CN201836571U

CN201836571U - Pipeline quick coupling

Info

Publication number: CN201836571U
Application number: CN2010205476064U
Authority: CN
Inventors: M·巴克蒂耶里
Original assignee: LA KASA ANGELA Inc
Current assignee: LA KASA ANGELA Inc
Priority date: 2010-09-29
Filing date: 2010-09-29
Publication date: 2011-05-18
Anticipated expiration: 2020-09-29

Abstract

The utility model discloses a pipeline quick coupling, which includes a coupling body, wherein a locking cap, a locking cap stop part arranged at a pipeline insertion end of the coupling body, a dismounting ring, a claming ring and a taper seat glidingly connected with the inner wall of the coupling body, a taper seat should arranged on the inner wall of the coupling body, an O-shaped seal ring used for forming seal connection with the outer wall of a pipeline, an O-shaped seal ring should arranged on the inner wall of the coupling body (1), and a stop part arranged on the inner wall of the coupling body are sequentially arranged along the inside of the coupling body in the pipeline insertion direction. The utility model has the advantages that an elastic pipeline body (such as a PEX pipeline body) can be inserted more easily, and the elastic pipeline body is not liable to be loosened from the pipeline quick coupling after inserted into the pipeline quick coupling and filled with liquid for supercharged expansion, so that pipeline quick coupling has high sealing performance and coupling reliability.

Description

A kind of pipeline rapid pipe joint

Technical field

The utility model relates to a kind of pipeline rapid pipe joint, particularly a kind ofly is used for pipeline rapid pipe joint that fluid-transporting tubings such as water pipe are connected fast.

Background technique

Pipeline is industrial requisite basic facilities.Assembling pipe joint is its requisite connection means.

At present, well-known pipeline connects that to mainly contain be the dual mode such as (PP-R and PE manage) that is threaded and is connected with hot melt.Being threaded is to utilize joint and pipe and internal and external screw thread certainly to be spirally connected, and is sealed as stuffing box packing with polytetrafluoroethylraw raw material band; It is to utilize electric heating that the attachment portion of pipe and joint is heated to molten state that hot melt connects, and then compresses mutually, makes the contact surface homogeneous material melt mutually and makes it to connect and sealing.Above-mentioned two kinds of Placements connect trouble, and sealing effect is poor, and inconvenient maintenance.

Use and develop in order to adapt to the every profession and trade pipeline, pipeline connection technology or equipment have been proposed high request, had many new technology to come out now.Be used for the piecing devices that small-bore liquid letter shoot road and valve, tap are connected fast as publication number is a kind of for the CN1594954A Chinese patent application discloses.According to this device, as long as produce a kind of novel threeway and elbow, and the connecting end of valve adopted the structure of this patent of invention, just can realize the quick mounting of valve and pipeline, work efficiency is built in raising greatly, and is convenient to user's maintenance and replacing.The quick connection of small-bore liquid during yet disclosed technology only is applicable in this patent application, letter shoot road and valve, tap.

The Chinese patent publication number is that the Chinese patent application of CN1257169A discloses a kind of quick coupling that pipeline connects that is used for.The tubular axis outer wall of this pipe joint has inner sleeve, the inner sleeve outer wall has outer sleeve, the wall of outer sleeve is provided with the threaded fastening piece of its outer wall, handle wheel and the spring that acts on fastening piece are arranged on the outer sleeve, about spring the section respectively with inner sleeve right-hand member outer wall and bounding means outer wall drive fit, the outer wall of inner sleeve has groove.Though the operation of installation and removal has been simplified in this invention, with the increase of pressure, its sealing effect can be affected.

