WO2019082400A1 - 電線管、電線管の接続構造、ベルブロック、電線管同士の接続方法、電線管とベルブロックの接続方法、管継手、およびリング部材 - Google Patents
電線管、電線管の接続構造、ベルブロック、電線管同士の接続方法、電線管とベルブロックの接続方法、管継手、およびリング部材Info
- Publication number
- WO2019082400A1 WO2019082400A1 PCT/JP2017/041038 JP2017041038W WO2019082400A1 WO 2019082400 A1 WO2019082400 A1 WO 2019082400A1 JP 2017041038 W JP2017041038 W JP 2017041038W WO 2019082400 A1 WO2019082400 A1 WO 2019082400A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- ring member
- diameter
- tube
- conduit
- claw
- Prior art date
Links
Images
Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16L—PIPES; JOINTS OR FITTINGS FOR PIPES; SUPPORTS FOR PIPES, CABLES OR PROTECTIVE TUBING; MEANS FOR THERMAL INSULATION IN GENERAL
- F16L37/00—Couplings of the quick-acting type
- F16L37/08—Couplings of the quick-acting type in which the connection between abutting or axially overlapping ends is maintained by locking members
- F16L37/084—Couplings of the quick-acting type in which the connection between abutting or axially overlapping ends is maintained by locking members combined with automatic locking
- F16L37/091—Couplings of the quick-acting type in which the connection between abutting or axially overlapping ends is maintained by locking members combined with automatic locking by means of a ring provided with teeth or fingers
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02G—INSTALLATION OF ELECTRIC CABLES OR LINES, OR OF COMBINED OPTICAL AND ELECTRIC CABLES OR LINES
- H02G3/00—Installations of electric cables or lines or protective tubing therefor in or on buildings, equivalent structures or vehicles
- H02G3/02—Details
- H02G3/06—Joints for connecting lengths of protective tubing or channels, to each other or to casings, e.g. to distribution boxes; Ensuring electrical continuity in the joint
- H02G3/0616—Joints for connecting tubing to casing
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16L—PIPES; JOINTS OR FITTINGS FOR PIPES; SUPPORTS FOR PIPES, CABLES OR PROTECTIVE TUBING; MEANS FOR THERMAL INSULATION IN GENERAL
- F16L37/00—Couplings of the quick-acting type
- F16L37/56—Couplings of the quick-acting type for double-walled or multi-channel pipes or pipe assemblies
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02G—INSTALLATION OF ELECTRIC CABLES OR LINES, OR OF COMBINED OPTICAL AND ELECTRIC CABLES OR LINES
- H02G9/00—Installations of electric cables or lines in or on the ground or water
- H02G9/06—Installations of electric cables or lines in or on the ground or water in underground tubes or conduits; Tubes or conduits therefor
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02G—INSTALLATION OF ELECTRIC CABLES OR LINES, OR OF COMBINED OPTICAL AND ELECTRIC CABLES OR LINES
- H02G9/00—Installations of electric cables or lines in or on the ground or water
- H02G9/10—Installations of electric cables or lines in or on the ground or water in cable chambers, e.g. in manhole or in handhole
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02G—INSTALLATION OF ELECTRIC CABLES OR LINES, OR OF COMBINED OPTICAL AND ELECTRIC CABLES OR LINES
- H02G3/00—Installations of electric cables or lines or protective tubing therefor in or on buildings, equivalent structures or vehicles
- H02G3/02—Details
- H02G3/04—Protective tubing or conduits, e.g. cable ladders or cable troughs
- H02G3/0462—Tubings, i.e. having a closed section
- H02G3/0481—Tubings, i.e. having a closed section with a circular cross-section
Definitions
- the present invention relates to a conduit for protecting an electric wire, a connection structure of conduits, a bell block, a method of connecting conduits, a method of connecting a conduit and a bell block, a tube joint, and a ring member.
- a conduit is buried in the ground and used.
- a plurality of electrical conduits are juxtaposed and buried.
- a plurality of conduits are connected at a connection portion by a pipe joint, a fitting structure, or the like.
- Patent Document 1 a connection structure of a conduit, for example, a pipe joint having a helical tube has been proposed.
- connection is performed by rotating and screwing the end (male structure) of the outer surface spiral electric wire tube to the inner surface spiral shape (female structure) of the pipe joint. Furthermore, a water expansion member is provided on the outer periphery of the male joint and the inner peripheral surface of the female joint to stop water.
- Patent Document 2 a retaining ring which can be compactly and easily join together corrugated flexible tubes, and does not easily fall off from the pipe joint even in the case of an impact or the like.
- Patent Document 2 describes a retaining ring disposed in a female fitting portion used for connection of a conduit, which is a protective tube such as a cable.
- the male fitting portion inserted into the female fitting portion can be prevented from coming off from the female fitting portion by the retaining ring disposed in the female fitting portion.
- the retaining ring disposed in the female fitting portion.
- the retaining ring of the invention of Patent Document 2 is provided on a ring-shaped main body, a plurality of claws bent inward in the radial direction of the main body, and the outer peripheral surface of the main body, And a plurality of stoppers protruding to the outer peripheral side of
- the stoppers of the retaining ring include a first pair of stoppers and a second pair of stoppers, and the first pair of stoppers are provided at opposing positions of the main body, and the second pair of stoppers are provided.
- the stoppers are provided at opposite positions of the main body.
- an inclined portion which is inclined in the tube axis direction of the main body portion is provided on the outer surface of at least the second pair of stoppers.
- the inclination angles of the inclined portions provided on the second pair of stoppers are formed so as to be opposite to each other with respect to the tube axis direction of the main body portion.
- Patent Document 2 when attaching the retaining ring to the female pipe joint of the conduit, the retaining ring falls down inside the pipe, and it takes time to attach to the inner wall of the conduit itself, etc. It can solve the problem. In addition, due to the impact when unloading from a truck or the like, it is possible to prevent the C-shaped retaining ring from being temporarily reduced in diameter and the retaining ring falling off the pipe joint.
- a socket and a slot are formed at both ends in the tube axial direction, and a ring is attached to a rubber ring and a first predetermined position on the back side of the rubber ring, and the slot is inserted into the socket.
- a possible corrugated synthetic resin tube has been proposed (US Pat. No. 5,677,015).
- Patent Document 3 a groove for receiving the ring and cooperating with the ring to prevent removal is formed at a second predetermined position of the socket on the tip end side of the rubber ring.
- Patent Document 3 relates to a corrugated synthetic resin pipe and a connection structure using the corrugated synthetic resin pipe.
- the ring attached to the corrugated synthetic resin pipe in which the peak portion and the valley portion are alternately formed on the outer peripheral surface has two ring members in which a part in the circumferential direction is opened. It is formed to be overlapped in the tube axis direction. When the outlet is inserted into the socket, both of the two ring members are contracted.
- the block body for protecting the conduit used for a handhole is provided with the retaining structure of a conduit (patent document 4).
- the block body has a substantially cubic or substantially rectangular parallelepiped outer shape, and a through hole is formed.
- a substantially circular cross-sectional shape is continuous in a concavo-convex shape in the tube axis direction from the surface side to the back side of the block.
- a retaining member having a locking piece is attached to the recess of the through hole.
- patent document 1 is used for connection of a spiral-shaped waved pipe, and there is a restriction in the shape of an applicable pipe body. Moreover, since it is necessary to screw in a pipe joint at the time of connection, it takes time for connection work. Further, since the outer diameter of the pipe joint becomes larger than the outer diameter of the pipe body, for example, when a plurality of conduits are stacked and arranged in the ground, the joint portion becomes unstable.
- Patent Document 2 relates to a retaining ring inserted and fixed in the female fitting structure, but when assembling, the workability for inserting the retaining ring into the female fitting portion It is bad. In addition, since it is not possible to visually recognize the state after assembly, it may not be noticed that the retaining ring is not attached or dropped out during transportation.
- patent document 3 has a rubber ring in the position near the insertion port side of a male part, and also has a retaining ring in the back side of a male part.
- the rubber ring is provided at a position close to the insertion port side of the male portion. For this reason, when inserting the male joint part deeply into the female joint part and fitting it with the retaining ring, the insertion resistance of the rubber ring part becomes large, so in some cases, a lubricant is added to the rubber ring part. It needs to be applied.
