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WO2017143507A1 - 快速管扣结构 - Google Patents

快速管扣结构 Download PDF

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Publication number
WO2017143507A1
WO2017143507A1 PCT/CN2016/074322 CN2016074322W WO2017143507A1 WO 2017143507 A1 WO2017143507 A1 WO 2017143507A1 CN 2016074322 W CN2016074322 W CN 2016074322W WO 2017143507 A1 WO2017143507 A1 WO 2017143507A1
Authority
WO
WIPO (PCT)
Prior art keywords
component
groove
fastening
pipe
engaging
Prior art date
Application number
PCT/CN2016/074322
Other languages
English (en)
French (fr)
Inventor
郑福耀
Original Assignee
第一防蚀管业有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 第一防蚀管业有限公司 filed Critical 第一防蚀管业有限公司
Priority to PCT/CN2016/074322 priority Critical patent/WO2017143507A1/zh
Publication of WO2017143507A1 publication Critical patent/WO2017143507A1/zh

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16LPIPES; JOINTS OR FITTINGS FOR PIPES; SUPPORTS FOR PIPES, CABLES OR PROTECTIVE TUBING; MEANS FOR THERMAL INSULATION IN GENERAL
    • F16L47/00Connecting arrangements or other fittings specially adapted to be made of plastics or to be used with pipes made of plastics
    • F16L47/06Connecting arrangements or other fittings specially adapted to be made of plastics or to be used with pipes made of plastics with sleeve or socket formed by or in the pipe end
    • F16L47/12Connecting arrangements or other fittings specially adapted to be made of plastics or to be used with pipes made of plastics with sleeve or socket formed by or in the pipe end with additional locking means