The Chinese patent publication number is that the patent of invention of CN2428674Y discloses a kind of pipe coupling.This joint is that metal is made, and is applicable to crosslinked polyethylene (PEX) pipe is connected.Be characterized in joint by the pipe joint body, the O RunddichtringO, awl seat (seal ring pressure ring), snap ring, movable tapered sleeve and fixed cover are formed.Described O RunddichtringO, the awl seat, snap ring, movable tapered sleeve and fixed cover axially are located in the pipe fitting successively.Carrying out pipeline when connecting, at first PEX tubing to be connected directly is inserted through described movable tapered sleeve, snap ring, awl, in each hole of O RunddichtringO, up to the pipe fitting body opening in restriction face A.At this moment, because therefore equally distributed tooth can block the body that stretches into wherein for having elasticity in the snap ring hole.Because the elastic telescopic of O RunddichtringO is realized sealing.At last, by fastening fixed cover, thus the body after being fastenedly connected.

When desire is taken out the PEX pipe that connects, need to make thrust pass to snap ring by promotion activity tapered sleeve, back down the tooth of snap ring, itself and body are broken away from, thereby can easily body be taken out.

Publication number is that the Chinese patent of CN201096247Y discloses a kind of quick connection pipe joint, and described pipe joint inside comprises the O RunddichtringO successively, seal ring pressure ring, snap ring, body stripping ring and locking cap.Form one on the ring-shaped step plane of O RunddichtringO and be used for the radial slot that fluid flows being used on the pipe joint body to install in addition, it is even to make that the O RunddichtringO bears pressure on the whole semi-round ring shape face when bearing pipeline pressure, reach the good more purpose of the big more sealability of pressure, and then guarantee the quick-sealing effect.

The pipe coupling of above several patents is because snap ring is bored the clamping of seat and locking cap in body, locate not movable state, therefore, when the PEX pipeline is inserted described pipe coupling, pipeline outer wall and tooth are in stronger clamp position, though after the whole insertion of pipeline, snap ring to the clamping of PEX pipe can so that snap ring be in joint inside can not mobile status, yet insertion along with pipeline, the chucking power of tooth can be always causes stronger prevention to the insertion of pipeline, makes pipeline insert comparatively difficulty fast.

The model utility content

For this reason, the technical problems to be solved in the utility model is to solve and a kind ofly can makes that the insertion of elasticity body (as the PEX body) is more or less freely, can guarantee after the elasticity body is being inserted into and is feeding the liquid pressuring expansion, to be difficult for getting loose to have the pipeline rapid pipe joint of high leak tightness and connection reliability again.

A kind of pipeline rapid pipe joint of the present utility model comprises:

Joint body, described joint body inside is provided with successively along the pipeline direction of insertion:

Locking cap is used to prevent that inner member from withdrawing from;

The locking cap backstopping assembly is located on the pipeline insertion end of described joint body, is used to prevent that described locking cap from withdrawing from;

Stripping ring, the card that is used to remove pipeline ends;

Snap ring has the cyclic spring flange and several are located on the described flange, is used to tighten the latch of pipeline outer wall;

Awl seat is slidingly connected with the inwall of described joint body, is used to stop described snap ring to move to the pipeline direction of insertion;

Awl seat convex shoulder is located on the inwall of described joint body, is used to stop described awl seat to the motion of pipeline direction of insertion, but the axial motion between described awl seat convex shoulder and described locking cap of wherein said awl seat and described snap ring;

The O RunddichtringO is used for being tightly connected with pipeline outer wall formation after pipeline inserts joint;

O RunddichtringO convex shoulder is located on joint body (1) inwall, is used to stop described O RunddichtringO to move to the pipeline direction of insertion;

Backstopping assembly is located on the described joint body inwall, is used to stop pipeline to move along direction of insertion;

Wherein, when pipeline inserted described joint, the flange of being located on the described snap ring produced deviation; When described pipeline fed the liquid pressuring expansion, described O RunddichtringO pressurized axial expansion promoted described snap ring along with described pipeline card only moving against the pipeline direction of insertion by promoting described awl seat.

Above-mentioned pipeline rapid pipe joint, described joint body comprises the O RunddichtringO section that is positioned between described O RunddichtringO convex shoulder and described awl seat convex shoulder, a described awl end near described O RunddichtringO is provided with the protruding rank that slidably are connected with described O RunddichtringO section sealing, when described awl seat described protruding rank when contrary duct orientation is moved keep sealed sliding to be dynamically connected with described O RunddichtringO section all the time.