- the present invention has been made in view of such problems, and is excellent in assembling workability and easy to connect, a conduit, a connection structure of conduits, a bell block, a method of connecting conduits, a conduit and a bell
- An object of the present invention is to provide a method of connecting blocks, a pipe joint, and a ring member used for these.
- a first invention is a conduit having a male fitting portion formed on an outer peripheral portion in the vicinity of an end portion of the tube, wherein the male fitting portion is in the tube axial direction A pair of locking walls spaced apart from each other, a straight tubular ring member arrangement portion formed parallel to the axial direction by mutually connecting the locking walls, and the locking walls And a ring member disposed in the ring member arrangement portion, wherein the ring member is substantially C-shaped with a part in the circumferential direction being opened, and the ring member is one end of the ring member And a plurality of first claws spaced apart from each other with slits in the circumferential direction, and a plurality of second claws.
- the first claw portion is a claw portion that protrudes substantially in parallel with the tube axis direction from the reduced diameter portion to form a slide guide, and the second claw portion A locking claw whose diameter is gradually increased as it goes from the reduced diameter portion to the tip, and the tip of the second claw portion and the tip of the slide guide are the ring member; Both are disposed so as to be located on the base side of the tube, and the reduced diameter portion is disposed on the tip side of the tube, and the outer diameter of the reduced diameter portion is the outer side of the locking wall.
- the outer diameter of the tip of the second claw portion is smaller than the diameter, and the outer diameter of the tip of the second claw portion is larger than the outer diameter of the locking wall, and the ring member has a clearance with at least one of the locking walls.
- the electric wire tube is characterized in that the ring member is axially slidable in the ring member arrangement portion.
- the ring member is provided with a plurality of first claws spaced apart from each other in the circumferential direction via the slits with respect to the reduced diameter portion on one end side of the ring member and the reduced diameter portion. And a plurality of second claws.
- the first claw portion is a claw portion that protrudes from the reduced diameter portion in a direction substantially parallel to the axial direction of the tube to form a slide guide, and the second claw portion gradually extends from the reduced diameter portion toward the tip.
- the locking claw is enlarged so as to increase the outer diameter.
- the number of second claws arranged decreases, and the male fitting portion is inserted into the female fitting portion.
- the insertion resistance is reduced, and the male fitting portion can be easily inserted into the female fitting portion.
- the reduction effect of the insertion resistance by providing the first claw portion is particularly effective particularly when connecting a large diameter conduit.
- a slide guide which is a first claw portion of the electric conduit and a plurality of locking claws which are a second claw portion are formed at predetermined intervals.
- the claws may be arranged to be formed at predetermined intervals in the circumferential direction, or the claws may be arranged to face the center of the ring member arrangement portion. Also good.
- the outer diameter of the slide guide which is the first claw portion is smaller than the outer diameter of the locking wall.
- the first claw portion abuts on the locking wall.
- the retaining ring does not get over the locking wall, and the ring member can be stably held.
- the locking claw which is the second claw portion is larger in outer diameter than the locking wall and the locking claw is formed to protrude from the locking wall, the female fitting is performed when the ring member is pulled out.
- the ring member fitting portion of the portion can be stably held by the locking claw.
- the frictional resistance between the female fitting portion and the ring member can be reduced by sliding movement of the ring member, connection of the electrical conduits becomes easy.
- ring member connection parts are respectively formed at both end parts of the ring member, and both end parts of the ring member are mutually connected by the ring member connection parts, and the ring member is connected to the male fitting part of the tube.
- the ring member may be annularly formed in the arrangement portion.
- connection portion of the ring member with, for example, a saw blade-like groove group, a large number of minute projections, an adhesive layer with release paper, etc., it becomes possible to change the connection position of the ring member. It can also be adjustable in length. As described above, if the connection portion of the ring member is formed so as to be adjustable in length, it absorbs dimensional variations at the time of manufacturing the fitting portion of the conduit or optimizes the clearance between the ring member and the ring member arrangement portion. be able to.
- the second claw portion of the ring member can be formed in a planar shape.
- the planar shape of the second claw portion is rectangular, trapezoidal, or tongue-like.
- the claw portion in the second invention can be formed, for example, in the shape of only the outer peripheral portion of the planar shape.
- U-shaped, U-shaped, and V-shaped With such a shape of only the outer peripheral portion, the reduced diameter portion is easily deformed when inserting the female fitting portion, and the insertion of the electrical conduit tube becomes easy.
- the electric pipe may be provided with a water blocking member further on the base side than the locking wall on the base side of the male fitting portion.
- the opening side of the tubular body is the tip side of the tubular body, and the back side in the longitudinal direction of the tubular body which is the opposite side is defined as the proximal side of the tubular body.
- the ring member disposed on the outer surface of the male fitting portion can be easily visually recognized and slid on the ring member arrangement portion.
- the male fitting portion is inserted into the female fitting portion, since the slide guide which is the first claw portion is formed in the ring member, the female fitting portion is male type by the slide guide. It can insert in a fitting state in the stable state. Furthermore, by forming the slide guide in the ring member, the insertion resistance is reduced also by the reduction in the number of the locking claws which are the second claw portions of the ring member, and the insertability of the ring member is improved.
- the ring member is efficiently deformed by the effect of both the diameter expansion due to the expansion of the circumferential length of the ring member due to the elastic repulsive force of the ring member and the diameter expansion due to the recovery of the bending deformation in the cross section of the claw axial direction. be able to.
- the ring member can be formed annularly. By forming the ring member annularly in this manner, the ring member can be smoothly slid on the ring member arrangement portion.
- the ring member when fitting the male fitting portion to the female fitting portion, the ring member can slide on the ring member arrangement portion of the male fitting portion. Furthermore, when the male fitting portion is pushed into the female fitting portion, finally, the ring fitting portion adjacent to the slope portion of the female fitting portion abuts on the second claw portion of the ring member Thus, the male fitting portion is restrained by the ring member in the female fitting portion, and the male fitting portion effectively acts on the connection of the conduit.
- the male fitting portion is locked by the ring fitting portion formed in the female fitting portion, and the claw portion of the ring member exceeds the ring fitting portion. It takes a moment to lock.
- the tip of the second claw portion of the ring member is disposed on the back side of the conduit so that the diameter of the ring member can be easily reduced or enlarged, and the diameter can be easily expanded by the elastic repulsion of the ring member. It is Further, even if the thickness of the end portion of the reduced diameter portion of the ring member to which the drawing force is applied is increased, since the slit is formed in the ring member, the diameter can be easily reduced.
- a second invention is a conduit having a fitting structure at both ends, which is a tube, a male fitting portion formed at one end of the tube, and the other end of the tube. And a female fitting portion having a shape capable of fitting to the male fitting portion, and the male fitting portion is formed on an outer peripheral portion in the vicinity of an end portion of the tube body.
- a plurality of first claws provided separately from each other with slits in the circumferential direction with respect to the diameter-reduced portion, and a plurality of first claw portions.
- the first claw portion is a claw portion that protrudes from the reduced diameter portion substantially in parallel to the tube axis direction to form a slide guide
- the second claw portion is A locking claw whose diameter is gradually increased so as to gradually increase the outer diameter as it goes from the reduced diameter portion to the tip, and in the ring member, both the tip of the second claw portion and the tip of the slide guide are An outer diameter of the locking wall; an outer diameter of the reduced diameter portion being disposed so as to be positioned on a base side of the tubular body, and a reduced diameter portion being disposed on a distal end side of the tubular body;
- the outer diameter of the tip of the second claw portion is smaller than the outer diameter of the locking wall, and the ring member has a clearance with at least one of the locking walls,
- the ring member is slidable in the tube axis direction at the ring member arrangement portion, and the female fitting portion A ring fitting portion formed on the inner peripheral portion of the tubular body, from the tip end side, a cylindrical portion, a
- a water blocking member may be provided on the base side of the locking wall on the base side of the male fitting portion. This makes it possible to stop water more reliably.
- a helical waveform having a predetermined pitch may be formed continuous with the outer peripheral surface of the tube.
- a large diameter portion as a substantially square peak portion and a small diameter portion as a circular valley portion are alternately formed on the outer peripheral surface of the tube.
- a pair of protrusions are formed at a substantially central portion of the small diameter portion as the valley with respect to the tube axis direction of the tube, and a flat portion is formed between the protrusions in the tube axial cross section of the tube.
