RU2056573C1 - Unit for joining pipes - Google Patents

Abstract

FIELD: machine building. SUBSTANCE: unit has a pipe connection with head in the middle part to receive a wrench. Conical threaded surfaces provided for interaction with cylindrical threaded surfaces of the sleeves are made on outer surfaces of the pipe connection. Joint of pipe connection and sleeves allows one to turn the sleeves together with pipes secured in the sleeves about axis. The sleeves may be L-shaped and T-shaped to join larger number of the pipes. EFFECT: reliable connection. 3 cl, 2 dwg

Description

 The invention relates to a device for connecting pipes and can be used in sanitary equipment.

 Known pipe connection unit [1] containing a fitting, in the middle part of which a turnkey polyhedral head is made, and on the outer surfaces of the ends of the nozzle there are cylindrical threaded surfaces designed to interact with the corresponding cylindrical threaded surfaces made on the inner surfaces of the ends of the connected pipes, and sealing cuffs placed between the ends of the pipes.

 This technical solution, firstly, does not provide the ability to rotate the connected pipes around their axes when they are oriented without loss of tightness of the connection. Secondly, it is impossible to achieve the tightness of this site without the use of sealing cuffs. In addition, it has limited use, since it provides the connection only of special pipes, the end surfaces of which have a certain profile.

 Known pipe connection unit [2] containing a sleeve made in the form of a hollow sleeve, on the inner surface of which is made a cylindrical thread designed to interact with a cylindrical thread made on the outer surface of the protrusion of one of the pipes, and an annular collar designed to interact with the end face of the cylindrical protrusions of the second pipe, balls and a sealing sleeve installed between the ends of the connected pipes. This unit ensures the rotation of the pipes around their axes in the process of their orientation without loss of tightness of the connection.

 However, this assembly is, firstly, structurally complex because it contains elements such as a sealing collar and balls. Secondly, it has limited use, since it provides the connection only of special pipes, on the outer surfaces of which cylindrical protrusions are made, and holes for balls are made on the outer surface of one of the pipes and the inner surface of the other pipe.

 Closest to the invention is a pipe connection unit [3] containing a fitting, in the middle part of which a turnkey polyhedral head is made, while on the outer surface of one end of the fitting a tapered thread is made, and the other end of the fitting is designed to connect to the pipe, L-shaped coupling , on the inner surface of one end of which a tapered thread is made, designed to interact with the tapered thread of one end of the fitting, and on the inner surface of the other end of the coupling, a cylindrical a thread designed to be connected to the second pipe and a sealing collar located between the end face of the coupling and the turnkey head of the fitting. Such a node, firstly, does not provide the ability to rotate the connected pipes around the axis of the fitting when they are oriented without loss of tightness of the connection. Secondly, it is impossible to achieve the tightness of this site without the use of a sealing cuff. Thirdly, it does not provide the connection of three or more pipes while at the same time providing the possibility of their rotation around the axis of the nozzle during orientation without loss of tightness of the connection.

 All these disadvantages are deprived of the proposed pipe connection. The technical result of the invention is to expand the functionality of the pipe connection unit and simplify its design, achieved by allowing independent rotation of several pipes around a common axis of rotation without loss of tightness of the connection and the absence of sealing elements in the unit.

(1) где l_к длина конической резьбовой поверхности;
l_ц длина цилиндрической резьбовой поверхности, сопряженной с соответствующей конической резьбовой поверхностью;
t шаг резьбы;
α- требуемый угол поворота трубы.This technical result is achieved due to the fact that the pipe connection unit contains a fitting, in the middle part of which a turnkey head is made, and on the outer surfaces of both ends of the fitting conical threaded surfaces, two couplings are made, on the inner surfaces of the ends of each of which are made cylindrical threaded surface, and a cylindrical threaded surface at one end of each coupling is designed to interact with the corresponding conical threaded surface of the fitting, and qi the cylindrical thread at the other end of each coupling is designed to connect the corresponding pipe, while the lengths of both conical threaded surfaces of the fitting satisfy the condition l _to ≥ 0.8l _c +

(1) where l is _the length of the conical threaded surface;
l _{C the} length of the cylindrical threaded surface mating with the corresponding conical threaded surface;
t thread pitch;
α is the required angle of rotation of the pipe.

 In this case, the couplings can be made L-shaped, straight, T-shaped, cruciform, and in any combination and quantity.

 In FIG. 1 shows a node in section; in FIG. 2 knot with a T-shaped coupling.

