Method of manufacturing detachable threaded joint for steel pipes

专利摘要:
The invention allows for leaktightness of the connection. The sealing mass is applied to a portion of the surface of the thread contour of the first element. Screw the elements. At the same time, another part of the surface without a sealing mass is pressed against the counterpart of the thread contour of the second element. Before screwing into one of the elements, the mandrel with threads and channels is screwed or screwed. The dimensions of the mandrel correspond to the tolerance limits of the second element. In the channels entering the gap between the threads, the sealing mass is introduced in the form of a synthetic material, which adheres to the thread of the counter element, forming a composite element with it. Synthetic material is subjected to polymerization. Then, by processing, the polymer is left only in the gaps between the threads within the tolerances of the elements to be joined. 7 il.
公开号:SU1575950A3
申请号:SU853964937
申请日:1985-10-09
公开日:1990-06-30
发明作者:Плакэн Бернар；Буни Поль
申请人:Валлурек (Фирма)；
IPC主号:

专利说明:

The invention relates to threaded pipe joints and can be used in the oil industry.
The purpose of the invention is to ensure the tightness of the joint.
FIG. 1 is a sectional view of a standard compound for the petroleum industry; in fig. 2 shows, on an enlarged scale, node I in FIG. 1, the first embodiment of the thread of a standard joint; in fig. 3 - the same, the second option, the cut; in fig. 4 - the same, the third option; in fig. 5 shows a section through an external thread and internal thread according to the invention; figure 6-. a device for producing a thread in accordance with the invention;
in fig. 7 shows, on an enlarged scale, node II in FIG. 6.,
The connection (figure 1) consists of a covering element (or coupling) 1, having an internal tapered thread 2, which includes the male item 3 due to the corresponding external tapered thread 4.
A stop 5 located inside the female element serves to support the end 6 of the male element in order to restrict the screwing, and a pair of surfaces 7 and 8 located respectively on the female and male elements provides a tight connection. .
ate 1 ate
F
ate

04
shows how the nit-covered element
ten
M
20
25
FIG. 2 ka thread 9
3 enters the cavity 10 of the enclosing member 1. Given that there is an abutment 5 of the screwing restriction, the side surface 11 of the thread 9 is strongly pressed axially against the side surface 12 of the cavity 10.
The bottom of the groove of the thread 13 of the male element 3 is strongly pressed radially to the top of the thread 14 of the female element due to the conical shape of the thread and the resulting pushing force.
In the depicted embodiment, the tops of the internal thread rest on the cavities of the external thread, but it can be vice versa if during processing the height of the teeth of the thread 9 is made greater than the height of the cavities 10.
When examining the full perimeter of the male element, it can be seen that the female element is strongly pressed against the male element in the bottom of the groove 13 and on the side surfaces 11, which ensures tightness in this area. On the contrary, in the area of the top 15 and the back surface 16 of the thread 9 of the male member there is inevitably a free space of 17 between the female and the male elements.
The free space (gap) 17 runs in a spiral along the entire thread between the male and female elements.
FIG. 3 shows another embodiment of the thread, in which the screwing force 5 arising during the screwing of the external tapered thread into the internal tapered thread acts on the side surfaces 18 and 19 of the thread, leaving a free space (gap) 17 on the tops of both the external and internal her thread.
FIG. 4 shows another embodiment of the thread, where the working surface 11 of the covered element 35
40
surface 11, top 15, rear surface 16 and the bottom of the thread 13.
In the depicted embodiment, the male element is an element of a conventional joint, and the female element 1 is an integral element that interacts with the male element.
The covering element 1 contains a depression 10 with a working surface 12 and the top of the thread 14.
The depression -10 is covered with a gasket made of synthetic material 20, which firmly fits to the metal part of the female element 1 and the bottom and rear surface 22 of which have a shape that corresponds to the lower tolerance limit provided for threading the male member
From this it follows that when screwing the male element onto the female element 1, and the male element is made to a lower limit of tolerances, there is no free space between the male and female elements, considering that contact with the male element is provided The structure of the metal parts 12, 14 of the female element or the periphery of the 21, 22-embedding of synthetic material of the male element.
When screwing in, the thread of the male element slightly presses the pad of synthetic material 20 o of the winding element, improving the tightness obtained.
In the drawing, the dashed line 23n of the female element shows the periphery of the thread of the male element in the drawn out state of the joint.
The compound obtained ensures complete tightness of the thread, since the thread size of the male element varies along the spiral periphery of this thread, up to
This working surface 12 covers 50 holes for processing in such a way that an element forms an inclined angle forward relative to the radial plane of the joint. This type of thread also leaves a free space (gap) 17 on the top of the external thread 9 and on its rear surface. sixteen.
FIG. 5 shows the thread 9 of the male element, its working no-
that in at least one part of this spiral path the top and rear surface of the thread-male element provide sufficient compression of the synthetic material 20 to obtain a full seal along the thread. In this case, there is no need to provide a packing made of synthetic material 20 along the entire
0
0
five
ABOUT
45
35
40
surface 11, top 15, rear surface 16 and the bottom of the thread 13.
In the depicted embodiment, the male element is an element of a conventional connection, and the female element 1 is an integral element that interacts with the male element.
The covering element 1 contains a depression 10 with a working surface 12 and the top of the thread 14.
The depression -10 is covered with a plastic wrap 20, which is firmly attached to the metal part of the female element 1 and the bottom 21 and the rear surface 22 of which have a shape corresponding to the thread profile of the male element in the tightened thread position, the dimensions of which correspond to the lower tolerance limit provided for machining covered element.
From this it follows that when the male element is screwed onto the female element 1, and the male element is made at a lower tolerance limit, there is no free space between the female and male elements, taking into account that contact with the male element is provided by means of metal parts 12, 14 covering element or periphery 21, 22 - embedding from synthetic material covered element.
When screwed, the thread of the male element slightly presses the gasket of synthetic material 20 of the female element, improving the resulting tightness.
In the drawing, the dashed line 23 on the female element depicts the periphery of the thread of the male element in the tightened connection state.
The compound obtained ensures complete tightness of the thread, since the thread size of the male element varies along the spiral periphery of this thread within the range of tolerances for processing in such a way
that at least in this section of the spiral path, the top 15 and the rear surface of the thread-male element provide sufficient compression of the synthetic material 20 to obtain a full seal along the thread. There is no need to provide a packing of synthetic material 20 along the entire
threads and can be done by doing this stuffing in the right place.
It is important to do a lot of synthetic material 20 pdoc. the entire thread for the purpose of improving the solidity of the joint, mainly in the case when the joint is made with one or several cylindrical threads that DEFINE the covered element with simultaneous lateral movements relative to the female element.
FIG. 6 and 7 depict a device with which the composite female element shown in FIG. 5 is executed.
Fig, 6 shows a section of the covering element 1, on which it is necessary to perform a gasket of synthetic material 20.
To do this, a mandrel 24 is screwed into the female element, the thread of which has been machined so as to exactly correspond to the minimum processing tolerances of the male element that is to be connected to the female element,
The mandrel 24 is screwed into the element 1 with a tightening torque sufficient to ensure the contact of the side surfaces, depressions and working tops of the corresponding male and female threads.
The mandrel is provided with a plurality of channels 25 extending into the space 17 between the male threads of the mandrel 24 and the threads 2 of the female element 1, and these channels are combined into the main channel 26, allowing injection of synthetic material into the space 17 under pressure.
Channel 25 (Fig. 7) goes into the space 17 between the top 15 and the rear (non-working) surface 22 and 10
It is not enough to cover the surface of the latter with antisense Nmcimes material.
In accordance with the invention, the synthetic material used is a urethane elastomer, known under the name Trust XPE.
In another embodiment of the invention, it is possible to inject a synthetic material in a manner that it completely filled and covered the threads of the enclosing element, for example, using a reference without a thread, and then, when J5 synthetic material 20 hardened}, during machining, leave only a synthetic material shown in FIG. 7
In the presented embodiments of the invention, the constituent elements are enveloping elements (therefore, a layer of synthetic material is applied to them, it is also possible to superimpose this padding of synthetic material on the encompassed element (the standard element is covered), for example using a mandrel with an internal speech-fight.
20
25
thirty