- the small diameter portion as the valley portion may be formed in a corrugated shape in a cross section in the tube axial direction of the tube body.
- the second claw portion of the ring member has a tapered portion which decreases in diameter from the tip end of the second claw portion toward the reduced diameter portion in a cross section in the tube axial direction, and the second claw portion It may be in the shape of an acute-angled wedge whose thickness decreases from the tip toward the reduced diameter portion.
- the shape of the inner peripheral portion of the ring member may be a wedge shape in which the diameter gradually and continuously decreases from the second claw portion, or a two-step wedge shape formed by bending the inner peripheral portion It may be formed in As described above, the inner peripheral portion of the ring member may be bent in two steps as described above, and the inner peripheral portion of the ring member is gradually and continuously reduced in diameter from the second claw portion It may be wedge-shaped.
- the thickness of the ring member is slightly thinner on the way from the tip of the second claw to the diameter-reduced portion. It is also possible to form a wedge shape in which the following portion is formed.
- a ring member connection portion may be formed at each end of the ring member, and may be connected at the ring member connection portion, and the ring member may be annularly formed in the ring member disposition portion.
- the ring member may be any of ABS resin, PP resin, hard vinyl chloride, or a mixed resin or polymer alloy of any of these and PC resin.
- the water blocking member may be disposed in a water blocking member accommodating portion formed on the base side further than the locking wall on the base side of the male fitting portion.
- the water blocking member may be either a rubber or a water expansion member.
- the same effect as that of the first invention can be obtained. Further, since the male fitting portion is provided at one end and the female fitting portion is provided at the other end, it is easy to connect a plurality of conduits.
- the electric wire tube concerning 2nd invention can also form a helical wave shape in the outer peripheral surface of a pipe body. That is, a male fitting portion and a female fitting portion can be provided to a conventional helical wave tube.
- a substantially square peak portion and a circular valley portion may be alternately formed on the outer peripheral surface of the tube. That is, the conduit may be a square conduit.
- the valleys between the substantially square peaks and the peaks may be used as the waveform. By doing this, the flexibility can be further enhanced.
- the outer diameter of the slide guide as the first claw portion is smaller than the outer diameter of the locking wall Therefore, when the ring member slides, the first claw portion abuts on the locking wall. For this reason, the retaining ring does not get over the locking wall, and the ring member can be stably held.
- the locking claw which is the second claw portion is larger in outer diameter than the locking wall and the locking claw is formed to protrude from the locking wall, the female fitting is performed when the ring member is pulled out. The ring member fitting portion of the portion can be stably held by the locking claw.
- the frictional resistance between the female fitting portion and the ring member can be reduced by sliding movement of the ring member, connection of the electrical conduits becomes easy.
- ring member connecting portions are respectively formed at both end portions of the ring member, and both end portions of the ring members are mutually connected by the ring member connecting portion, and the ring member is annularly formed in the ring member arranging portion. It is good.
- the ring members are connected to each other at the ring member connection portion, and the ring members are formed in an annular shape, thereby conveying the conduits or connecting the conduits to each other, so that the ring members form the tube axis. It does not lean against or fall off.
- the ring member used in the second invention since the ring member used in the second invention has the same structure as the ring member used in the first invention, it has the same effect as the case where the ring member of the first invention is used. Therefore, the ring member may be inclined when the ring member is formed using only the locking claw which is the second claw portion, and the problem that occurs when fitting the electric pipe which rides on the locking wall is generated. It is hard to happen. Furthermore, it becomes possible to reduce the insertion resistance at the time of inserting a male type
- the ring member can be formed annularly.
- the connection portion of the ring member is formed by a saw blade-shaped groove group or a large number of micro projection groups and the length can be adjusted, manufacture of the fitting portion of the conduit tube It is possible to absorb dimensional variations at the time, and to optimize the clearance between the ring member and the ring member arrangement portion.
- the ring member has an acute-angled wedge shape whose thickness decreases from the tip of the second claw portion toward the diameter-reduced portion, or the inner peripheral portion of the ring member is bent and formed in two steps. It has a wedge shape. That is, the ring member has a wedge shape having a reduced diameter portion which decreases in diameter from the tip end of the second claw portion toward the reduced diameter portion. Even in this case, when reducing the diameter of the ring member, the ring member can be reduced in diameter by being elastically deformed so as to fall down in the tube axis direction with the reduced diameter portion as a fulcrum.
- water blocking member either a rubber or a water expansion member can be selected.
- a third aspect of the invention is a connection structure of a conduit according to the second aspect, comprising a plurality of the conduits, the male fitting portion of one of the conduits, and the other of the conduits. It is a connection structure of the electrical conduit characterized by being fitted and connected with the above-mentioned female fitting part.
- a third aspect of the present invention is the connection structure for a conduit according to the second aspect, comprising the handhole having a bell block, the conduit and the same configuration as the female fitting portion. It is a connection structure of a conduit, wherein a bell block and the male fitting part of the conduit are connected.
- the handhole may include a plurality of the bell blocks, and the conduit may be connected to part or all of the bell blocks.
- connection structure between conduits or a conduit and a bell block which can be easily connected.
- a fourth invention is a bell block connectable to the conduit according to the second invention, and having the same structure as the female fitting portion.
- a fifth invention is a method of connecting electric conduits according to the second invention, wherein the step of inserting the end of the male fitting portion into the female fitting portion;
- the tapered portion of the outer periphery of the ring member disposed in the region sandwiched by the locking wall is brought into contact with the inclined surface to contact the ring member with the end portion of the ring member arrangement portion of the male fitting portion.
- the second claw portion of the ring member is slid to the side, and the contact portion between the inner peripheral side of the reduced diameter portion of the ring member and the ring member arrangement portion of the male fitting portion is fulcrum And reducing the diameter by elastically deforming the second claw portion of the ring member so as to fall in the axial direction of the tube, and the end of the claw portion passes through the inclined surface portion of the female fitting portion
- the claw portion is formed on the ring fitting portion formed on the base side of the slope portion of the female fitting portion. It is a method of connecting conduit between that and performing paid to the process step by step.
- ring member connection portions are respectively formed at both end portions of the ring member, and before connecting the conduits, both end portions of the ring member are mutually connected by the ring member connection portion, and the ring member is a ring You may include the process formed annularly so that the circumference
- the diameter is reduced while sliding the ring member, the diameter can be gradually reduced according to the sliding position as compared with the case where the diameter is fixed by fixing the ring member. For this reason, resistance at the time of connection of conduits can be small.
- a sixth aspect of the present invention is the connection method between the conduit and the bell block according to the second aspect, wherein the bell block has the same structure as the female fitting portion of the conduit. Inserting the tip end of the male fitting portion into the bell block, the tapered portion of the outer periphery of the ring member disposed in the region sandwiched by the locking wall in the slope portion of the bell block The tapered portion of the outer periphery of the ring member disposed in the region sandwiched by the locking wall is brought into contact with the beveled portion of the bell block to bring the ring member into the ring member locking portion.
- the second claw portion of the ring member is slidingly moved to the end portion, and elastically deformed so as to fall in the tube axial direction with the contact portion between the ring member and the ring member disposition portion as a fulcrum, thereby reducing the diameter And an end portion of the second claw portion
- the second claws are sequentially stored in the ring fitting portion formed on the base side of the inclined surface of the bell block. It is a connection method of a conduit tube and a bell block.
- ring member connection portions are respectively formed at both end portions of the ring member, and before connecting the conduits, both end portions of the ring member are mutually connected by the ring member connection portion, and the ring member is You may include the process formed annularly so that the circumference
- the conduits or the conduits and the bell block can be easily connected.
- a seventh invention is a pipe joint connectable to the conduit according to the second invention, characterized in that at least one end has the same structure as the male fitting portion.
- both ends may have the same structure as the male fitting portion. Further, one end may have the same structure as the male fitting portion, and the other end may be a bellmouth. Further, one end may be a female fitting portion and the other end may be a male fitting portion.
- a seventh invention is a pipe joint characterized in that it is connectable to the conduit according to the second invention, and at least one end has the same structure as that of the female fitting portion.
- one end may have the same structure as the female fitting portion, and the other end may be a bellmouth. Also, one end may have the same structure as the female fitting portion, and the other end may have a spiral wave shape continuous with the outer surface of the tube.