Definitions

  • the invention relates to a quick buckle structure, in particular to a support shaft disposed outside the first component, so as to arrange the axial groove of the second component, so that the first component and the second component are first combined with each other to form a one-way opening shape.
  • the leakage preventing member is disposed at the engaging end, and the first member and the second member are wrapped on the outer side of the leakage preventing member, and the first member and the second member are combined by the fastening member.
  • the one end is fastened, the two pipe fittings can be joined, and the leakage of the liquid in the pipe member can be prevented by the leakage preventing component, and the accumulated dirt in the cleaning pipe can be quickly replaced by one person to keep the pipe in the pipe. Save the quick-fitting structure of the maintenance manpower.
  • the pipe buckle of the prior art is respectively wrapped around the outer end of the connecting end of the connected pipe by two symmetrical elements, and then bolted to the two ends of the two symmetrical elements by two sets of screws and nuts respectively to close the connecting end of the two pipe parts.
  • the pipe buckle of the prior art has the disadvantage that the pipe fittings of the building, in the current building regulations, are all open pipe construction, that is, in such a manner that the pipe fittings are exposed outside the cement body.
  • the purpose of the setting is to replace the pipe quickly if it is damaged in the future, or if it is a sewage pipe, it will accumulate dirt in the sewage pipe after a period of use, and must be removed by manual removal.
  • the constructor must first remove the pipe. After deducting and removing the scale inside the tube, return the tube buckle to its original shape.
  • the installation of the pipe fittings of the building is narrow, and it is very difficult for the constructor to enter or even use the hand tools.
  • the pipe fittings are not all linear, and sometimes there are other branches or diagonal settings or The turning setting must always match the type of the building.
  • the screw or nut must be bolted with a manual tool. For example, when the screw or nut is pulled out of the pipe buckle, how can it be smooth? Operation is a problem.
  • such a structure must be operated by two or more people together. Otherwise, it is impossible to support the pipe fittings, pipe buckles, and hand tools, resulting in waste of human resources.
  • the setting position is narrow, it cannot be How to solve the problem of replacing pipe fittings or removing scale when accommodating more than two construction workers.
  • this type of pipe buckle is also used for the suspension of the pipe construction pipe. It is also required to be bolted to the two ends of the two symmetrical components by two sets of screws and nuts to cover the periphery of various pipe fittings. Pulling the lead wire to the bottom of the ceiling to fix the pipe fittings in the Ming style for use as water and sewage.
  • the disadvantages are as described above. It must be operated by two or more people. Supporting the pipe fittings, another person operating the hand tools to bolt the pipe buckles, resulting in waste of human resources.
  • the object of the present invention is to provide a simple structure, which can solve the problem that the installation position of the pipe fittings and the water pipe of the building is narrow and the manpower construction is inconvenient, and the damage can be quickly replaced without using the manual tool with little manpower.
  • Pipe fittings and can quickly remove the two pipe fittings to remove the accumulated dirt in the pipe fittings, keep the pipe fittings unblocked, and through experiments, it is more than 5 times faster than the prior art construction, and the manpower can be reduced by two. More than one of the points, to increase the speed of construction, saving manpower and rapid innovation of the buckle structure.
  • the quick pipe buckle structure of the present invention is provided with a first component and a second component, wherein the first component and the second component are respectively provided with corresponding snap ring circumferences on the inner side surface, so as to be engaged with the engaging two pipe fittings.
  • a concave arc groove is provided on the inner side of the engagement ring, and is provided as a leakage element.
  • the outer side of the first component of the quick tube buckle structure of the present invention is provided with a support shaft for arranging the shaft groove of the second component, and the other end of the first component and the second component are correspondingly provided with a fastening groove, in the first component
  • the fastening component is fastened to the respective fastening slots of the first component and the second component, so that the two tubular components that are connected can be combined, and the leakage preventing component is prevented from being in the tubular component.
  • the liquid leaks and has a quick replacement which quickly cleans up the accumulated dirt in the pipe fittings, keeps the pipe inside unobstructed, and saves the beneficial effect of maintenance manpower.
  • the two pipe members are first connected by a connecting member, and the connecting member is provided with a large pipe diameter end, so that the other pipe member is extended and glued, and the inner pipe wall of the small pipe diameter end of the connecting member is Corresponding to the inner tube wall of the tube member, the outer tube wall of the small tube end of the connecting member is formed with an engaging groove of the tube buckle, so as to be arranged with the engaging groove of the other tube member, or by a tube member
  • the engaging groove provided by the connecting component and the engaging groove of the connecting component of the other pipe member are arranged for the pipe buckle, so that the connecting end of the two pipe fittings can be quickly disassembled, which is more convenient for cleaning and maintenance.
  • the quick tube buckle of the present invention is provided with a bolting member including an internal thread to be screwed with the bolting member provided with the external thread of the pulling member, so that the outer surface of the tubular member is covered by the buckle of the present invention.
  • the pipe can be suspended below the ceiling of the building to match the construction of the Ming pipe.
  • Fig. 1 is a side view showing a first embodiment of a pipe buckle according to the present invention.
  • Figure 2 is a cross-sectional view taken along line A-A of Figure 1.
  • Figure 3 is an exploded view of the first embodiment of the buckle of the present invention.
  • Figure 4 is a partially exploded perspective view of the first embodiment of the buckle of the present invention.
  • Fig. 5 is a first fastening operation diagram of the first embodiment of the pipe buckle according to the present invention.
  • Fig. 6 is a second fastening operation diagram of the first embodiment of the pipe buckle according to the present invention.
  • Fig. 7 is a view showing the action of the pipe buckle according to the first embodiment of the present invention.
  • Fig. 8 is a view showing the action of the buckle according to the first embodiment of the present invention.
  • Figure 9 is an exploded perspective view of the second embodiment of the buckle of the present invention.
  • Figure 10 is a view of the first embodiment of the operation of the pipe-fitting engagement member of the present invention.
  • Figure 11 is a view of the second embodiment of the operation of the tube-fitting coupling member of the present invention.
  • Figure 12 is a view of the third embodiment of the operation of the tube-fitting coupling member of the present invention.
  • Figure 13 is a view of the fourth embodiment of the operation of the pipe-fitting engagement member of the present invention.
  • Figure 14 is a view of the fifth embodiment of the operation of the tube-fitting coupling member of the present invention.
  • Figure 15 is a view of the sixth embodiment of the operation of the buckle-fit connection member of the present invention.
  • Figure 16 is a view showing an embodiment of the pipe buckle of the present invention as a pipe suspension operation.
  • Figure 17 is a partial enlarged view of Figure 16.
  • Inner tube wall 600 water stop washer groove 601 outer tube wall 602
  • the buckle of the present invention includes at least: the first component 1
  • the engaging ring 10 is disposed on the side surface, and the engaging ring 10 is integrally formed with the shape of the first component 1.
  • the engaging ring 10 is engaged with the engaging grooves 40 of the two tubular members 4a and 4b. (As shown in FIG. 7), a concave arc groove 11 is provided on the inner side of the engagement ring 10, and is provided in the leakage element 3.
  • the engaging ring 10 is engaged with the engaging groove 611 provided in the small diameter end 61 of the connecting connecting member 6 (as shown in FIGS. 10-15).
  • One end of the outer side of the first element 1 is integrally formed with a support shaft 12 for being disposed in a shaft groove of the second element 2, and the support shaft 12 of the first element 1 is integrated with the first element 1 by a shaft seat 120.
  • the other end of the first component 1 is integrally formed with a fastening groove 13 for fastening the fastening component 5 (as shown in FIGS. 1 and 4 ), and the fastening groove 13 of the first component 1 is disposed below the extension seat 130 .
  • the aforementioned extension seat 130 is integrally formed with the first member 1 and extends outward. Or, as shown in FIG.
  • a concave engaging region 14 may be disposed on an inner side of one end of the extending seat 130 of the second engaging groove 13 in the concave arc groove 11 of the first member 1 , corresponding to the second The protruding engagement end 24 of the element 2.