权利要求:
Claims (1)
[1]
Invention Formula
A method of manufacturing a split ppsi-joint for steel 35, comprising applying an auxiliary weight to a portion of the surface. the contour of the thread of one element, the screwing of elements, in which another part of the surface of the contour of the thread without a sealing mass is pressed against the counterpart of the contour-thread of the second element, is required to ensure that
neither the tightness of the joint, the front element and the cavity 10, and not 45 screwing olements into one of them with a working surface 16 of the female element for injecting a mass of synthetic material 20 that adheres firmly to the female element, the free surface of which exactly 50 corresponds to the shape of the thread corresponding to the dimensions minimally compatible with manufacturing tolerances.
To make synthetic ma
The threaded mandrel is screwed or screwed, the dimensions of which correspond to the tolerance limits of the second element and create the largest possible gap between the elements and the channels extending into the gap between the threads, insert into them a plastic mass in the form of a synthetic material that engages speech speech
the material did not mate with the mandrel when you vyvvvVVF him composite
from the mold by means of the unscrewing element.
It is not enough to cover the surface of the latter with antisense Nmcimes material.
In accordance with the invention, the synthetic material used is a urethane elastomer, known under the name Trust XPE.
In another embodiment of the invention, it is possible to inject a synthetic material in a manner that it completely filled and covered the threads of the enclosing element using, for example, a certificate without a thread, and then, when 5 synthetic material 20 hardened} during machining, leave only a synthetically material that corresponds to shown in FIG. 7
In the presented embodiments of the invention, the constituent elements are enveloping elements (therefore, a layer of synthetic material is applied to them, it is also possible to superimpose this padding of synthetic material on the encompassed element (while the enveloping element is standard). for example, using a mandrel with internal speech.
0
five
0
Invention Formula
A method of manufacturing a detachable ppsi-bead joint for steel, comprising applying an anti-squeeze mass to a part of the surface of the thread contour of one element, screwing the elements, in which the other part of the surface of the thread contour without a seal mass is pressed against the counterpart of the contour-thread of the second element, and that with the aim of ensuring
no tightness of the joint before screwing the elements into one ke
The threaded mandrel is screwed or screwed, the dimensions of which correspond to the tolerance limits of the second element and create the largest possible gap between the elements and the channels extending into the gap between the threads, insert into them a plastic mass in the form of a synthetic material that engages speech speech
element.
2 I 1
73
 9 3 15 W Fig z
fia1
70 1
Ј. f
OS6SZSI
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25
2 1 25 17 L
Compiled by R. Khludov Editor O.Spesyvykh Tehred A. Kravchuk Proofreader N. Korol
Order 1794
Circulation 566
VNIIGSH of the State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 4/5, Moscow, Zh-35, Raushsk nab. 113035
17
25
FIG. 6 F
25 fig 7
Subscription

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法律状态:

优先权:

---

申请号 | 申请日 | 专利标题

---

FR8415551A|FR2571467B1|1984-10-10|1984-10-10|THREADED JOINT FOR A STEEL TUBE HAVING A THREADED SEALING DEVICE|

---