- An eighth invention is a ring member used for a connection portion of a conduit, wherein the ring member has a substantially C shape in which a part in a circumferential direction is opened, and the ring member is a ring member of the ring member.
- the first claw portion is a claw portion that protrudes from the reduced diameter portion substantially in parallel to the tube axis direction to form a slide guide, and the second claw portion is a tip from the reduced diameter portion
- the ring member is a locking claw which is gradually expanded in diameter so as to gradually increase in outer diameter.
- the ring axial section of the ring member has a tapered portion that decreases in diameter from the tip end of the second claw portion toward the reduced diameter portion, and from the tip end of the second claw portion toward the reduced diameter portion
- the ring member is characterized in that it has an acute-angled wedge-like shape whose thickness is reduced.
- a thin-walled portion may be provided in which the thickness of the inside of the outer edge portion is thinner than the thickness of the outer edge portion of the nail surface of the second nail portion.
- the shape of the slide guide may be planar.
- the shape of the slide guide may be formed in a frame shape.
- the shape of the planar slide guide is preferably rectangular or trapezoidal, and the shape of the frame-like slide guide is preferably substantially U-shaped, U-shaped or V-shaped.
- the eighth invention by using the ring member in the male fitting portion, fitting with the female fitting portion is easy, and a male fitting portion in which the connection operation is easy can be obtained. it can.
- a conduit, a connection structure of conduits, a bell block, a method of connecting conduits, a method of connecting conduits and a bell block, a pipe joint, and these are excellent in assembling workability and easy to connect.
- the ring member used in the present invention can be provided.
- FIG. 5 is a perspective view of a ring member 5; The figure which shows the connection method of the male fitting part 1a and the female fitting part 30a.
- (A) is a figure which shows the connection method of the male fitting part 1a and the female fitting part 30a.
- A is a figure which shows the connection method of the male fitting part 1a and the female fitting part 30a
- (b) is a figure which shows the connection structure 10 of the male fitting part 1a and the female fitting part 30a .
- FIG. 7 is a perspective view of the ring member 5a, (b) is an enlarged view of connection part 24a, 24b. It is a figure corresponding to FIG. 7, Comprising: The figure which shows the other connection method of the male fitting part 1a and the female fitting part 30a.
- (A) is a figure which shows the connection method of the male fitting part 1a and the female fitting part 30a, (b) is other connection structure 10 of the male fitting part 1a and the female fitting part 30a.
- A) is a figure which shows the conduit 40b, (b) is an expanded sectional view of N part of (a).
- FIG. (A) is a perspective view of ring member 5b
- (b) is an enlarged view of a claw part at the time of providing thin part 17 in the 2nd claw part 23 of ring member 5b.
- FIG. 1 is an exploded perspective view of the male fitting portion 1a
- FIG. 2 is a side view of the male fitting portion 1a
- FIG. 3 is a cross-sectional view of the male fitting portion 1 a in the tube axis direction.
- the male fitting portion 1a mainly includes the tube 3, the ring member 5, the water blocking member 7, and the like.
- the male fitting portion 1 a is formed on the outer peripheral portion in the vicinity of the end portion of the tube 3.
- the pipe 3 is, for example, a flexible electric pipe, a pipe joint main body, a bell block or the like, and the details of the form will be described later, but the form is not limited as long as an electric wire etc. can be inserted inside.
- the material of the pipe body 3 is not limited, for example, it is preferably made of resin and preferably made of high density polyethylene.
- High-density polyethylene is a polyethylene belonging to a crystalline thermoplastic resin in which ethylene of repeating units has linear bonding with little branching, and is also called hard polyethylene because of its relatively hard nature.
- high density polyethylene is defined as polyethylene having a density of 0.942 or more.
- Copolymers of high density polyethylene are crystalline resins that usually have 1 to 5 branches per 1000 ethylene monomers. The crystallinity of the homopolymer having a specific gravity of 0.97 exceeds 75%, the rigidity is high, the tensile strength, the impact strength, the cold resistance are excellent, and the mechanical properties do not decrease until the low temperature of -80 ° C.
- it since there is little polarization in the molecule, it has poor adhesion and printability, but it has excellent insulating properties.
- the locking wall 9, the ring member placement portion 11, the locking wall 9, and the water blocking member housing portion 27 are formed at the end of the tube 3 sequentially from the tip.
- the opening side (the direction of arrow B in FIGS. 2 and 3) of the tube 3 is defined as the tip side of the tube 3 and the opposite side (the direction of the arrow A in FIGS. 2 and 3) Is defined as the base side of the tube 3.
- the locking wall 9 is a portion where the outer diameter is larger than the surrounding.
- the pair of locking walls 9 are disposed apart from each other in the tube axis direction, and restrict the operating range of the ring member 5 described later.
- a region sandwiched by the pair of locking walls 9 is a ring member arrangement portion 11 in which a ring member 5 described later is disposed. That is, the male fitting portion 1 a includes a pair of locking walls 9 spaced apart in the tube axis direction, and the ring member 5 disposed in the ring member arrangement portion 11 sandwiched by the locking walls 9.
- the ring member disposition portion 11 is formed in a straight tubular shape which is formed in parallel with the tube axis direction by mutually connecting the locking walls 9.
- the reduced diameter portion 21 is disposed on the tip end side of the tube 3 in the region sandwiched by the pair of locking walls 9, and the first side of the tube 3 in the region sandwiched by the pair of locking walls 9.
- the second hook 23 and the second hook 22 are disposed.
- the outer diameter of the reduced diameter portion 21 and the first claw portion 22 is smaller than the outer diameter of the locking wall 9, and the outer diameter of the second claw portion 23 is larger than the outer diameter of the locking wall 9. Protrudes radially outward.
- a water blocking member accommodating portion 27 is provided on the base side of the ring member arranging portion 11.
- the water blocking member housing portion 27 is a groove having a substantially rectangular cross section, and the water blocking member 7 is housed in the water blocking member housing portion 27. That is, the water blocking member 7 is provided further on the base side than the locking wall 9 on the base side of the male fitting portion 1 a.
- the water blocking member 7 is an annular member, the inner diameter of the water blocking member 7 is smaller than the outer diameter of the water blocking member housing portion 27, and the inner surface of the water blocking member 7 is the outer surface of the water blocking member housing portion 27. In close contact.
- the water blocking member 7 is formed such that the inner peripheral portion of the cross-sectional shape is linear (approximately the same diameter in the tube axis direction), and the outer peripheral portion has a sloped portion extending from one end to the other in the tube axial direction Be done.
- the largest outer diameter part of the water blocking member 7 is arrange
- the water blocking member 7 protrudes radially outward, which is larger than the maximum outer diameter. Note that the maximum outer diameter portion of the sloped portion from one end in the tube axis direction toward the other may be formed not on the most proximal side of the water blocking member but in the middle between the tip side and the most proximal side.
- the outer peripheral surface of the water stop member 7 is formed in the shape which has a slope part
- the water blocking member 7 is formed of a water expansion member
- the water blocking member 7 is made of, for example, a rubber or a water expansion member.
- ethylene propylene rubber Ethylene Propylene Rubber
- Ethylene propylene rubber is a type of synthetic rubber obtained by copolymerization of ethylene and propylene.
- ethylene propylene rubber is often used as an EPDM rubber copolymerized with a small amount of a diene monomer.
- SBR, CR, NBR, ACM rubber, EPDM / PP dynamically cross-linked elastomer, etc. can also be used.
- the water blocking member 7 is made of a water expansion member, for example, a non-woven fabric made of polyester fiber and sodium polyacrylate fiber can be used.
- the proportion of polyester fiber and sodium polyacrylate is 100% by mass in total
- the amount of sodium polyacrylate is from 30% to 70%, preferably from 50 to 70% by mass. .
- the water-swellable nonwoven fabric it is desirable to use a binder resin which is a resin having a low melting point in a range of 1 to 10% with respect to the total of both polyester fiber and sodium polyacrylate fiber. Preferably, it is 1 to 5%.
- a binder resin a low melting point polyester can be used, and the formation of the non-woven fabric can be performed by a needle punch method.
- the ring member 5 is arranged in the ring member arrangement portion 11.