Above-mentioned pipeline rapid pipe joint, the distance between described O RunddichtringO convex shoulder and described locking cap make described O RunddichtringO after described pipeline feeds liquid, during the pressurized axial expansion, described snap ring are pushed into described locking cap by described awl and contact.

Above-mentioned pipeline rapid pipe joint, the axial distance between described O RunddichtringO convex shoulder and described awl seat is more than or equal to the O RunddichtringO axial thickness cause the axial deformation of O RunddichtringO when inserting pipeline after.

Above-mentioned pipeline rapid pipe joint, described latch is at the diameter of the formed annulus of the nature external diameter less than the pipeline that is inserted into, and the internal diameter of described O RunddichtringO is less than the external diameter of described pipeline.

Above-mentioned pipeline rapid pipe joint, described awl seat are annular, and have the conical surface of joining the Kazakhstan with described latch near an end of described snap ring.

Above-mentioned pipeline rapid pipe joint also comprises the locking cap convex shoulder, is located on the described inner nosepiece wall, is positioned between described snap ring and described locking cap, is used to stop described locking cap to move to described pipeline direction of insertion; Form the stripping ring projection on the outer wall of described stripping ring, described stripping ring projection is between described snap ring and described locking cap.

Above-mentioned pipeline rapid pipe joint, described stripping ring forms cone angle near an end of described snap ring.

Advantage of the present utility model is:

1. joint comprises: joint body, and described joint body inside comprises successively along the pipeline direction of insertion: snap ring, awl seat and O RunddichtringO; Wherein, when pipeline inserted described joint, the flange of being located on the described snap ring produced deviation; Do not have the snap ring of deviation to compare with flange, under the situation that the internal diameter after latch opens equates, this latch is less to the grasping force of pipeline outer wall, and then has reduced the resistance that described snap ring caused to pipeline when pipeline entered.After described pipeline inserts described O RunddichtringO, and when feeding the liquid pressuring expansion in the described pipeline, the pressure that described O RunddichtringO is formed makes described O RunddichtringO produce axial expansion, move to contrary pipeline direction of insertion thereby promote described awl seat, and then the described snap ring of described awl seat promotion with described pipeline card only moves along contrary pipeline direction of insertion; Adopt the above-mentioned design proposal can be after pipeline feeds the liquid pressuring expansion, what can not produce be loosening, has improved reliability and tightness that pipeline feeds the connection behind the liquid pressuring expansion greatly.

2. described joint body comprises the O RunddichtringO section that is positioned between described O RunddichtringO convex shoulder and described awl seat convex shoulder, a described awl end near described O RunddichtringO is provided with the protruding rank that slidably are connected with described O RunddichtringO section sealing, when described awl seat described protruding rank when contrary duct orientation is moved keep sealed sliding to be dynamically connected with described O RunddichtringO section all the time; This design can effectively avoid described O RunddichtringO to cause the reduction of joint tighness when contrary pipeline direction of insertion promotes described awl seat, thereby inserts and after channel liquid expands to pipe pressurizing, guaranteed that described joint still has good sealing property at pipeline.

3. the distance between described O RunddichtringO convex shoulder and described locking cap makes described O RunddichtringO feed liquid at described pipeline, during the pressurized axial expansion, promotes described snap ring (4) and it is withstood on the described locking cap by described awl seat (3); This kind design can make described locking cap stop the contrary pipeline direction of insertion of described snap ring is moving, guaranteed that described snap ring is after the thrust that is subjected to described awl seat, its latch can grasp tightly on described pipeline outer wall, withdrawing from of pipeline only effectively blocked, avoided the loosening of pipeline effectively.

