect coupling. The nipple according to claim 1, wherein the through hole (200) comprises two or four or more than two openings (240).
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