- the ring member 5 has a substantially C shape whose circumferential end is open at the opening 19.
- One end side of the ring member 5 in the tube axial direction is a reduced diameter portion 21 whose outer diameter is smaller than that of the other portion.
- a plurality of first claws 22 and a plurality of second claws 23 are provided toward the other end of the ring member 5.
- the plurality of first claws 22 and the plurality of second claws 23 are juxtaposed to the reduced diameter portion 21 in the circumferential direction via the slits 25. Further, the diameter of the plurality of second claws 23 is gradually increased such that the outer diameter gradually increases from the reduced diameter portion 21 toward the tip.
- FIG. 4 is a perspective view of the ring member 5.
- the ring member 5 has a first claw portion 22 which is a slide guide and a second claw portion 23 which is a locking claw. That is, the first claw portion 22 is a slide guide which is formed so as to protrude substantially in parallel with the tube axis direction from the reduced diameter portion 21, and the second claw portion 23 moves outward from the reduced diameter portion 21 toward the tip. It is a locking claw which has a taper part which diameter-expands so that a diameter may become large. In the illustrated ring member 5, the ends of the ring member 5 are separated by the opening 19 without having a connection.
- the first claw portion 22 has a substantially rectangular shape, but the shape of the first claw portion 22 is not limited to the rectangular shape.
- the shape of the first claw portion 22 one formed in a rectangular shape or a trapezoidal shape is applicable.
- the outer surface of the ring member 5 gradually increases in diameter from the reduced diameter portion 21 toward the end of the second claw portion 23. That is, the ring member 5 has a tapered portion whose diameter decreases from the tip end of the second claw portion 23 toward the reduced diameter portion 21 in the cross section in the tube axial direction.
- the ring member 5 has an acute wedge shape whose thickness decreases from the tip end of the second claw portion 23 toward the diameter reducing portion 21 or a wedge shape whose thickness of the tip end of the claw portion is thicker than the diameter reducing portion.
- the tips of the first claw portion 22 and the second claw portion 23 are positioned on the base side of the tube 3, and the diameter reduction portion 21 is Are arranged so as to face the distal end side of the tube 3. Since the inner diameter of the ring member 5 is smaller than the outer diameter of the locking wall 9, the ring member 5 is held between the locking walls 9.
- any of ABS resin, PP resin, hard vinyl chloride, or a mixed resin or polymer alloy of any of these and PC resin is applicable, and an ABS resin (acrylonitrile butadiene styrene copolymer) is applied It is desirable to do.
- ABS resin is a thermoplastic resin having a normal temperature of 70 to 100 ° C., and is a resin excellent in the balance of mechanical properties such as rigidity, hardness, processability, impact resistance, and bending fatigue. The above characteristics can be balanced by adjusting the blending ratio of the raw materials.
- the ABS resin is a resin which is excellent in printing characteristics, has excellent fluidity, has excellent moldability of thin-walled products and the like, and is excellent in the appearance of the surface.
- the mechanical properties of the ABS resin are, for example, about 39 MPa in tensile strength and about 64 MPa in flexural modulus.
- a graft method is known as a method for producing an ABS resin.
- acrylonitrile, latex, styrene, and a catalyst and an emulsifier are polymerized in a polymerization reactor, water and the like are removed by a centrifugal separator, and then pelletized by an extruder.
- each is polymerized using a polymerization reaction tank, and the unpolymerized monomer is recovered and then pelletized in an extruder.
- rubber and additives are added to an AS resin, compounded by a mixer, and then pelletized by an extruder.
- a method of producing an ABS resin with an extremely high butadiene ratio by a grafting method and compounding it with an AS resin is one of the methods.
- the length of the ring member 5 in the tube axis direction is shorter than the length of the ring member placement portion 11. Therefore, the ring member 5 has a clearance 29 between it and at least one of the locking walls 9 in the state of being disposed in the ring member disposition portion 11. For this reason, the ring member 5 connects the locking walls 9 to each other to form a ring member arrangement portion 11 formed in parallel with the tube axis direction with the first claw portion 22 which is a slide guide of the ring member 5. It is guided and slidable in the axial direction of the tube.
- the reduced diameter portion 21 which is the side end portion of the ring member 5 is attached so as to be positioned on the ring member arrangement portion 11 and slides on the ring member arrangement portion 11.
- claw part 22 which is a slide guide is contact
- FIG. 5 is a view showing a state in which the male fitting portion 1a and the female fitting portion 30a are disposed to face each other, and the male fitting portion 1a is inserted into the female fitting portion 30a.
- the tip of the male fitting portion 1a is inserted into the female fitting portion 30a.
- the female fitting portion 30 a is formed on the inner peripheral portion on the distal end side of the tube 3.
- the female fitting portion 30a is expanded in diameter from the cylindrical portion 35, the slope portion 37 gradually reducing the diameter from the cylindrical portion 35, and the minimum inner diameter portion of the slope portion 37 in order from the tip end side (opening side)
- a ring fitting portion 39 is provided.
- the ring member placement portion 11 is formed on the slope portion 37 of the female fitting portion 30a.
- positioned ring member 5 contacts.
- the tip of the first claw portion 22 of the ring member 5 is moved to the male fitting portion 1a. It can be slid until it abuts on the locking wall 9 at the end of the ring member placement portion 11 on the base side (arrow G in the figure).
- FIG. 7 (b) is a view showing the connection structure 10 in which the male fitting portion 1 a and the female fitting portion 30 a are connected, obtained in this manner.
- the tip end of the second claw portion 23 engages with the ring fitting portion 39 of the female fitting portion 30a. Therefore, even if the female fitting portion 30a is pulled out (arrow K in the figure), the movement of the ring member 5 is restricted by the locking wall 9 on the reduced diameter portion side of the ring member 5, and the female fitting portion The male fitting portion 1a is not pulled out from 30a.
- the female fitting portion 30 a is the water blocking member 7. It does not receive resistance by the water blocking member 7 until it contacts with. For this reason, pushing resistance to the female fitting part 30a of the male fitting part 1a can be made small.
- the shapes of the male fitting portion 1a and the female fitting portion 30a are made of a material having sufficient strength, and are fitted to a tensile tester in a state in which both are fitted, and the tensile tester is used.
- the load was applied and the drawing load was determined. As a result, the drawing load satisfied 100 kg. Therefore, it has been confirmed that the drawing force of the joint portion has a sufficient drawing force.
- FIG. 8A is a perspective view showing the ring member 5a.
- the ring member 5a has substantially the same configuration as the ring member 5, but differs in that connection portions 24a and 24b are respectively provided at both ends in the circumferential direction, and the connection portions 24a and 24b can be connected to each other.
- the ring member 5a has both the first claw portion 22 and the second claw portion 23, and connection portions 24a and 24b are formed at both end portions in the circumferential direction of the ring member 5a.
- FIG. 8B is an enlarged view of the connection portions 24a and 24b.
- Each of the connection portions 24a and 24b is formed with a fitting portion 26 formed of a sawtooth groove group.
- the ring members 5a are formed in an annular shape by fitting the fitting portions 26 at both ends of the ring member 5a and connecting the connection portions 24a and 24b. Therefore, the annular ring member 5 a can be arranged in the ring member arrangement portion 11.
- FIG. 9 to 10 connect the connection portion of the ring member 5a, and insert the male fitting portion 1a annularly arranged on the outer periphery of the male fitting portion 1a into the female fitting portion 30a for connection.
- FIG. 9 corresponds to FIG. 6 of the embodiment in the case of no connection
- FIG. 10 corresponds to FIG. 7 of the embodiment in the case of no connection.
- the structure of the female fitting portion in FIGS. 9 to 10 is the same as that in FIGS.
- connecting portions 24a and 24b at both ends in the circumferential direction of the ring member 5a are connected to each other to form an annular shape so as to surround the ring member placement portion 11 of the ring member 5a.
- the ring member 5a is used, as in the case where the ring member 5 is used, when the male fitting portion 1a is inserted into the female fitting portion 30a, as shown in FIG. 9A, the ring The tapered portion 33 of the member 5a contacts the sloped portion 37 of the female fitting portion 30a.
- the ring member 5a is guided by the first claw portion 22 which is a slide guide in the ring member arrangement portion 11, and the second claw The sliding movement is performed until the tip of the portion 23 contacts the locking wall 9.