  • the recessed arc groove 11 of the first component 1 is disposed at an inner side of one end of the extending seat 130 of the two fastening groove 13 to form a concave engaging region 14 for the card.
  • the lands 14 correspond to the projecting ends 24 of the second element 2 which are projecting.
  • the second element 2 of the present invention is provided with the second element 2, and is combined with the first element 1 to form a ring shape, and the inner side of the second element 2 is formed.
  • the engagement ring 20 is corresponding to the engagement ring 10 of the first component 1 and is engaged in the engagement groove 40 of the two tubular members 4a, 4b (as shown in FIG. 10-15).
  • a concave arc groove 21 is disposed on the inner side of the engaging ring 20, and is disposed in the concave arc groove 11 of the first element 1 as shown by the leaking element 3 (as shown in FIG. 3-6).
  • the engaging ring 10 is engaged with the engaging groove 611 provided in the small diameter end 61 of the connecting connecting member 6 (as shown in FIGS. 10-15).
  • One end of the second component 2 is provided with a shaft groove 22 for accommodating the support shaft 12 of the first component 1.
  • the axial groove 22 of the second component 2 is disposed above the axle housing 220, and the second component 2 is Made in one piece.
  • the other end of the second component 2 is integrally formed with a fastening groove 23 for fastening the fastening component 5 (as shown in FIG. 3-6 ), and the fastening groove 23 of the second component 2 is disposed on the extension seat 230 .
  • the aforementioned extension seat 230 extends outward from the aforementioned second member 2 and is integrally formed with the second member 2.
  • a protruding engaging end 24 is disposed between the two extending seats 230 of the engaging groove 23 of the concave arc groove 21 of the second component 2 , corresponding to the first
  • the engaging region 14 of the component 1 can be firstly engaged with the first component 1 by the engaging end 24 of the second component 2 before the fastening component 5 has been combined with the second component 2 Combining with each other to create an initial knot between the first component 1 and the second component 2
  • the function of the positioning prevents the first element 1 and the second element 2 from being shifted to the left and right, so that the fastening element 5 can fasten the first element 1 and the second element 2 more quickly and accurately.
  • the tube of the present invention is provided with a fastening component 5, and the fastening component 5 is provided with a triggering member 50.
  • the triggering member 50 is provided with a support shaft 500, and is disposed on the support shaft 500.
  • the triggering member 50 is provided with a pulling surface 501.
  • the inner joining angle of the pulling surface 501 and the supporting shaft 500 is less than 90 degrees, and exhibits a downward condensation state, which is simpler and more labor-saving in operation, and enhances the fastening effect.
  • the triggering surface 501 of the triggering member 50 is located between the two sets of support shafts 500 and forms an active space 503 for facilitating the setting of the latching member 51.
  • the triggering member 50 is disposed on the rear side of the support shaft with a coupling hole 502 and a coupling groove 502a respectively disposed on the inner side of the triggering surface 501 to facilitate the positioning and positioning of the lower support shaft 511 of the latching member 51.
  • the fastening element 5 is provided with a pulling member 51.
  • the pulling member 51 is provided with a supporting shaft 510 and a lower supporting shaft 511, and an arc-shaped connecting piece 512 is disposed between the upper supporting shaft 510 and the lower supporting shaft 511.
  • the side is contracted on both sides of the upper support shaft 510 and the lower support shaft 511, and the upper support shaft 510 is accurately engaged with the engagement groove 23 of the second member 2 by the arc-shaped web-shaped connecting piece 512.
  • the lower support shaft 511 of the latching member 51 of the fastening component 5 is first.
  • the fulcrum 500 of the triggering member 50 is disposed above the engaging groove 13 of the first component 1 and is coupled to the engaging component 5 by the engaging hole 502 of the first member 1 and the engaging groove 502a.
  • the upper support shaft 510 of the latching member 51 is fastened to the engaging groove 23 of the second component 2, and then the pulling member 50 is pulled downward by force, that is, the pulling member 51 is pulled downward, and the first component 1 is pulled down.
  • the opening of the second member 2 is tightly closed, and the two tubular members 4 (shown in FIGS. 1, 7, and 8) engaged by the pipe joint are completed.
  • the buckle of the present invention needs to be matched with a leakage preventing component 3, which is made of a material having elasticity and sealing effect, and the leakage preventing component 3 is an annular body and is provided with an outer surface 30.
  • the leakage preventing element 3 can be disposed on the first element 1 and the second element.
  • Inside component 2 (as shown in Figures 1, 5-8).
  • An inclined surface 31 is provided on the inner side of the leakage preventing member 3, and a gap 32 is provided between the inclined surfaces 31.
  • the leakage stop element 3 is provided with a middle hole 33. When installed, the pipe hole is first passed through the middle hole 33 of the leakage preventing element 3, and then the leakage preventing element 3 is sleeved on the connecting end of the two pipe parts 4a, 4b (Fig. 10).
  • the leakage preventing member 3 is used to prevent the water leakage of the connecting ends of the two pipe members.
  • the connecting component 6 of the present embodiment is provided with a large pipe diameter end 60 and a small pipe diameter end 61, and the large pipe diameter end 60 is provided.
  • the inner tube wall 600 is provided with a length of the tube member 4a.
  • the inner wall surface 600 of the large tube end 60 is provided with a water stop washer groove 601, and the water washer 62 is disposed therein.
  • the water stop washer groove 601 is provided therein. It can be a single or two or more quantity, depending on the actual demand. Or, in the second embodiment shown in FIG. 11, there is no water-stop gasket groove and a water-stop gasket.
  • the outer diameter of the small diameter end 61 of the connecting element 6 is smaller than the outer diameter of the large diameter end 60, and the diameter of the inner tube wall 610 of the small diameter end 61 is equal to the diameter of the tube 4b.
  • the outer tube wall of the diameter end 61 is formed with an engagement groove 611.
  • the engaging groove 611 provided in the small-diameter end 61 of the connecting member 6 of the 4a and the engaging groove 40 provided in the other tubular member 4b are the engaging ring 10 and the second member 2 of the first member 1 of the buckle.
  • the engaging ring 20 is fastened, and is provided by the concave arc groove 11 of the first element 1 of the pipe buckle and the concave arc groove of the second element 2, and after the first element and the second element are combined,
  • the leakage stop element 3 prevents the water leakage of the connecting end of the two pipe fittings, and the connecting end 4c of the two pipe fittings is quickly disassembled, which is more convenient for cleaning and maintenance, and has the effect of stretching and shockproof.
  • FIG. 12 it is the third embodiment of the pipe-fitting connection component 6 of the present invention.
  • the third embodiment is extended from the first embodiment and the second embodiment.
  • the adjacent two pipe members 4a and 4b are to be mutually
  • the end of one of the tubular members 4a is extended inward from the opening of the large diameter end 60 of the connecting member 6, reaching a certain depth of the inner wall surface 600 of the large diameter end 60, and the water can be stopped by the foregoing
  • the gasket 62 abuts against the surface of the pipe member 4a to produce a seal leakage preventing effect.
  • the end of the other tubular member 4b is extended inwardly from the opening of the large diameter end 60 of the connecting member 6a to a certain depth of the inner wall surface 600 of the large diameter end 60, and at this time, the water stopping washer 62 can be used. It abuts against the surface of the tube 4b to produce a sealing and leak-stopping effect. Or as in the fourth embodiment shown in FIG. 13, there is no need to install a water stop gasket groove and a water stop gasket.
  • the engaging end 4c of the two tubular members 4a, 4b is further provided with the engaging groove 611 provided by the small diameter end 61 of the connecting member 6 and the engaging groove 611 provided by the small diameter end 61 of the connecting member 6a as the first member of the buckle
  • the engaging ring 10 of the first component and the engaging ring 20 of the second component 2 are fastened, and the leakage preventing component 3 is sleeved at the same time.
  • the engaging end 4c is configured to simultaneously dispose the concave arc groove 11 of the first element 1 of the buckle and the concave arc groove of the second element 2, and after the first element and the second element are combined,
  • the leakage element 3 prevents the water leakage of the connecting end of the two pipe fittings, and the connecting end 4c of the quick-disassembling two pipe fittings is more convenient for cleaning and maintenance, and has the effect of stretching and shockproof.
  • the connecting component 6 of the fifth embodiment has a large diameter end 60 and a small diameter end 61 , and the large diameter end
  • the outer tube wall 602 of the 60 is provided with a sleeve 4a of a certain length, and the outer tube wall of the large diameter end is glued to the tube 4a.