4. the axial distance between described O RunddichtringO convex shoulder and described awl seat is greater than the O RunddichtringO axial thickness cause the axial deformation of O RunddichtringO when inserting pipeline after, in the time of can avoiding when pipeline inserts described O RunddichtringO exerted pressure, cause described O RunddichtringO axial expansion, thereby promote described awl seat and described snap ring to contrary pipeline direction of insertion motion, and then increase described latch to described pipeline grasping force, stop the insertion of described pipeline; And during the O RunddichtringO axial thickness of the axial distance between described O RunddichtringO convex shoulder and described awl seat after equaling when the insertion pipeline, to cause the axial deformation of O RunddichtringO, in the time of not only can avoiding when pipeline inserts described O RunddichtringO exerted pressure, cause described O RunddichtringO axial expansion, thereby promote described awl seat and described snap ring to contrary pipeline direction of insertion motion, and then increase described latch to described pipeline grasping force, stop the insertion of described pipeline; Again can be so that after pipeline feeds the liquid pressuring expansion, make the O RunddichtringO axial expansion and the pressure that produces acts on the described awl seat fully, thereby move by the described snap ring of described awl seat promotion.

5. the internal diameter of described stripping ring is greater than the external diameter of the described pipeline that passes described stripping ring, can guarantee when pipeline inserts described stripping ring and described pipeline outer wall have enough spaces make when entering described stripping ring without any obstruction; Described latch can guarantee that at the diameter of the formed annulus of the nature external diameter less than the pipeline that is inserted into described latch carries out clamping to described pipeline outer wall; The internal diameter of described O RunddichtringO can guarantee that less than the external diameter of described pipeline the formation of described O RunddichtringO and described pipeline outer wall is tightly connected.

6. described awl seat be an annular, and an end of close described snap ring has the conical surface that matches with described latch, can allow described latch to form to a certain degree extension when described pipeline enters.

7. described stripping ring forms cone angle near an end of described snap ring, can be so that described stripping ring forms minimum contacting with described snap ring.

Description of drawings

For the easier quilt of content of the present utility model is clearly understood, according to specific embodiment of the utility model also in conjunction with the accompanying drawings, the utility model is described in further detail below.

Fig. 1 is the pipeline rapid pipe joint schematic representation on the no protruding rank of reset condition;

Fig. 2 is the pipeline rapid pipe joint schematic representation on the no protruding rank behind the insertion pipeline;

Fig. 3 feeds the pipeline rapid pipe joint schematic representation on the no protruding rank behind the liquid pressuring expansion for system;

Fig. 4 is the pipeline rapid pipe joint schematic representation that protruding rank are arranged of reset condition;

Fig. 5 is the pipeline rapid pipe joint schematic representation that protruding rank are arranged behind the insertion pipeline;

Fig. 6 is the pipeline rapid pipe joint schematic representation of the preferred forms behind the insertion pipeline;

Fig. 7 feeds the pipeline rapid pipe joint schematic representation of the preferred forms behind the liquid pressuring expansion for system;

1-joint body, 2-O type sealing density ring, 3-are bored seat, the 4-snap ring, 5-locking cap, 6-stripping ring, 7-O RunddichtringO convex shoulder, 8-awl seat convex shoulder, 9-locking cap backstopping assembly, the 10-latch, 11-stop parts, 12-flange, the 13-pipeline, 14-O RunddichtringO section, the protruding rank of 15-, 16-stripping ring projection, 17-locking cap convex shoulder

Embodiment

Embodiment 1

Pipeline rapid pipe joint as shown in Figure 1 comprises:

Joint body 1, described joint body 1 inside is provided with successively along pipeline direction of insertion (A to):

Locking cap 5 is used to prevent that inner member from withdrawing from;

Locking cap backstopping assembly 9 is located on the pipeline insertion end of described joint body, is used to prevent that described locking cap 5 from withdrawing from;

Stripping ring 6, the card that is used to remove pipeline ends;

Snap ring 4 has cyclic spring flange 12 and several are located on the described flange 12, is used to tighten the latch 10 of pipeline 13 outer walls;

Awl seat 3 is slidingly connected with the inwall of described joint body 1, is used to stop described snap ring 4 to move to the pipeline direction of insertion;

Awl seat convex shoulder 8 is located on the inwall of described joint body 1, is used to stop described awl seat 3 to the motion of pipeline direction of insertion, but the axial motion between described awl seat convex shoulder 8 and described locking cap of wherein said awl seat 3 and described snap ring 4;