- the male member can be more stably male type than in the case where the ring member uses the ring member 5 having no connecting portion at its both ends. It becomes possible to slide on the ring member arrangement portion 11 of the fitting portion 1a. Further, at this time, even if the male fitting portion 1a is obliquely inserted into the female fitting portion 30a, the ring member 5a is not detached.
- the first claw portion 22 of the ring member 5 is The tip end can be slid until it abuts against the locking wall of the end of the ring member placement portion 11 on the base side of the male fitting portion 1a (arrow G in the figure).
- the second claw portion 23 is in the tube axial direction. It can be elastically deformed so as to fall down to reduce its diameter (arrow I in the figure).
- FIG. 10 (b) is a view showing a connection structure 10 in which the male fitting portion 1 a and the female fitting portion 30 a are obtained by performing the above-described steps in order.
- the tip end of the second claw portion 23 engages with the ring fitting portion 39 of the female fitting portion 30a. Therefore, even if the female fitting portion 30a is pulled out (arrow K in the figure), the movement of the ring member 5a is restricted by the locking wall 9 on the reduced diameter portion side of the ring member 5a, and the female fitting portion The male fitting portion 1a is not pulled out from 30a.
- the ring member 5a having the connecting portions 24a and 24b at both ends is used, the same effect as the ring member 5 can be obtained.
- the ring member 5a can adjust the connection position of the connection portions 24a and 24b, it adjusts the clearance necessary for the slide movement, and absorbs the manufacturing variation of the pipe diameter of the large diameter conduit etc.
- the ring member 5a can slide on the ring member placement portion 11 more smoothly.
- FIG. 11 is a view showing a conduit 40a.
- the conduit 40a has a fitting structure at both ends, and is formed at a tube 3a, a male fitting portion 1a formed at one end of the tube 3a, and the other end of the tube 3a. , And a female fitting portion 30a having a shape capable of being fitted with the male fitting portion 1a.
- the electric wire tube 40a is formed with a continuous spiral waveform 41 of a predetermined pitch on the outer peripheral surface of the tube 3a between the male fitting portion 1a and the female fitting portion 30a. If such a conduit 40a is used, a plurality of conduits 40a can be connected to each other and used.
- the method of connecting the electric conduit 40a is the same as the method of connecting the male fitting portion 1a and the female fitting portion 30a described above. That is, the male fitting portion 1a of one conduit tube 40a is inserted into the female fitting portion 30a of the other conduit tube 40a, and the male fitting portion 1a of the one conduit tube 40a is inserted.
- connection structure of the electric wire tube in which the mold fitting portion 1a and the female fitting portion 30a of the other electric wire tube 40a are fitted and connected. Therefore, in connection of conduits 40a, since screwing-in of a helical coupling etc. is not required, construction is easy.
- Fig.12 (a) is a figure which shows the conduit 40b.
- 12 (b) is an enlarged cross-sectional view of the vicinity of the N portion in FIG. 12 (a), and the electric pipe 40b is replaced with the pipe 3a of the electric pipe 40a in that the pipe 3b is applied. It is different.
- a peak 43 large diameter portion on the outer peripheral surface of the tube 3b between the male fitting portion 1a and the female fitting portion 30a.
- valleys 45 small diameter portions are alternately formed.
- the ridges 43 have a substantially square cross section, and the valleys 45 have a circular cross section.
- the diameter (length of one side) of the ridge portion 43 is larger than the outer diameter of the valley portion 45.
- the conduits 40b can be stably arranged.
- the maximum outer diameter of the female fitting portion 30 a is smaller than the diameter (length of one side) of the peak portion 43. Therefore, when viewed from the end on the female fitting portion 30 a side, the female fitting portion 30 a does not protrude to the outer periphery of the peak portion 43. Therefore, when making peak parts 43 contact and piling up electric conduit 40b, female type fitting part 30a does not interfere with adjacent electric conduit 40b.
- a pair of projection part 47 is formed in the approximate-central part of the valley part 45 with respect to the pipe-axis direction of the tubular body 3b. Further, a flat portion 49 is formed between the protrusions 47 in the cross section of the tube 3b in the tube axial direction.
- a cutter can be used along the groove, and cutting of the tube 3b is easy. Moreover, since the cutting position does not easily shift, the pipe 3b can be cut with high accuracy.
- the valley portion 45 can be formed as a straight pipe having a circular cross section without providing a pair of projections in the valley portion 45.
- FIG. 13 is a view showing a conduit 40c.
- the conduit 40c is different in that a tube 3c is applied instead of the tube 3a of the conduit 40a. Similar to the tubular body 3b, the tubular body 3c has peak portions 43 of substantially square shape and valley portions 45 of circular shape alternately.
- the valley 45 of the tube 3 c is sufficiently longer than the length of the ridge 43. Moreover, in the axial direction cross section of the pipe 3c, the small diameter portion as the valley portion 45 is formed in a wave shape. The maximum outer diameter of the waveform in the valley portion 45 is smaller than the outer diameter of the peak portion 43. Similarly to the conduit 40b, when the conduits 40c are stacked, the conduit 40c can be stably arrayed by providing the mountain portion 43 having a substantially square shape.
- the waveform is formed as an independent wave, but the waveform may be formed as a spiral wave.
- FIG. 14 is a cross-sectional view of the bell block 50.
- the bell block 50 can be connected to the conduit 40b or the like, and has the same structure as the female fitting portion 30a. That is, on the inner surface on one end side of the bell block 50, the cylindrical portion 35, the sloped portion 37 gradually decreasing in diameter from the cylindrical portion 35, and the sloped portion 37 are sequentially arranged from one tip end side (opening side). It has a ring fitting portion 39 expanded from the minimum inner diameter portion. Further, the other end of the bell block 50 is formed with a bell mouth 53 whose inner diameter gradually widens toward the open end.
- the bell block 50 is connected to the female fitting portion 30a with the male fitting portion 1a such as the electric conduit 40b inserted. Moreover, from the bell mouth 53, a wire etc. can be penetrated inside.
- FIG. 15 is a view showing a handhole 55 having a plurality of bell blocks 50.
- the hand hole 55 is, for example, a box made of concrete, and the bell block 50 is embedded in the concrete. That is, a plurality of through holes are formed by the bell block 50 on the side surface of the concrete hand hole 55.
- a connection hole may be formed in the hand hole 55, and the outer periphery of the bell block 50 inserted in the connection hole may be hardened with a mortar, an epoxy putty, or the like to fix the bell block 50 in the hand hole 55.
- a bell block in which a plurality of bell blocks are vertically and horizontally arranged may be applied to the handhole.
- FIG. 16 is a cross-sectional view showing a connection structure 10 a between the bell block 50 provided in the hand hole 55 and the electric conduit 40 b. In addition, it replaces with the conduit 40b and another conduit can also be applied.
- a connection structure 10 a in the hand hole 55, a plurality of bell blocks 50 are disposed.
- the conduit 40 b is connected to part or all of the bell block 50. That is, the connection structure 10a includes the handhole 55 having the bell block 50 and the electric wire tube 40b, and the bell block 50 having the same structure as the female fitting portion 30a, and the male fitting portion 1a of the electric wire tube 40b. Are connected and configured.
- the method of connecting the conduit 40b and the bell block 50 is the same as the method of connecting the conduits described above. That is, the male fitting portion 1a is inserted into the female fitting portion 30a of the bell block 50 in the same procedure as the method described above, instead of the female fitting portion 30a of one electric conduit 40b. Just do it. By doing this, the connection structure of the conduit for connecting the hand hole 55 having the bell block 50 having the same structure as the female fitting portion 30a of the conduit and the male fitting portion 1a of the conduit 40b. You can get 10a.
- the electric wire tube 40b is a rectangular electric wire tube, the electric wire tube 40b can be stacked in multiple tiers and can be compactly arranged. For this reason, while it becomes possible to reduce the amount of excavation of the earth and sand at the time of the burial of the conduit 40b, since it is possible to backfill it collectively, the load of construction reduces. As a result, the construction period can be shortened and the construction cost can be reduced.
- the conduit 40b of the present invention can connect the conduits 40b only by inserting the male fitting portion 1a into the female fitting portion 30a. Therefore, unlike the conduits connected by the pipe joint having the spiral groove, for example, the conduits 40b of the same size can be directly connected to each other.