  • the inner tube wall 610 of the small-diameter end 61 has a diameter corresponding to the tube diameter of the tube 4b, and the outer tube wall of the small-diameter end 61 is formed with an engagement groove 611.
  • the end of one of the tubular members 4a is sleeved on the outer tubular wall 602 of the large-diameter end 60 of the connecting member 6 to a certain depth, and then the large-diameter end 60 is The outer tube wall 602 is glued to the tube member 4a to produce a leak stop effect.
  • the open end of the small diameter end 61 of the connecting member 6 is brought into contact with the end of the other tubular member 4b to form the engaging end 4c of the two tubular members 4a, 4b, and the leakage preventing member 3 is sleeved on the connecting of the two tubular members 4a, 4b. End 4c.
  • the engaging groove 611 provided in the small-diameter end 61 of the connecting member 6 and the engaging groove 40 provided in the tubular member 4b itself are used to engage the engaging ring 10 of the first component 1 of the buckle and the second component 2.
  • the ring 20 is fastened, and then the concave arc groove 11 of the first element 1 of the pipe buckle and the concave arc groove of the second element 2 are arranged to be leaky, and after the first element and the second element are combined,
  • the leakage element 3 prevents the water leakage of the connecting end 4c of the two pipe fittings, and the connecting end of the quick-disassembling two pipe fittings is more convenient for cleaning and maintenance, and has the effect of stretching and shockproof.
  • FIG. 15 it is the sixth embodiment of the pipe-fitting connection component 6 of the present invention.
  • the end of one of the pipe members 4a may be sleeved.
  • the outer tube wall 602 of the large diameter end 60 of the connecting member 6 is provided to a certain depth, and the outer tube wall 602 of the large diameter end 60 is glued to the tube member 4a to form a leakproof effect.
  • the end of the other tube member 4b is sleeved to the outer tube wall 602 of the large diameter end 60 of the connecting member 6a to a certain depth, and the outer tube wall 602 of the large tube end 60 is glued to the tube member 4b to form a stop. Leakage effect.
  • the engaging end 4c of the two tubular members 4a, 4b is further provided with the engaging groove 611 provided by the small diameter end 61 of the connecting member 6 and the engaging groove 611 provided by the small diameter end 61 of the connecting member 6a as the first member of the buckle
  • the engaging ring 10 of the first engaging member 10 and the engaging ring 20 of the second member 2 are fastened, and then the concave arcing groove 11 of the first component 1 of the pipe buckle and the concave arc groove 21 of the second component 2 are disposed.
  • the leakage preventing component 3 can prevent the water leakage of the connecting end 4c of the two pipe fittings 4a, 4b, and the connecting end of the two pipe fittings can be quickly disassembled, which is more convenient for cleaning and maintenance. It also has the effect of telescopic shockproof.
  • the concave arc groove 11 of the first component 1 is located at the inner side of one end of the extending seat 130 of the two fastening groove 13 and is provided with a concave engaging region 14
  • the concave arc groove 21 of the component 2 is disposed between the two extension seats 230 of the fastening groove 23, and has a protruding engagement end 24.
  • the engaging end 24 of the second component 2 is first coupled to the engaging region 14 of the first component 1 to thereby create an initial bonding position between the first component 1 and the second component 2, avoiding the first component 1 and
  • the second element 2 is offset to the left and right, so that the fastening component 3 can fasten the first element 1 and the second element 2 more quickly and accurately.
  • FIG. 16 and FIG. 17 it is an embodiment of the present invention, which is derived from the foregoing embodiments, and includes at least: a first component 1
  • the outer end is integrally formed with a support shaft 12 for arranging the shaft groove 22 of the second member 2, and the support shaft 12 of the first member 1 is integrally formed with an element 1 by a shaft seat 120.
  • the other end of the first component 1 is integrally formed with a fastening groove 13 for engaging the fastening component 5, and the fastening groove 13 of the first component 1 is disposed under the extension seat 130, and the extension seat 130 is self-contained.
  • the aforementioned first element 1 is integrally formed to extend outward.
  • the second element 2 is formed in correspondence with the first element 1 to form a ring shape in combination with the first element 1, and the second element 2 is provided with a shaft groove 22 at one end thereof.
  • the shaft groove 22 of the second element 2 is disposed below the shaft housing 220 and integrally formed with the second member 2.
  • the other end of the second component 2 is integrally formed with a fastening groove 23 for fastening the fastening component 5, and the fastening groove 23 of the second component 2 is disposed above the extension seat 230.
  • the aforementioned second member 2 extends outward and is integrally formed with the second member 2.
  • the second component 2 is formed with a nut holder 24, and is simultaneously covered with a nut 240 having an internal thread.
  • the nut holder 24 is provided with a plurality of reinforcing ribs. 241, to enhance the effect of the structure.
  • the first component 1 can be formed with a nut holder 24, and simultaneously molded with a nut 240 having an internal thread, and the nut holder 24 is provided with a plurality of reinforcing ribs 241. Strengthen the effect of the structure.
  • first component 1 and the second component 2 may be simultaneously formed with a nut holder 24, and each of them is covered with a nut 240 having an internal thread, and the nut holder 24 is provided with a plurality of reinforcing ribs. 241, to enhance the effect of the structure.
  • the fastening member 5 is provided in the embodiment, and the fastening component 5 is provided with a triggering member 50.
  • the triggering member 50 is provided with a supporting shaft 500, and the supporting shaft 500 is disposed on the first component 1
  • the slot 13 is fastened.
  • the triggering member 50 is provided with a pulling surface 501.
  • the inner joining angle of the pulling surface 501 and the supporting shaft 500 is less than 90 degrees, and exhibits a downward condensation state, which is simpler and more labor-saving in operation and enhances the fastening effect.
  • the oscillating surface 501 of the trigger member 50 is formed between the two sets of fulcrums 500 and forms an active space 503 for facilitating the setting of the slidable member 51.
  • the triggering member 50 is disposed on the rear side of the support shaft 500 respectively with a coupling hole 502 and a coupling groove 502a disposed on the inner side of the triggering surface 501 for facilitating the positioning and positioning of the pivoting shaft of the latching member 51.
  • the fastening element 5 is provided with a pulling member 51.
  • the pulling member 51 is provided with upper and lower supporting shafts 510 and 511, and a connecting piece 512 is disposed between the upper and lower supporting shafts 510 and 511.
  • the connecting piece 512 is an arc-shaped sheet.
  • the upper support shaft 510 is accurately engaged with the engagement groove 23 of the second member 2 by the arc-shaped web-shaped connecting piece 512 on the two sides of the upper and lower support shafts 510 and 511.
  • the lower support shaft 511 of the latching member 51 of the fastening component 5 is first disposed in the coupling hole 502 of the triggering member 50.
  • the coupling groove 502a, the support shaft 500 of the triggering member 50 is disposed above the engaging groove 13 of the first component 1 and fastened by the upper support shaft 510 of the latching member 51 of the fastening component 5;
  • the pulling member 50 is pulled downward by force, that is, the pulling member 51 is pulled downward, and the openings of the first component 1 and the second component 2 are tightly closed.
  • the tube member 4 is fastened to the tube member 4 so that the bolt member 240 of the first member 1 or the second member 2 can be screwed together by the plug member 70 of the pull lead 7 and pulled
  • the other end of the lead 7 is combined with the ceiling, and the tube buckle can be used as a hanging user of the tube member 4.
  • the concave arc groove 11 of the first component 1 is located at the inner side of one end of the extending seat 130 of the two fastening groove 13 and has a concave engaging region. 14.
  • the concave arc groove 21 corresponding to the second component 2 is disposed between the two extending seats 230 of the fastening groove 23, and has a protruding engaging end 24, and the first component 1 and the second component are not yet engaged in the fastening component 3.
  • the engaging end 24 of the second component 2 is first combined with the engaging region 14 of the first component 1 to generate an initial bonding position between the first component 1 and the second component 2,
  • the first element 1 and the second element 2 are prevented from being shifted left and right, so that the fastening element 3 can fasten the first element 1 and the second element 2 more quickly and accurately.
  • the pipe buckle of the invention realizes the quick buckle of the connecting end of the two pipe fittings such as the water pipe or the sewage pipe and has the function of preventing the water leakage at the connecting end, and the function of quickly fastening the connecting end of the two pipe fittings can improve the pipe fitting.
  • the wall thickness is reduced, the weight is reduced, and the relative pipe cost can be reduced.