O RunddichtringO 2 is used for being tightly connected with pipeline outer wall formation after pipeline 13 inserts joint;

O RunddichtringO convex shoulder 7 is located on joint body (1) inwall, is used to stop described O RunddichtringO 2 to move to the pipeline direction of insertion;

Stop parts 11 are located on described joint body 1 inwall, are used to stop pipeline 13 to move along direction of insertion;

The distance that described O RunddichtringO convex shoulder 7 and described locking cap are 5 makes described O RunddichtringO after described pipeline 13 feeds liquid, during the pressurized axial expansion, by described awl seat 3 with described snap ring 4 be pushed into also roof pressure in described locking cap 5 on.

As shown in Figure 2, the axial distance that described O RunddichtringO convex shoulder 7 and described awl seat are 3 is greater than O RunddichtringO 2 axial thicknesss cause the axial deformation of O RunddichtringO when inserting pipeline after, be that described O RunddichtringO still is in separated position with described awl seat 3 this moment, described O RunddichtringO is in by free compressive state.

Described latch 10 is at the diameter of the formed annulus of the nature external diameter less than the pipeline that is inserted into, and the internal diameter of described O RunddichtringO is less than the external diameter of described pipeline 13, and the internal diameter of described stripping ring 6 is greater than the external diameter of described pipeline 13.

Described awl seat 3 is an annular, and has the conical surface that cooperates with described latch near an end of described snap ring 4.

Described pipeline rapid pipe joint also comprises locking cap convex shoulder 17, is located on the described inner nosepiece wall, is positioned at 5 of described snap ring 4 and described locking caps, is used to stop described locking cap 5 to described pipeline direction of insertion (A to) motion; Form stripping ring projection 16 on the outer wall of stripping ring 6, described stripping ring projection 16 is between described snap ring 4 and described locking cap.

Described stripping ring 6 forms cone angle near an end of described snap ring 4.

When pipeline 13 inserts described joint, at first pass described stripping ring 6, subsequently, described pipeline outer wall contacts with described latch 10, and pass institute's snap ring 4, at this moment, described latch and described pipeline outer wall are clamp position, when described pipeline continued to insert, it can make the flange of being located on the described snap ring 4 produce deviation by promoting described latch 10; Act on the latch 10 active force when pipeline enters and make that promoting described awl seat 3 when latch opens moves to a described awl convex shoulder direction; Along with going deep into of pipeline, described pipeline passes described awl seat 3, and passes described O RunddichtringO 2, arrives described pipeline stop parts 11 places; Wherein, described deviation be the peripheral edge portion of flange 12 of described snap ring 4 to contrary pipeline direction of insertion (B to) motion, the inner margin portion that is connected with described latch 12 of described flange 12 is moved to pipeline direction of insertion (A to).

As shown in Figure 3, when described snap ring 4 feeds the liquid pressuring expansion, described O RunddichtringO 2 is subjected to compression swelling pressurized axial expansion because of described pipeline, promote described snap ring 4 along contrary pipeline direction of insertion (B to) motion by promoting described awl seat 3, and with its ejection to the described locking cap 5, at this moment, the described flange of deviation can be attempted to recover to original state from the deviation state under the effect of thrust, thereby can make the latch on the described snap ring that the chucking power on the described pipeline outer wall is increased, and then described pipeline card is ended.

When needs take out pipeline 13 from described joint, described stripping ring is promoted to the pipeline direction of insertion, one end of the close described snap ring 4 of described stripping ring backs down described latch 10, and described pipeline is carried out release, thereby pipeline is taken out from 13 described joints.

Above-mentioned pipeline can be the PEX pipeline made from the PEX material.