- the handhole 55 and the conduit 40b are connected by connecting the male fitting portion 1a of the conduit 40b and the bell block 50, as well as a bell block having a fitting portion to be fitted with the female fitting portion 30a. And the female fitting portion 30a of the conduit 40b may be connected.
- FIG. 17 is a view showing the bell block 50a.
- a member that can be connected to the various conduits described above and has the same structure as the male fitting portion 1a or the female fitting portion 30a on at least one side is referred to as a tube joint. There is a case.
- the bell block 50a includes a male fitting portion 1a. That is, one end of the bell block 50a has the same structure as the male fitting portion 1a, and the other end is the bellmouth 53. In this case, by projecting the male fitting portion 1a from the outer surface of the hand hole 55, connection with the female fitting portion 30a of the conduit can be made.
- FIG. 18A is a view showing the pipe joint 60 a.
- the fitting 60a has the same structure as the male fitting portion 1a at both ends.
- conduits provided with the female fitting portion 30a can be connected to each other at at least one end.
- the both ends can also connect the conduits of the female fitting part 30a.
- the female fitting part 30a can also be converted into the male fitting part 1a by connecting the female fitting part 30a to one end of the pipe fitting 60a.
- the bell block 50 having the shape of the female fitting portion 30a is disposed in two opposing hand holes 55.
- the male fitting portion 1 a is fixed to the hand hole 55 by inserting the male fitting portion 1 a into the bell block 50 of one hand hole 55.
- the female fitting portion 30a at the other end of the conduit 40b after fitting is extended by connecting the male fitting portion 1a of the next conduit 40b adjacent thereto.
- the male fitting portion 1a of the conduit 40b is inserted and connected to the bell block 50 of the other hand hole 55 facing each other.
- the conduit is extended.
- the length adjustment of the conduit 40b is performed by cutting and connecting the valleys 45 of the conduit 40b extended from both sides.
- the conduit 40b is provided with the two protrusions 47 facing the valley 45, and a groove shape is formed between the protrusions 47.
- a groove shape is formed between the protrusions 47.
- the conduit 40b can use a cutter along the groove by providing two projections 47 facing the valley 45 and forming a groove shape between the projections 47. For this reason, it is easy to grasp the cutting position, and it is possible to suppress the slip of the cutter. Therefore, the cutting position does not shift or is not cut obliquely.
- FIG.18 (b) is a figure which shows the pipe joint 60b.
- One end of the pipe joint 60b has the same structure as the male fitting portion 1a, and the other end has the same structure as the female fitting portion 30a.
- the pipe joint 60b it is possible to connect a conduit provided with the male fitting portion 1a at at least one end and a conduit provided with the female fitting portion 30a at at least one end. it can.
- FIG. 19 (a) is a view showing a pipe joint 60c.
- the fitting 60c has the same structure as the female fitting portion 30a at both ends.
- conduits provided with the male fitting portion 1a can be connected to each other at one end.
- the both ends can also connect the conduits of the male fitting part 1a.
- the male fitting part 1a can also be converted into the female fitting part 30a.
- the groove is formed in the small diameter part of the center of a coupling
- FIG. 19 (b) is a view showing a pipe joint 60 d.
- the pipe joint 60d has one end having the same structure as the female fitting portion 30a, and the other end having a helical corrugation 61 continuous with the outer surface (and the inner surface) of the tube.
- a conduit provided with the male fitting portion 1a at at least one end and a conduit having a helical corrugated shape on the outer surface.
- a pipe joint 60d as shown in FIG. 19 (b) it has different cross-sectional shapes of a conduit having a rectangular cross-sectional shape as in the present invention and a conduit having a spiral wave shape on the outer surface.
- a different kind of pipe joint that connects the conduits can be realized.
- the ring member 5 since the ring member 5 is disposed on the outer surface of the male fitting portion 1a, the ring member 5 can be easily viewed. Further, when inserting the male fitting portion 1a into the female fitting portion 30a, the diameter expansion by the expansion of the circumferential length of the ring member due to the elastic repulsive force of the ring member 5, and the tube axis of the second claw portion 23 The ring member 5 can be efficiently deformed by the effects of both of the diameter expansion by the recovery of the bending deformation in the direction cross section.
- the thickness of the second claw portion 23 of the ring member 5 to which the drawing force is applied is increased, the diameter of the ring member 5 can be easily reduced.
- the male fitting portion 1a and the female fitting portion 30a can be easily connected, and the male fitting portion 1a can be reliably prevented from coming off from the connected state.
- the ring member 5 can slide in the ring member arranging portion 11, when the male fitting portion 1a is pushed into the female fitting portion 30a, the ring member 5 and the ring member arranging portion 11 The ring member 5 can be easily deformed with the contact portion as a fulcrum. Further, when a force is applied in a direction in which the male fitting portion 1a is pulled out, the ring member 5 is moved, and the end of the ring member 5 on the reduced diameter portion 21 side is the end of the ring member placement portion 11. It abuts on the locking wall 9. Therefore, the ring member 5 can be prevented from being detached from the ring member arranging portion 11 when the ring member 5 is moved on the ring member arranging portion, and the ring member 5 can be firmly fixed to the ring member arranging portion 11 .
- the ring member 5 has an acute wedge shape whose thickness decreases from the tip end of the second claw portion 23 toward the reduced diameter portion 21, when the diameter of the ring member 5 is reduced, The reduced diameter portion 21 and the ring member arrangement portion 11 are in contact with each other, and the ring member 5 can be easily deformed with the contact portion as a fulcrum.
- the water blocking member 7 is disposed closer to the base than the ring member 5, when the male fitting portion 1a is inserted into the female fitting portion 30a, the insertion resistance of the water blocking member 7 is not easily received. be able to. In addition, even if the lubricant is applied to the water blocking member 7, the lubricant does not adhere to the ring member 5.
- the inner surface in the vicinity of the end of the reduced diameter portion 21 of the ring member 5a in the ring member arrangement portion 11 It can move to the vicinity of the locking wall 9 at the end. Also in this case, since the male fitting portion 1a is made to slide while being fitted to the female fitting portion 30a, compared with the case where the ring member 5a is fixedly inserted into the male fitting portion 1a. Insertion resistance is small and insertion is easy.
- connection portions 24a and 24b are formed at the end portion of the ring member 5a, and the connection portions 24a and 24b are mutually connected to make the ring member 5a male fitting It can be attached to the ring member arrangement part of a male shaped part such as a part or a different type pipe joint. For this reason, when sliding the ring member 5a, it is possible to slide the ring member 5a more stably as compared with the case where the connecting portions 24a and 24b are not provided as in the ring member 5.
- connection portions 24a and 24b of the ring member 5a can be adjusted in length by changing connection positions of connection portions such as a saw blade-shaped groove group, a large number of minute protrusions, and a release paper-attached pressure-sensitive adhesive layer. If it is formed in such a structure, the circumferential length when ring member 5a is formed in an annular shape can be optimized by performing length adjustment when connecting ring member 5a. For this reason, the dimensional variation of the fitting portion of the conduit can be absorbed.
- conduits 40a and the like have the male fitting portion 1a at one end and the female fitting portion 30a at the other end, it is easy to connect a plurality of conduits 40a. It is.
- the conduit 40b is stably stabilized when laminating the plurality of conduits 40b.
- the conduit 40b can be stacked.
- a pair of projections 47 is formed substantially at the center of the valley 45 in the axial direction of the tube, and a groove is formed between the projections 47.
- the conduit 40a can be easily cut. Therefore, it is possible to maintain high accuracy of the cut position of the cut tube, and to construct a highly accurate conduit connection structure and a conduit of the conduit.
- various conduits can be easily connected by using the pipe joint which comprises the male fitting part 1a or the female fitting part 30a at at least one end.
- the pipe joint which comprises the male fitting part 1a or the female fitting part 30a at at least one end.
- a bell block provided with the male fitting portion 1a or the female fitting portion 30a at one end, the bell block and the electric pipe can be easily connected.
- the outer surface of the ring member 5 has a tapered portion 33 whose diameter is gradually and continuously reduced from the tip of the second claw portion 23.
- the inner peripheral portion of the ring member 5 is formed at an angle of two steps so that the inner peripheral portion is bent. As described above, an acute-angled wedge may be used in which the thickness decreases from the tip of the second claw 23 toward the reduced diameter portion 21.