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Quick-Acting Or Multi-Walled Pipe Joints (AREA)

Abstract

一种管扣结构,至少包含:第一元件(1)、第二元件(2),该第一元件(1)、第二元件(2)内侧面设卡合环围(10,20),使其卡合于相衔接的二管件(4a,4b)的卡合槽(40)中,止漏元件(3)设置于卡合环围(10,20)内侧的凹弧槽(11,21)中,第一元件(1)的外侧一端设支轴(12),另一端设扣合槽(13),第二元件(2)的外侧一端设轴槽(22)以配合支轴(12),另一端设扣合槽(23),第一元件(1)与第二元件(2)共同夹固管件(4a,4b)后,扣合元件(5)扣合于第一元件(1)及第二元件(2)各自的扣合槽(13,23),并以止漏元件(3)防止二管件(4a,4b)内的液体渗漏。该管扣结构可将二管件(4a,4b)的衔接端快速扣合并防止衔接端渗漏。

Description

快速管扣结构 技术领域
本发明是关于快速管扣结构,尤指一种在第一元件外侧设支轴,以为第二元件的轴槽设置,让第一元件与第二元件的一端先互相结合形成单向开口状,并于二管件互相衔接后,于衔接端设置止漏元件,再以前述第一元件与第二元件包覆于止漏元件外侧,并以扣合元件将前述第一元件与第二元件的另一端扣合,即可将相衔接的二管件接合,并藉由止漏元件防止管件内的液体渗漏,只要一人操作,即可快速更换清理管件内的积存污垢,以保持管件内的畅通,节省养护人力的快速管扣结构。
背景技术
现有技术中的管扣,以二对称元件分别包覆于相连接的管件衔接端外围,再以二组螺丝、螺帽分别栓设于二对称元件的两端,以封闭二管件的衔接端,从而避免衔接端漏水。然而,所述现有技术中的管扣的其缺点为,建筑物的管件,以目前的建筑法规,均为明管施工,即以该类管件均会显露于水泥体以外的方式施作与设置,目的乃是将来如有管线破损,得以快速更换,或者如为排污管,使用一段时间后,即会在排污管内积存污垢,必须以人工清除方式加以清除,施工者,必须先拆下管扣,并清除管内积垢后,再将管扣回复原状。
然而,建筑物的管件设置场所狭隘,施工者要进入或甚至还要利用手动工具进行作业,非常不容易,尤其是,管件施工,不全为直线状,有时另有分岔设置或斜向设置或转弯设置,总是必须配合建筑物的型态,则施工者拆下管扣后,必须以手动工具操作栓设前述螺丝或螺帽,如于此时螺丝或螺帽脱出管扣时,如何顺利操作,乃成为问题。再者,这样的结构,必须由两人以上合力搭配运作,否则并无法一手扶持管件、管扣,并操作手工具,造成人力资源的浪费,况而如上文所述,如果设置位置狭隘,无法容纳两个以上的施工人员时,如何解决更换管件或清除积垢的问题。
其次,该类管扣也被做为明管施工管件的悬吊用途,其同样需以二组螺丝、螺帽分别栓设于二对称元件的两端,以包覆于各类管件的外围,再以拉引线拉引固定于天花板下方,以将明式施工的管件固定,作为输水、排污的用途,其缺点仍如上文所述,须藉由两个以上的人力互相搭配运作,一人手扶持管件,另一人操作手工具以栓设管扣,造成人力资源的浪费。
为此,本发明人积多年相关管类的设计、制造与施工经验,乃针对前述 现有技术所存在的问题,加以研究,发明本案。
发明的公开
本发明的目的在于提供一种结构简易,得以解决建筑物管件、输水管安装位置狭窄,人力施工不便的问题,以极少的人力,在无须借助手动工具的情况下,就可以快速更换破损的管件,并可快速拆下相衔接的二管件,以清除管件内的积存污垢,保持管件内的畅通,且经实验,其比现有技术的的施工速度快5倍以上,且人力能够减少二分之一以上,达增快施工速度,节省人力的快速管扣结构创新。
本发明所述的快速管扣结构设第一元件及第二元件,前述第一元件与第二元件均于内侧面设对应的卡合环围,得以卡合于相衔接的二管件的卡合槽中,于前述卡合环围的内侧设凹弧槽,以为止漏元件设置。
本发明所述的快速管扣结构的第一元件外侧的一端设支轴,以为第二元件的轴槽设置,前述第一元件与第二元件的另一端对应设置扣合槽,在第一元件与第二元件共同夹固管件后,得以扣合元件扣合于前述第一元件及第二元件各自的扣合槽,即可将相衔接的二管件结合,并以止漏元件防止管件内的液体渗漏,并具有快速更换,快速清理管件内的积存污垢,保持管件内的畅通,节省养护人力的有益效果。
本发明所述的快速管扣,得先以连接元件将二管件衔接,前述连接元件设大管径端,以为另一管件伸设并胶合结合,前述连接元件的小管径端的内管壁则与管件的内管壁相当,得于前述连接元件的小管径端的外管壁成型有管扣的卡合槽,以与另一管件的卡合槽为管扣设置,或藉由一管件的连接元件所设的卡合槽与另一管件的连接元件所设的卡合槽以为管扣设置,得以快速拆卸二管件的衔接端,更方便清理与维修。
本发明所述的快速管扣得设置有包含内螺纹的栓设元件,以与拉引元件的设有外螺纹的栓设元件螺合,得藉由本发明的管扣以包覆管件外表面,即可将管件悬吊于建筑物的天花板下方,以配合明式管件的施工。
附图的简要说明
图1是本发明所述的管扣的实施例一的侧视图。
图2是沿图1中A-A线的剖视图。
图3是本发明所述的管扣的实施例一的分解视图。
图4是本发明所述的管扣的实施例一的部分分解视图。
图5是本发明所述的管扣实施例一的扣合动作图一。
图6是本发明所述的管扣实施例一的扣合动作图二。
图7是本发明所述的管扣实施例一扣合于管件的动作视图。
图8是本发明所述的管扣实施例一扣合于管件的动作视图。
图9是本发明所述的管扣的实施例二的分解视图。
图10是本发明所述的管扣配合连接元件运作的实施例一的视图。
图11是本发明所述的管扣配合连接元件运作的实施例二的视图。
图12是本发明所述的管扣配合连接元件运作的实施例三的视图。
图13是本发明所述的管扣配合连接元件运作的实施例四的视图。
图14是本发明所述的管扣配合连接元件运作的实施例五的视图。
图15是本发明所述的管扣配合连接元件运作的实施例六的视图。
图16是本发明所述的管扣作为管件悬吊运作的实施例视图。
图17是图16的部分放大视图。
【主要元件符号说明】
第一元件1
卡合环围10     凹弧槽11
支轴12         轴座120
扣合槽13       延伸座130
卡合区14
第二元件2
卡合环围20     凹弧槽21
轴槽22         轴槽座220
扣合槽23       延伸座230
卡合端24
止漏元件3
外表面30       倾斜面31        间隙32
管件4、4a、4b  卡合槽40
扣合元件5
扳动件50
支轴500        扳动面501       结合槽502
扣动件51
上支轴510      下支轴511       连结片512
连接元件6
大管径端60
内管壁600      止水垫圈槽601   外管壁602
小管径端61     内管壁610       卡合槽611
止水垫圈62
拉引线7       栓设元件70
实现本发明的最佳方式
如此,为使公众得以充分了解本发明的实用与创新结构,兹依据说明书附图解说如下:如图1-4所示,本发明所述的管扣,至少包含:第一元件1,于内侧面设卡合环围10,前述卡合环围10是配合第一元件1的形状一体成型,得利用前述卡合环围10卡合于相衔接的二管件4a、4b的卡合槽40中(如图7所示),于前述卡合环围10的内侧并设凹弧槽11,以为止漏元件3设置。或利用前述卡合环围10卡合于相衔接的连接元件6的小管径端61所设卡合槽611中(如图10-15所示)。前述第一元件1外侧的一端一体成型有支轴12,以设置于第二元件2的轴槽,前述第一元件1的支轴12是藉由一轴座120与第一元件1成一体。前述第一元件1之另一端并一体成型有扣合槽13,以为扣合元件5扣合(如图1及4),前述第一元件1的扣合槽13设置于延伸座130的下方,前述延伸座130则是与第一元件1为一体成型并向外延伸。或如图9所示出的实施例二,可于第一元件1的凹弧槽11位于二扣合槽13的延伸座130的一端内侧设凹入状的卡合区14,对应于第二元件2的突出状的卡合端24。或如图9所示出的实施例二,可于第一元件1的凹弧槽11位于二扣合槽13的延伸座130的一端内侧设呈凹入状的卡合区14,所述卡合区14对应于第二元件2的呈突出状的卡合端24。
如图1-4所示,本发明所述的管扣设第二元件2,系与前述第一元件1对应,与前述第一元件1组合后形成环状,前述第二元件2的内侧面设卡合环围20,是对应于前述第一元件1的卡合环围10,得以卡合于相衔接的二管件4a、4b的卡合槽40中(如图10-15所示),前述卡合环围20内侧设凹弧槽21,对应于前述第一元件1的凹弧槽11,以为止漏元件3设置(如图3-6所示)。或利用前述卡合环围10卡合于相衔接的连接元件6的小管径端61所设卡合槽611中(如图10-15所示)。前述第二元件2的一端设轴槽22,以配合前述第一元件1的支轴12设置,前述第二元件2的轴槽22是设置于轴槽座220上方,并与第二元件2为一体成型制成。前述第二元件2的另一端一体成型有扣合槽23,以为扣合元件5扣合(如图3-6所示),前述第二元件2的扣合槽23则是设置于延伸座230上方,前述延伸座230自前述第二元件2向外延伸,且与第二元件2为一体成型。或如图9所示出的实施例二,可于第二元件2的凹弧槽21位于扣合槽23的二延伸座230之间设突出状的卡合端24,系对应于前述第一元件1的卡合区14,于扣合元件5尚未将第一元件1与第二元件2结合前,得以以前述第二元件2的卡合端24先与第一元件1的卡合区14互相结合,从而在第一元件1与第二元件2之间产生初始结 合定位的作用,避免第一元件1与第二元件2左右偏移,让扣合元件5得以更快速准确的将第一元件1与第二元件2扣固。
如图3-6所示,本发明所述的管扣设扣合元件5,扣合元件5设扳动件50,前述扳动件50设支轴500,得以以前述支轴500设置于前述第一元件1的扣合槽13。前述扳动件50设扳动面501,前述扳动面501与前述支轴500的内结合角小于90度,并呈现向下缩合状态,操作上更为简便省力,并增强扣固效果。前述扳动件50的扳动面501位于二组支轴500之间并形成活动空间503,方便扣动件51的设置。前述扳动件50位于支轴后侧分别设置有结合孔502及结合槽502a,位于扳动面501内侧,以方便扣动件51的下支轴511设置并定位。前述扣合元件5设扣动件51,前述扣动件51设上支轴510及下支轴511,于上支轴510及下支轴511之间设弧型片状的连结片512,两侧是内缩于前述上支轴510及下支轴511两侧,藉由弧型片状的连结片512得以让上支轴510准确与第二元件2的扣合槽23扣合。
如图3-6所示,在本发明所述的扣合元件5欲与第一元件1及第二元件2结合前,是以前述扣合元件5的扣动件51的下支轴511先设置于前述扳动件50的结合孔502及结合槽502a中,再将前述扳动件50的支轴500设置于前述第一元件1的扣合槽13上方,并以前述扣合元件5的扣动件51的上支轴510扣合于第二元件2的扣合槽23,再用力向下扳动前述扳动件50,即将向下拉引前述扣动件51,并将第一元件1及第二元件2的开口紧闭,完成以管扣接合相衔接的二管件4(如图1、7及8所示)。