Above-mentioned joint comprises: joint body, and described joint body inside comprises successively along the pipeline direction of insertion: snap ring, awl seat and O RunddichtringO; Wherein, when pipeline inserted described joint, the flange of being located on the described snap ring produced deviation; Do not have the snap ring of deviation to compare with flange, under the situation that the internal diameter after latch opens equates, this latch is less to the grasping force of pipeline outer wall, and then has reduced the resistance that described snap ring caused to pipeline when pipeline entered.After described pipeline inserts described O RunddichtringO, and when feeding the liquid pressuring expansion in the described pipeline, the pressure that described O RunddichtringO is formed makes described O RunddichtringO produce axial expansion, move to contrary pipeline direction of insertion thereby promote described awl seat, and then the described snap ring of described awl seat promotion with described pipeline card only moves along contrary pipeline direction of insertion; Adopt above-mentioned design proposal feeding after liquid expands to pipe pressurizing, it is loosening that it can not produce, and improved reliability and tightness that pipeline feeds the connection behind the liquid pressuring expansion greatly.

Axial distance between described O RunddichtringO convex shoulder and described awl seat is greater than the O RunddichtringO axial thickness cause the axial deformation of O RunddichtringO when inserting pipeline after, in the time of can avoiding when pipeline inserts described O RunddichtringO exerted pressure, cause described O RunddichtringO axial expansion, thereby promote described awl seat and described snap ring to contrary pipeline direction of insertion motion, and then increase described latch to described pipeline grasping force, stop the insertion of described pipeline;

The internal diameter of described stripping ring is greater than the external diameter of the described pipeline that passes described stripping ring, can guarantee when pipeline inserts described stripping ring and described pipeline outer wall have enough spaces make when entering described stripping ring without any obstruction; Described latch can guarantee that at the diameter of the formed annulus of the nature external diameter less than the pipeline that is inserted into described latch carries out clamping to described pipeline outer wall; The internal diameter of described O RunddichtringO can guarantee that less than the external diameter of described pipeline the formation of described O RunddichtringO and described pipeline outer wall is tightly connected.

Described awl seat be an annular, and an end of close described snap ring has the conical surface that matches with described latch, can allow described latch to form to a certain degree extension when described pipeline enters.

Described stripping ring forms cone angle near an end of described snap ring, can be so that described stripping ring forms minimum contacting with described O RunddichtringO.

Embodiment 2

Pipeline rapid pipe joint as shown in Figure 4 comprises:

Locking cap 5 is used to prevent that inner member from withdrawing from;

Locking cap backstopping assembly 9 is located on the pipeline insertion end of described joint body, is used to prevent that described locking cap from withdrawing from;

Stripping ring 6, the card that is used to remove pipeline ends;

Described joint body 1 comprises the O RunddichtringO section 14 that is positioned at 8 of described O RunddichtringO convex shoulder 7 and described awl seat convex shoulders, described awl 3 end near described O RunddichtringOs 2 are provided with the protruding rank 15 that slidably are connected with described O RunddichtringO section 14 sealings, when described awl seat described protruding rank when contrary duct orientation is moved keep sealed sliding to be dynamically connected with described O RunddichtringO section all the time.

The distance that described O RunddichtringO convex shoulder 7 and described locking cap are 5 allows described O RunddichtringO 2, described awl seat 3 and described snap ring 4 unrestricted motion during this time, and make described O RunddichtringO after described pipeline 13 feeds liquid, during the pressurized axial expansion, by described awl seat 3 described snap ring 4 is pushed into and roof pressure in described locking cap 5 on.

As shown in Figure 5, the axial distance that described O RunddichtringO convex shoulder 7 and described awl seat are 3 is greater than O RunddichtringO 2 axial thicknesss cause the axial deformation of O RunddichtringO when inserting pipeline after, and promptly described O RunddichtringO still is in separated position with described awl seat 3 this moment.For this point, present embodiment also can be according to design as shown in Figure 6, mode of execution as the best, wherein, O RunddichtringO 2 axial thicknesss after the axial distance that described O RunddichtringO convex shoulder 7 and described awl seat are 3 equals to cause the axial deformation of O RunddichtringO when inserting pipeline, that is, described O RunddichtringO just touches with described awl seated connection this moment, but not to its applied thrust.

Described latch 10 is at the diameter of the formed annulus of the nature external diameter less than the pipeline that is inserted into, and the internal diameter of described O RunddichtringO is less than the external diameter of described pipeline 13.

Described awl seat 3 is an annular, and has the conical surface of joining the Kazakhstan with described latch near an end of described snap ring 4.