 The connection unit of two pipes (Fig. 1) contains a fitting 1, in the middle part of which a turnkey polyhedral head is made, and conical threaded surfaces 2, 3 are made on the outer surfaces of its ends. The assembly also contains two L-shaped couplings 4 and 5, in which cylindrical threaded surfaces 6, 7 and 8, 9 are made, respectively. The cylindrical threaded surface 6 of the coupling 4 and the cylindrical threaded surface 9 of the coupling 5 are intended for connection to the corresponding pipe couplings 10 and 11. The cylindrical threaded surface 7 of the coupling 4 is designed to interact with the conical threaded surface 2 of the fitting 1, which ensures the connection of the fitting with the coupling 4. Cylindrical the threaded surface 8 of the coupling 5 is designed to interact with the conical threaded surface 3 of the fitting 1, which ensures the connection of the fitting with the coupling 5. Coupling cylindrical and conical threaded surfaces allows independent rotation of the pipe 10 together with the sleeve 4 or pipe 11 together with the sleeve 5 around their common axis 12 of rotation while ensuring tightness of the interface. To ensure the possibility of rotation of the pipe with the corresponding coupling relative to the fitting 1 around the axis 12 while ensuring tightness of the pairing of the lengths of the tapered threaded surfaces 2, 3 of the fitting 1 are determined from condition (1).

 The junction of three pipes or more (Fig. 2) differs from the junction of two pipes in that instead of one of the L-shaped couplings (for example, couplings 4), a T-shaped coupling 13 is connected to one of the ends of the fitting 1, on the inner surface of the ends which has three cylindrical threaded surfaces 14, 15, 16. Using a threaded surface 14, the sleeve 13 is connected to the pipe 10, using a threaded surface 15, the sleeve 13 is connected to the fitting 1, and using the third threaded surface 16, the sleeve 13 is connected to one end of the additional fitting 17, and illogical fitting 1. At the other end of the additional fitting 17, another coupling 18 can be installed, it will be a L-shaped coupling (in the case of connecting three pipes), or another T-shaped coupling with another fitting and a L-shaped coupling in the case of connection of four pipes), or a cruciform coupling with another fitting and an L-shaped coupling (in the case of connecting five pipes), etc. The number of additional couplings, their shape and options for their possible combinations are not limited. Moreover, all the pipes of this node have the ability to rotate together with the corresponding couplings around a common axis 12 of rotation. The connection of the pipes 10 and 11 in FIG. 1 and 2 with couplings 13 and 5 can be carried out in various ways, including the combination of an external conical threaded surface at the end of the pipe with an internal cylindrical threaded surface of the coupling.

0,8×11 +

9,707 мм
Для обеспечения поворота трубы 11 вместе с муфтой 5 относительно оси 12, например, на 360^о при одновременном обеспечении герметичности узда длина конической резьбовой поверхности 3, сопряженной с цилиндрической резьбовой поверхностью 8, должна быть равна
l_к 0,8l_ц +

0,8×11 +

10,614 мм An example of a node for connecting two pipes. On the fitting 1, two conical threaded surfaces 2 and 3 are made with the following characteristics: conical pipe thread R 1/2 "(external), thread pitch 1.814 mm, cone angle 1 ^about 47'24". In couplings 4, 5, threaded surfaces 7, 8 are made with the following characteristics: cylindrical pipe thread G 1/2 "(internal), thread pitch 1.814 mm, thread length 11 mm. To ensure rotation of pipe 10 together with sleeve 4 relative to axis 12 ( nozzle 1), e.g., ^about 180, while ensuring assembly tightness length conical threaded surface 2 with a cylindrical threaded mating surface 7 must be equal
l _to 0.8l _c +

0.8 × 11 +

9,707 mm
To ensure rotation of the pipe 11 together with the sleeve 5 about the axis 12, e.g., ^about 360, while ensuring tightness bridle length conical threaded surface 3, the mating with the cylindrical threaded surface 8 must be equal
l _to 0.8l _c +

0.8 × 11 +

10.614 mm

Claims (3)

1. PIPE JOINT ASSEMBLY, comprising a fitting with a turnkey head in the middle part and a tapered threaded surface at one end, an L-shaped coupling with an internal thread at both ends for connecting to the pipe and fitting, characterized in that it is equipped with an additional coupling with cylindrical threaded sections on the inner end surfaces, an additional threaded conical surface is made at the other end of the fitting, and the coupling is connected to the second pipe by one threaded section and an additional conical ited nozzle, wherein the second threaded surface of the L-shaped coupling is cylindrical and the length of the basic and additional conical threaded surfaces nozzles satisfies

where l _to - the length of the conical threaded surface;
l _C - the length of the cylindrical threaded surface mating with the corresponding conical threaded surface;
t is the thread pitch;
α is the required angle of rotation of the pipe.  2. The assembly according to claim 1, characterized in that the additional coupling is made L-shaped.  3. The node according to p. 1, characterized in that the additional coupling is made T-shaped with threaded surfaces at the ends, and the node is equipped with an additional fitting with threaded conical surfaces on the outer surfaces of its ends, while one of the conical threaded surfaces of the fitting is connected to the third threaded surface of the T-shaped coupling.

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