如图3-6所示,本发明所述的管扣需配合一止漏元件3,其由具备弹性且具有密封效果的材质制成,止漏元件3为环状体,设有外表面30,利用前述外表面30得以设置入前述第一元件1与第二元件2的凹弧槽11、21所形成的环凹弧槽,即可将止漏元件3设置于第一元件1与第二元件2内部(如图1、5-8所示)。前述止漏元件3的内侧设倾斜面31,并于倾斜面31之间设间隙32,如此,得以以前述止漏元件3封闭相衔接的二管件4a、4b的接合处(参考图10以下),即可产生防止液体渗漏的效果。前述止漏元件3设中孔33,安装时,是先以一管件穿过止漏元件3的中孔33,再将止漏元件3套设于二管件4a、4b的衔接端(如图10-15所示),再以管扣的第一元件1的凹弧槽11与第二元件2的凹弧槽21为止漏元件设置其中,当第一元件与第二元件结合后,即可藉由止漏元件3以防止二管件的相衔接端漏水者。
如图7及8所示,当相邻二管件4a、4b互相衔接后,即以前述第一元件1及第二元件2的卡合环围20卡合于管件4a、4b的卡合槽40(可参考图10以下),再以前述扣合元件5将第一元件1与第二元件2固定,即可利用管扣共同夹固管件,即可将相衔接的二管件充分结合,并藉由止漏元件3防止管 件内的液体渗漏,不须任何手工具,即可自由拆装管扣,且并无螺丝螺帽长久使用后生锈,不易拆卸的问题,具有快速更换管件,清理管件内的积存污垢,以保持管件内的畅通,节省养护人力者。
如图10所示,其为本发明所述的管扣配合连接元件6的实施例一,本实施例的连接元件6设大管径端60与小管径端61,前述大管径端60的内管壁600得为管件4a为一定长度的伸设设置,前述大管径端60的内壁面600并设有止水垫圈槽601,以为止水垫圈62设置其中,前述止水垫圈槽601得为单一或二或二以上的数量,端视实际需求。或如图11所示的实施例二不设止水垫圈槽及止水垫圈,亦无不可。前述连接元件6的小管径端61的外径系小于前述大管径端60的外径,前述小管径端61的内管壁610的管径与管件4b的管径相当,前述小管径端61的外管壁并成型有卡合槽611。当相邻二管件4a、4b互相衔接时,得将其中一管件4a的末端自连接元件6的大管径端60开口向内伸设,到达大管径端60的内壁面600的一定深度,此时可藉由前述止水垫圈62抵顶于一管件4a表面,以产生密封止漏的效果。并将管件4a的连接元件6的小管径端61的开口端与另一管件4b的末端衔接,形成二管件4a、4b之衔接端4c,再以止漏元件3包覆设置,再利用管件4a的连接元件6的小管径端61所设卡合槽611与另一管件4b本身所具备的卡合槽40以为管扣的第一元件1的卡合环围10及第二元件2的卡合环围20扣设,同时以管扣的第一元件1的凹弧槽11与第二元件2的凹弧槽为止漏元件设置,于第一元件与第二元件结合后,即可藉由止漏元件3以防止二管件的相衔接端漏水者,达快速拆装二管件的衔接端4c,更方便清理与维修,且具备伸缩防震的效果。
如图12所示,其为本发明所述的管扣配合连接元件6的实施例三,本实施例三是自前述实施例一及二延伸而得,当相邻二管件4a、4b要互相衔接时,得将其中一管件4a的末端自连接元件6的大管径端60的开口向内伸设,到达大管径端60的内壁面600的一定深度,此时可藉由前述止水垫圈62抵顶于管件4a的表面,以产生密封止漏的效果。再将另一管件4b的末端自连接元件6a的大管径端60的开口向内伸设,到达大管径端60的内壁面600的一定深度,且此时可藉由前述止水垫圈62抵顶于管件4b的表面,以产生密封止漏的效果。或如图13所示出的实施例四,不设止水垫圈槽及止水垫圈,亦无不可。并将连接元件6的小管径端61的开口端与连接元件6a的小管径端61的开口端互相接触,形成二管件4a、4b的衔接端4c,且将止漏元件3套设于二管件4a、4b的衔接端4c,再利用连接元件6的小管径端61所设卡合槽611与连接元件6a的小管径端61所设卡合槽611以为管扣的第一元件1的卡合环围10及第二元件2的卡合环围20扣设,同时将止漏元件3套设于 前述衔接端4c,同时让管扣的第一元件1的凹弧槽11与第二元件2的凹弧槽为止漏元件设置,并于第一元件与第二元件结合后,即可藉由止漏元件3以防止二管件的相衔接端漏水者,达快速拆装二管件的衔接端4c,更方便清理与维修,且具备伸缩防震的效果。
如图14所示,其为本发明所述的管扣配合连接元件6的实施例五,本实施例五的连接元件6设大管径端60与小管径端61,前述大管径端60的外管壁602得为管件4a为一定长度的套设设置,并将大管径端的外管壁与管件4a胶合连结。前述小管径端61的内管壁610的管径与管件4b的管径相当,前述小管径端61的外管壁并成型有卡合槽611。当相邻二管件4a、4b要互相衔接时,得将其中一管件4a的末端套设于连接元件6的大管径端60的外管壁602至一定深度,再将大管径端60的外管壁602与管件4a胶合连结,即可产生止漏效果。并将连接元件6的小管径端61的开口端与另一管件4b的末端接触,形成二管件4a、4b的衔接端4c,且将止漏元件3套设于二管件4a、4b的衔接端4c。再利用连接元件6的小管径端61所设卡合槽611与管件4b本身所具备的卡合槽40以为管扣的第一元件1的卡合环围10及第二元件2的卡合环围20扣设,再以管扣的第一元件1的凹弧槽11与第二元件2的凹弧槽为止漏元件设置,在第一元件与第二元件结合后,即可藉由止漏元件3以防止二管件的衔接端4c漏水者,达快速拆装二管件的衔接端,更方便清理与维修,且具备伸缩防震的效果。
如图15所示,其为本发明所述的管扣配合连接元件6的实施例六,本实施例六的相邻二管件4a、4b要互相衔接时,得将其中一管件4a的末端套设于连接元件6的大管径端60的外管壁602至一定深度,再将大管径端60的外管壁602与管件4a胶合连结,即可产生止漏效果。将另一管件4b的末端套设于连接元件6a的大管径端60的外管壁602至一定深度,再将大管径端60的外管壁602与管件4b胶合连结,即可产生止漏效果。再将连接元件6的小管径端61的开口端与连接元件6a的小管径端61的开口端互相接触,形成二管件4a、4b的衔接端4c,且将止漏元件3套设于二管件4a、4b的衔接端4c,再利用连接元件6的小管径端61所设卡合槽611与连接元件6a的小管径端61所设卡合槽611以为管扣的第一元件1的卡合环围10及第二元件2的卡合环围20扣设,再以管扣的第一元件1的凹弧槽11与第二元件2的凹弧槽21为止漏元件3设置,在第一元件与第二元件结合后,即可藉由止漏元件3以防止二管件4a、4b的衔接端4c漏水者,达快速拆装二管件的衔接端,更方便清理与维修,且具备伸缩防震的效果。
如图10-15所示出的实施例,可如图9,于第一元件1的凹弧槽11位于二扣合槽13的延伸座130的一端内侧设呈凹入状的卡合区14,对应于第二 元件2的凹弧槽21位于扣合槽23的二延伸座230之间设呈突出状的卡合端24,在扣合元件3尚未将第一元件1与第二元件2结合前,得以以前述第二元件2的卡合端24先与第一元件1的卡合区14互相结合,从而在第一元件1与第二元件2之间产生初始结合定位的作用,避免第一元件1与第二元件2左右偏移,让扣合组件3得以更快速准确的将第一元件1与第二元件2扣固。
如图16及17所示,其为本发明所述的管扣运用于管件悬吊功能的实施例,本实施例乃是自前述各实施例衍生而得,至少包含:第一元件1,其外侧一端并一体成型有支轴12,以为第二元件2的轴槽22设置,前述第一元件1的支轴12是藉由一轴座120与以一元件1成一体。前述第一元件1的另一端一体成型有扣合槽13,以为扣合元件5扣合,前述第一元件1的扣合槽13则是设置于延伸座130下方,前述延伸座130则是自前述第一元件1一体成型向外延伸。
如图16及17所示,本实施例设第二元件2,是与前述第一元件1对应,以与前述第一元件1组合后形成环状,前述第二元件2的一端设轴槽22,以配合前述第一元件1的支轴12设置,前述第二元件2的轴槽22是设置于轴槽座220的下方,并与第二元件2为一体成型制成。前述第二元件2的另一端并一体成型有扣合槽23,以为扣合元件5扣合之,前述第二元件2的扣合槽23则是设置于延伸座230上方,前述延伸座230自前述第二元件2向外延伸,且与第二元件2为一体成型。
如图16及17所示,本实施例并于第二元件2成型有螺帽座24,且于成型时同时包覆有一具有内螺纹的螺帽240,前述螺帽座24设多条强化肋241,以达强化结构的效果。或者,本发明也可于第一元件1成型有螺帽座24,并于成型时同时包覆有一具有内螺纹的螺帽240,前述螺帽座24并设有多条强化肋241,以达强化结构的效果。或者,本发明也可于第一元件1及第二元件2同时各自成型有一螺帽座24,并各自包覆有一具有内螺纹的螺帽240,前述螺帽座24并设有多条强化肋241,以达强化结构的效果。
如图16及17所示,本实施例设扣合元件5,扣合元件5设扳动件50,前述扳动件50设支轴500,得以前述支轴500设置于前述第一元件1的扣合槽13。前述扳动件50设扳动面501,前述扳动面501与前述支轴500的内结合角小于90度,并呈现向下缩合状态,操作上更为简便省力,增强扣固效果。前述扳动件50的扳动面501于二组支轴500的间并形成活动空间503,方便扣动件51的设置。前述扳动件50位于支轴500后侧分别设置有结合孔502及结合槽502a,位于扳动面501的内侧,以方便扣动件51的支轴设置并定位。前述扣合元件5设扣动件51,前述扣动件51设上、下支轴510、511,于上、下支轴510、511之间设连结片512,连结片512为弧型片状,两侧内 缩于前述上、下支轴510、511两侧,藉由弧型片状的连结片512得以让上支轴510准确与第二元件2的扣合槽23扣合。本发明的扣合元件5欲与第一元件1及第二元件2结合前,是以前述扣合元件5的扣动件51的下支轴511先设置于前述扳动件50的结合孔502及结合槽502a中,再将前述扳动件50的支轴500设置于前述第一元件1的扣合槽13上方,并以前述扣合元件5的扣动件51的上支轴510扣合于第二元件2的扣合槽23,再用力向下扳动前述扳动件50,即将向下拉引前述扣动件51,并将第一元件1及第二元件2的开口紧闭,得以以管扣扣合于管件4,如此,即可藉由一拉引线7的栓设元件70以与前述第一元件1或第二元件2所设的螺帽240互为螺合,并将拉引线7的另一端与天花板结合,即可藉由管扣作为管件4的悬吊用途者。
如图16及17所示的实施例,可如图9所示,于第一元件1的凹弧槽11位于二扣合槽13的延伸座130的一端内侧设呈凹入状的卡合区14,对应于第二元件2的凹弧槽21位于扣合槽23的二延伸座230之间设呈突出状的卡合端24,在扣合组件3尚未将第一元件1与第二元件2结合前,得以以前述第二元件2的卡合端24先与第一元件1的卡合区14互相结合,从而在第一元件1与第二元件2之间产生初始结合定位的作用,避免第一元件1与第二元件2左右偏移,让扣合元件3得以更快速准确的将第一元件1与第二元件2扣固。
工业应用性
本发明所述的管扣实现了输水管或污水管等二管件的衔接端的快速扣合并具有可防止衔接端漏水的功能,并因为具有快速扣合于二管件的衔接端的功能,得以提升管件的配管施工,或者拆卸清理或维修管件的用途,以节省施工成本与人力,又可配合连接元件以提升二管件的衔接端的快速衔接效果,无须对管件的衔接端再加工卡合槽,得以让管件的壁面厚度降低,重量降低,相对的管件成本亦可降低。其次,当建筑物以明式管件施工时,必须将管件适当悬吊,亦可利用本发明扣合于管件适当位置,再配合有拉引线,即可达成,足证本发明确实具备进步性与实用性,其为本案的组成。