Described pipeline rapid pipe joint also comprises locking cap convex shoulder 17, is located on the described inner nosepiece wall, is positioned at 5 of described snap ring 4 and described locking caps, is used to stop described locking cap 5 to move to described pipeline direction of insertion;

Form stripping ring projection 16 on the outer wall of stripping ring 6, described stripping ring projection 16 is between described snap ring 4 and described locking cap.

When pipeline 13 inserts described joint, at first pass described stripping ring 6, subsequently, described pipeline outer wall contacts with described latch 10, and pass institute's snap ring 4, at this moment, described latch and described pipeline outer wall are clamp position, when described pipeline continued to insert, it can make the flange of being located on the described snap ring 4 produce deviation by promoting described latch 10; Along with going deep into of pipeline, described pipeline passes described awl seat 3, and passes described O RunddichtringO 2, arrives described pipeline stop parts 11 places; Wherein, described deviation be the peripheral edge portion of flange 12 of described snap ring 4 to contrary pipeline direction of insertion (B to) motion, the inner margin portion that is connected with described latch 12 of described flange 12 is moved to pipeline direction of insertion (A to).

As shown in Figure 6, when described snap ring 4 and when feeding the liquid pressuring expansion, described O RunddichtringO 2 is subjected to compression swelling pressurized axial expansion because of described pipeline, promote described snap ring 4 along contrary pipeline direction of insertion (B to) motion by promoting described awl seat 3, and with its ejection to the described locking cap 5, at this moment, the described flange of deviation can recover to original state from the deviation state under the effect of thrust, thereby can make the latch on the described snap ring that the chucking power on the described pipeline outer wall is increased, and then described pipeline card is ended.

Above-mentioned pipeline can be the PEX pipeline made from the PEX material.

Described joint body comprises the O RunddichtringO section that is positioned between described O RunddichtringO convex shoulder and described awl seat convex shoulder, a described awl end near described O RunddichtringO is provided with the protruding rank that slidably are connected with described O RunddichtringO section sealing, when described awl seat keeps close being slidingly connected of envelope in described O RunddichtringO section in described protruding rank all the time when contrary duct orientation is moved; This design can effectively avoid described O RunddichtringO to cause the reduction of joint tighness when contrary pipeline direction of insertion promotes described awl seat, thereby inserts and after channel liquid expands to pipe pressurizing, guaranteed that described joint still has good sealing property at pipeline.

Distance between described O RunddichtringO convex shoulder and described locking cap makes described O RunddichtringO feed liquid at described pipeline, during the pressurized axial expansion, described snap ring is pushed into described locking cap by described awl and contacts; This kind design can make described locking cap stop the contrary pipeline direction of insertion of described snap ring is moving, guaranteed that described snap ring is after the thrust that is subjected to described awl seat, its latch can grasp tightly on described pipeline outer wall, withdrawing from of pipeline only effectively blocked, avoided the loosening of pipeline effectively.

During O RunddichtringO axial thickness after the axial distance between described O RunddichtringO convex shoulder and described awl seat equals to cause the axial deformation of O RunddichtringO when the insertion pipeline, in the time of not only can avoiding when pipeline inserts described O RunddichtringO exerted pressure, cause described O RunddichtringO axial expansion, thereby promote described awl seat and described snap ring to contrary pipeline direction of insertion motion, and then increase described latch to described pipeline grasping force, stop the insertion of described pipeline; Again can be so that after pipeline feeds the liquid pressuring expansion, make the O RunddichtringO axial expansion and the pressure that produces acts on the described awl seat fully, thereby move by the described snap ring of described awl seat promotion.

Obviously, the foregoing description only is for example clearly is described, and is not the qualification to mode of execution.For those of ordinary skill in the field, can also make other changes in different forms according to varying in size of equipment on the basis of the above description.Here need not also can't give exhaustive to all mode of executions.And conspicuous variation of being extended out thus or change still are among the protection domain of the utility model creation.

Claims

1. pipeline rapid pipe joint is characterized in that: comprising:

Joint body (1), described joint body (1) is inner to be provided with successively along the pipeline direction of insertion:

Locking cap (5) is used to prevent that inner member from withdrawing from;

Locking cap backstopping assembly (9) is located on the pipeline insertion end of described joint body, is used to prevent that described locking cap (5) from withdrawing from;

Stripping ring (6), the card that is used to remove pipeline ends;

Snap ring (4) has cyclic spring flange (12) and several are located on the described flange (12), is used to tighten the latch (10) of pipeline (13) outer wall;

Awl seat (3) is slidingly connected with the inwall of described joint body (1), is used to stop described snap ring (4) to move to the pipeline direction of insertion;

An awl seat convex shoulder (8) is located on the inwall of described joint body (1), is used to stop described awl seat (3) to the motion of pipeline direction of insertion, wherein said awl (3) and described snap ring (4) at a described awl convex shoulder (8) but and axial motion between described locking cap;

O RunddichtringO (2) is used for being tightly connected with pipeline outer wall formation after pipeline (13) inserts joint;

O RunddichtringO convex shoulder (7) is located on joint body (1) inwall, is used to stop described O RunddichtringO (2) to move to the pipeline direction of insertion;

Pipeline backstopping assembly (11) is located on described joint body (1) inwall, is used to stop pipeline (13) to move along direction of insertion;

Wherein, when pipeline (13) inserted described joint, the flange of being located on the described snap ring (4) (12) produced deviation; When described pipeline (13) fed the liquid pressuring expansion, described O RunddichtringO (2) pressurized axial expansion promoted described snap ring (4) along with described pipeline card only moving against the pipeline direction of insertion by promoting described awl seat (3).

2. pipeline rapid pipe joint according to claim 1, it is characterized in that: described joint body (1) comprises the O RunddichtringO section (14) that is positioned between described O RunddichtringO convex shoulder (7) and described awl seat convex shoulder (8), described awl (3) is provided with the protruding rank (15) that slidably are connected with described O RunddichtringO section sealing near an end of described O RunddichtringO (2), when described awl seat described protruding rank (15) when contrary pipeline direction of insertion is moved keeps sealed sliding to be dynamically connected with described O RunddichtringO section all the time.

3. pipeline rapid pipe joint according to claim 1 and 2 is characterized in that:

Distance between described O RunddichtringO convex shoulder (7) and described locking cap (5) makes described O RunddichtringO (2) after described pipeline feeds the liquid pressuring expansion, during the pressurized axial expansion, promote described snap ring (4) and it is withstood on the described locking cap by described awl seat (3).

4. pipeline rapid pipe joint according to claim 3 is characterized in that:

Axial distance between described O RunddichtringO convex shoulder (7) and described awl seat (3) is more than or equal to O RunddichtringO (2) axial thickness cause the axial deformation of O RunddichtringO when inserting pipeline after.

5. pipeline rapid pipe joint according to claim 4 is characterized in that:

Described latch (10) is at the diameter of the formed annulus of the nature external diameter less than the pipeline that is inserted into, and the internal diameter of described O RunddichtringO (2) is less than the external diameter of described pipeline (13), and the internal diameter of described stripping ring (6) is greater than the external diameter of the described pipeline (13) that passes described stripping ring (6).

6. pipeline rapid pipe joint according to claim 5 is characterized in that:

Described awl seat (3) is an annular, and has the conical surface that cooperates with described latch (10).

7. pipeline rapid pipe joint according to claim 6 is characterized in that: also comprise

Locking cap convex shoulder (17) is located on described joint body (1) inwall, is positioned between described snap ring (4) and described locking cap (5), is used to stop described locking cap (5) to move to described pipeline direction of insertion;

Form stripping ring projection (16) on the outer wall of described stripping ring (6), described stripping ring projection (16) is positioned between described snap ring (4) and the described locking cap (5), is used for cooperating with described locking cap (5) preventing that described stripping ring (6) breaks away from described joint.

8. pipeline rapid pipe joint according to claim 7 is characterized in that:

Described stripping ring (6) forms cone angle near an end of described snap ring (4).