Claims (17)

  1. 一种快速管扣结构,其特征在于,至少包含:
    第一元件,于内侧面设卡合环围,得以卡合于相衔接的其中一管件的卡合槽中,于前述卡合环围的内侧设凹弧槽,得为止漏元件设置,前述第一元件的外侧一端设一体成型的支轴,并以轴座与第一元件连接,以为第二元件的轴槽设置,另一端则设扣合槽,以为扣合元件扣合之;
    第二元件,对应于前述第一元件,而于内侧面设卡合环围,得以卡合于相衔接的另一管件的卡合槽中,于前述卡合环围的内侧设凹弧槽,得为止漏元件设置,前述第二元件的外侧一端设一体成型的轴槽,前述轴槽是设置于轴槽座下方,并以轴槽座与第二元件一体成型制成,以为前述第一元件的支轴设置,另一端则设扣合槽,在第一元件与第二元件共同夹固相衔接的二管件后,得以扣合元件扣合于前述第一元件及第二元件各自的扣合槽,即可将相衔接的二管件结合;
    扣合元件,设扳动件,前述扳动件设一体成型的支轴、扳动面、结合孔及结合槽,得以以前述扳动件的支轴设置于前述第一元件的扣合槽,前述扳动面设于前述支轴上方,前述结合孔及结合槽位于扳动面内侧,以为扣动件的下支轴设置,前述扳动件的扳动面与支轴的内结合角小于90度,得以更方便施力操作扳动件的运作,前述扳动件的扳动面于二组支轴之间并形成活动空间,方便扣动件的设置与运作;前述扣合元件设扣动件,前述扣动件设一体成型的上、下支轴及连结片,前述连结片为弧型片状,让扣合元件的扣动件得以准确的与第二元件的扣合槽相扣合,前述连结片系设于前述上、下支轴之间,并内缩于前述上、下支轴两侧。
  2. 如权利要求1所述的快速管扣结构,其特征在于,在所述扣合元件与第一元件及第二元件结合前,是以扣合元件的扣动件的下支轴先设置于扳动件的结合孔及结合槽,再将扳动件的支轴设置于第一元件的扣合槽,并以前述扣合元件的扣动件的上支轴扣合于第二元件的扣合槽,再用力向下扳动扳动件,同时向下拉引扣动件,并将第一元件及第二元件的开口紧闭。
  3. 如权利要求1所述的快速管扣结构,其特征在于,得于第一元件与第二元件结合后的环凹弧槽设置止漏元件,前述环凹弧槽是由第一元件的凹弧槽与第二元件的凹弧槽所形成,且将该止漏元件包覆设置于二管件的衔接端。
  4. 如权利要求1所述的快速管扣结构,其特征在于,于第一元件的凹弧槽位于二扣合槽的延伸座的一端内侧设凹入状的卡合区,并于第二元件的凹弧槽位于扣合槽的二延伸座之间设突出状的卡合端,对应于前述第一元件的卡合区,在扣合元件尚未将第一元件与第二元件结合前,得以前述第二元件的卡合端先与第一元件的卡合区互相结合,并让于第一元件与第二元件产生初始结合定位的作用,避免第一元件与第二元件左右偏移,让扣合元件得以更快速准确的将第一元件与第二元件扣固。
  5. 一种快速管扣结构,其特征在于,至少包含:
    管扣设第一元件,于内侧面设卡合环围,得以卡合于相衔接的其中一管件的卡合槽中,于前述卡合环围的内侧设凹弧槽,得为止漏元件设置,前述第一元件的外侧一端设一体成型的支轴,并以轴座与第一元件连接,以为第二元件的轴槽设置,另一端则设扣合槽,以为扣合元件扣合之;
    前述管扣设第二元件,对应于前述第一元件,而于内侧面设卡合环围,得以卡合于相衔接的另一管件的卡合槽中,于前述卡合环围的内侧设凹弧槽,得为止漏元件设置,前述第二元件的外侧一端设一体成型的轴槽,前述轴槽设置于轴槽座下方,并以轴槽座与第二元件一体成型制成,以为前述第一元件的支轴设置,另一端则设扣合槽,当第一元件与第二元件共同夹互相衔接的二管件时,扣合元件扣合于前述第一元件及第二元件各自的扣合槽,即可将相衔接的二管件结合;
    前述管扣设扣合元件,前述扣合元件设扳动件,前述扳动件设一体成型的支轴、扳动面及结合槽,得以以前述支轴设置于前述第一元件的扣合槽,前述扳动面是设于前述支轴上方,前述结合槽是位于扳动面内侧,以为扣动件的下支轴设置,前述扳动件的扳动面与支轴的内结合角小于90度,前述扳动件的扳动面于二组支轴之间并形成活动空间,方便扣动件的设置与运作;前述扣合元件设扣动件,前述扣动件设一体成型之上、下支轴及连结片,前述连结片为弧型片状,让扣合元件的扣动件得以准确的与第二元件的扣合槽相扣合,前述连结片设于前述上、下支轴之间,并内缩于前述上、下支轴两侧;
    连接元件,设大管径端与小管径端,前述大管径端的内管壁得为管件一定长度伸设设置,前述小管径端的外径小于前述大管径端的外径,前述小管径端的内管壁的管径与管件的管径相当,前述小管径端的外管壁并成型有结合槽;得藉由一管件的连接元件所设的卡合槽与另一管件 或另一连接元件的卡合槽以为前述管扣设置,得以快速将相邻二管件的末端衔接端结合,方便拆卸、清理与维修。
  6. 如权利要求5所述的快速管扣结构,其特征在于,在所述扣合元件与第一元件及第二元件结合前,是以扣合元件的扣动件的下支轴先设置于扳动件的结合孔及结合槽,再将扳动件的支轴设置于第一元件的扣合槽,并以前述扣合元件的扣动件的上支轴扣合于第二元件的扣合槽,再用力向下扳动扳动件,同时向下拉引扣动件,并将第一元件及第二元件的开口紧闭。
  7. 如权利要求5所述的快速管扣结构,其特征在于,得于第一元件与第二元件结合后的环凹弧槽设置止漏元件,前述环凹弧槽是由第一元件的凹弧槽与第二元件的凹弧槽所形成,且将该止漏元件包覆设置于二管件的衔接端。
  8. 如权利要求5所述的快速管扣结构,其特征在于,于第一元件的凹弧槽位于二扣合槽的延伸座的一端内侧设凹入状的卡合区,并于第二元件的凹弧槽位于扣合槽的二延伸座之间设突出状的卡合端,对应于前述第一元件的卡合区,在扣合元件尚未将第一元件与第二元件结合前,得以前述第二元件的卡合端先与第一元件的卡合区互相结合,并让于第一元件与第二元件产生初始结合定位的作用,避免第一元件与第二元件左右偏移,让扣合元件得以更快速准确的将第一元件与第二元件扣固。
  9. 如权利要求5所述的快速管扣结构,其特征在于,在连接元件的大管径端的内壁面设止水垫圈槽,以为止水垫圈设置。
  10. 如权利要求5所述的快速管扣结构,其特征在于,相邻二管件各自设置有连接元件,并以二连接元件的小管径端所设的卡合槽以为管扣设置,得以快速将相邻二管件的末端衔接端结合,方便拆卸、清理与维修。
  11. 如权利要求5所述的快速管扣结构,其特征在于,所述连接元件设大管径端与小管径端,前述大管径端的外管壁得为管件套设一定长度,再将大管径端的外管壁与管件胶合连结,即可产生止漏效果;前述小管径端的内管壁的管径与管件的管径相当,前述小管径端的外管壁并成型有卡合槽;得藉由一管件的连接元件所设的卡合槽与另一管件的卡合槽以为 管扣设置,得以快速将相邻二管件的末端衔接端结合,方便拆卸、清理与维修。
  12. 如权利要求9所述的快速管扣结构,其特征在于,于相邻二管件各自设置有连接元件,并以二连接元件的小管径端各自所设的卡合槽以为管扣设置,得以快速将相邻二管件的末端衔接端结合,方便拆卸、清理与维修。
  13. 一种快速管扣结构,其特征在于,至少包含:
    第一元件,其外侧一端设一体成型之支轴,并以轴座与第一元件连接,以为第二元件的轴槽设置,另一端则设扣合槽,以为扣合元件扣合之;
    第二元件,对应于前述第一元件,前述第二元件的外侧一端设一体成型的轴槽,前述轴槽是设置于轴槽座下方,并以轴槽座与第二元件一体成型制成,以为前述第一元件的支轴设置,另一端则设扣合槽,在第一元件与第二元件共同夹固相衔接的二管件后,得以以扣合元件扣合于前述第一元件及第二元件各自的扣合槽,即可将相衔接的二管件结合;前述第二元件并成型有螺帽座,并包覆有一具有内螺纹的螺帽,前述螺帽座并设有多条强化肋,以达强化结构的效果,以藉由螺帽与拉引线的栓设元件结合;
    扣合元件,设扳动件,前述扳动件设一体成型的支轴、扳动面及结合槽,得以前述支轴设置于前述第一元件的扣合槽,前述扳动面是设于前述支轴上方,前述结合槽是位于扳动面内侧,以为扣动件的上支轴设置,前述扳动件的扳动面与支轴的内结合角小于90度,得以更方便施力操作扳动件的运作;前述扳动件的扳动面于二支轴之间并形成活动空间,方便扣动件的设置,并方便扣动件的运动;前述扣合元件设扣动件,前述扣动件设一体成型的上、下支轴及连结片,前述连结片为弧型片状,让扣合元件的扣动件得以准确的与第二元件的扣合槽相扣合,前述连结片是设于前述上、下支轴之间,并内缩于前述上、下支轴两侧。
  14. 如权利要求13所述的快速管扣结构,其特征在于,在所述扣合元件与第一元件及第二元件结合前,是以扣合元件的扣动件的下支轴先设置于扳动件的结合孔及结合槽,再将扳动件的支轴设置于第一元件的扣合槽,并以前述扣合元件的扣动件的上支轴扣合于第二元件的扣合槽,再用力向下扳动扳动件,同时向下拉引扣动件,并将第一元件及第二元件的开 口紧闭。
  15. 如权利要求13所述的快速管扣结构,其特征在于,在第一元件成型有螺帽座,并包覆有一具有内螺纹的螺帽,前述螺帽座并设有多条强化肋,以达强化结构的效果。
  16. 如权利要求13所述的快速管扣结构,其特征在于,于第一元件及第二元件同时各自成型有一螺帽座,并各自包覆有一具有内螺纹的螺帽,前述螺帽座并设有多条强化肋,以达强化结构的效果。
  17. 如权利要求13所述的快速管扣结构,其特征在于,于第一元件的凹弧槽位于二扣合槽的延伸座的一端内侧设呈凹入状的卡合区,并于第二元件的凹弧槽位于扣合槽的二延伸座之间设呈突出状的卡合端,其是对应于前述第一元件的卡合区,在扣合元件尚未将第一元件与第二元件结合前,得以以前述第二元件的卡合端先与第一元件的卡合区互相结合,从而在第一元件与第二元件之间产生初始结合定位的作用,避免第一元件与第二元件左右偏移,让扣合元件得以更快速准确的将第一元件与第二元件扣固。
PCT/CN2016/074322 2016-02-23 2016-02-23 快速管扣结构 WO2017143507A1 (zh)

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Publication number Priority date Publication date Assignee Title
CN2924123Y (zh) * 2006-07-21 2007-07-18 应亿企业有限公司 供宠物活动用的二管件间连接构造
US7410192B2 (en) * 2004-05-25 2008-08-12 Breeze-Torca Products, Llc Ribbed pipe clamp with sealing sleeve
KR101294759B1 (ko) * 2012-05-17 2013-08-09 한미실업 주식회사 나선관의 연결 조립구조
FR2989136B1 (fr) * 2012-04-10 2014-04-25 Claude Gosson Dispositif d'accroche a verrouillage rapide pour projecteur d'eclairage sur barre carree
CN203757222U (zh) * 2014-02-25 2014-08-06 福建祥龙塑胶有限公司 抱箍装置
CN105114722A (zh) * 2015-09-21 2015-12-02 蒋福根 一种抱箍

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7410192B2 (en) * 2004-05-25 2008-08-12 Breeze-Torca Products, Llc Ribbed pipe clamp with sealing sleeve
CN2924123Y (zh) * 2006-07-21 2007-07-18 应亿企业有限公司 供宠物活动用的二管件间连接构造
FR2989136B1 (fr) * 2012-04-10 2014-04-25 Claude Gosson Dispositif d'accroche a verrouillage rapide pour projecteur d'eclairage sur barre carree
KR101294759B1 (ko) * 2012-05-17 2013-08-09 한미실업 주식회사 나선관의 연결 조립구조
CN203757222U (zh) * 2014-02-25 2014-08-06 福建祥龙塑胶有限公司 抱箍装置
CN105114722A (zh) * 2015-09-21 2015-12-02 蒋福根 一种抱箍

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