- the diameter of the inner peripheral portion of the ring member 5 may be gradually and linearly reduced from the tip of the second claw portion 23 toward the reduced diameter portion 21.
- the thickness is thinner from the tip of the second claw 23 toward the reduced diameter portion 21.
- a ring member 5b as shown in FIG. 21 (a) may be used.
- the ring member 5b has substantially the same configuration as the ring member 5, but the form of the first claw portion 22 is different.
- the first claw portion 22 of the ring member 5b is formed in a substantially U-shape. That is, the first claw portion 22 is formed with a slit 25 a from the diameter reducing portion 21 side toward the tip end side. For this reason, the first claw portion 22 has a frame-like shape that is open on the reduced diameter portion 21 side and is connected in the circumferential direction on the tip end side. Note that the slit 25a from the side of the reduced diameter portion 21 does not have to be substantially rectangular like a substantially U-shape, and for example, the first claw portion 22 has a U-shaped or V-shaped frame shape. It may be formed.
- the first claw portion 22 is formed with the slit 25a from the reduced diameter portion 21 side, so that when a pressing force is applied to the second claw portion 23, the frame-shaped first portion is formed.
- the claws 22 slightly expand in diameter.
- the circumferential length of the reduced diameter portion 21 including the base portions of both the first claw portion 22 and the second claw portion 23 becomes slightly longer, and the second claw portions on both sides of the first claw portion 22 The deformation of 23 becomes easy. For this reason, since the second claw portion 23 can be easily deformed to reduce the diameter of the ring member 5b, connection between the male fitting portion 1a and the female fitting portion 30a is easy.
- the form of the second claw portion 23 may be formed such that a thin portion 17 thinner than the outer edge portion is formed inside the outer edge portion. That is, the thickness of the inside of the outer edge portion is thinner than the thickness of the outer edge portion of the nail surface of the second hook portion 23.
- the second claw portion 23 can be easily deformed by forming the inner thickness of the outer edge portion thin with respect to the outer edge portion of the nail surface of the second claw portion 23.
- the thin-walled portion 17 is formed with respect to the second claw portion 23 of the ring member 5b, the present invention can also be applied to other ring members 5 and 5a.
- a thin-walled portion 17 thinner than the outer edge portion on the outer surface side of the second claw portion 23 insertion resistance when inserting the male fitting portion 1a into the female fitting portion 30a can be obtained. It can be reduced. Further, even when the female fitting portion 30a and the male fitting portion 1a are subjected to a pulling force, the thickness of the outer edge portion of the claw surface is formed thicker than the inside, so the second claw portion 23 is formed. Does not buckle.
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Abstract
Description
また、リング部材がスライド移動することで、雌型嵌合部とリング部材の間の摩擦抵抗を減少させることもできるため、電線管同志の接続が容易となる。
リング部材配置部11には、リング部材5が配置される。リング部材5は、円周方向の端部が開口部19で開口した略C字状である。リング部材5の管軸方向の一方の端部側は、外径が他の部位よりも小さい縮径部21となる。リング部材5の他方の端部側に向けて、複数の第1の爪部22と複数の第2の爪部23が設けられる。複数の第1の爪部22と第2の爪部23は、縮径部21に対して、円周方向にスリット25を介して互いに離間して併設される。また、複数の第2の爪部23は、縮径部21から先端に行くにつれて、徐々に外径が大きくなるように拡径される。
次に、雄型嵌合部1aと、これと嵌合可能な雌型嵌合部との接続方法について説明する。図5は、雄型嵌合部1aと雌型嵌合部30aとを対向させて配置し、雌型嵌合部30aへ雄型嵌合部1aを挿入した状態を示す図である。まず、図5に示すように、雄型嵌合部1aの先端を雌型嵌合部30aに挿入する。
リング部材5aは、第1の爪部22と第2の爪部23の両者を有し、さらにリング部材5aの周方向の両端部に、接続部24a、24bが形成されている。
3、3a、3b、3c………管体
5、5a、5b………リング部材
7………止水部材
9………係止壁
10、10a………接続構造
11………リング部材配置部
17………薄肉部
19………開口部
21………縮径部
22………第1の爪部
23………第2の爪部
24a、24b………接続部
25、25a………スリット
26………嵌合部
27………止水部材収容部
29………クリアランス
30a………雌型嵌合部
33………テーパ部
35………筒状部
37………斜面部
39………リング嵌合部
40a、40b、40c………電線管
41……波形状
43……山部
45……谷部
47……突起部
49……平坦部
50、50a……ベルブロック
53……ベルマウス
55……ハンドホール
60a、60b、60c、60d……管継手
61……波形状
Claims (35)
- 管体の端部近傍の外周部に形成される雄型嵌合部を有する電線管であって、
前記雄型嵌合部は、管軸方向に離間して配置される一対の係止壁と、
前記係止壁間を相互に結んで管軸方向に平行に形成される直管状のリング部材配置部と、
前記係止壁で挟まれた前記リング部材配置部に配置されるリング部材と、
を具備し、
前記リング部材は、円周方向の一部が開口した略C字状であり、
前記リング部材は、前記リング部材の一方の端部側の縮径部と、前記縮径部に対して、円周方向にスリットを介して互いに離間して併設される複数の第1の爪部と、複数の第2の爪部を有し、
前記第1の爪部は、前記縮径部から管軸方向に略平行に突出してスライドガイドを形成する爪部であり、前記第2の爪部は、前記縮径部から先端に行くにつれて、徐々に外径が大きくなるように拡径される係止爪であり、
前記リング部材は、前記第2の爪部の先端と前記スライドガイドの先端がともに、前記管体の基部側に位置するように配置され、前記縮径部が前記管体の先端側に位置するように配置されていて、
前記縮径部と前記スライドガイドの外径は、前記係止壁の外径より小さく、前記第2の爪部の先端の外径は、前記係止壁の外径より大きく形成され、
前記リング部材は、少なくとも一方の前記係止壁との間にクリアランスを有し、前記リング部材が前記リング部材配置部において、軸方向にスライド可能であることを特徴とする電線管。 - 前記リング部材の両端部には、それぞれリング部材接続部が形成され、前記リング部材の両端部が前記リング部材接続部で接続されて、前記リング部材が前記リング部材配置部に環状に形成されることを特徴とする請求項1に記載の電線管。
- 前記雄型嵌合部の基部側の前記係止壁よりもさらに基部側に、止水部材が設けられることを特徴とする請求項1記載の電線管。
- 両端に嵌合構造を有する電線管であって、
管体と、
前記管体の一方の端部に形成された雄型嵌合部と、
前記管体の他方の端部に形成され、前記雄型嵌合部と嵌合可能な形状を有する雌型嵌合部と、
を具備し、
前記雄型嵌合部は、前記管体の端部近傍の外周部に形成され、
管軸方向に離間して配置される一対の係止壁と、
前記係止壁間を相互に結んで管軸方向に平行に形成される直管状のリング部材配置部と、
前記係止壁で挟まれた前記リング部材配置部に配置されるリング部材と、
を具備し、
前記リング部材は、円周方向の一部が開口した略C字状であり、
前記リング部材は、前記リング部材の一方の端部側の縮径部と、前記縮径部に対して、円周方向にスリットを介して互いに離間して併設される複数の第1の爪部と、複数の第2の爪部を有し、
前記第1の爪部は、前記縮径部から管軸方向に略平行に突出してスライドガイドを形成する爪部であり、前記第2の爪部は、前記縮径部から先端に行くにつれて、徐々に外径が大きくなるように拡径される係止爪であり、
前記リング部材は、前記第2の爪部の先端と前記スライドガイドの先端がともに、前記管体の基部側に位置するように配置され、前記縮径部が前記管体の先端側に位置するように配置されていて、
前記縮径部と前記スライドガイドの外径は、前記係止壁の外径より小さく、前記第2の爪部の先端の外径は、前記係止壁の外径より大きく形成され、
前記リング部材は、少なくとも一方の前記係止壁との間にクリアランスを有し、前記リング部材が前記リング部材配置部において、管軸方向にスライド可能であり、
前記雌型嵌合部は、前記管体の内周部に形成され、先端側から、筒状部と、前記筒状部から徐々に縮径する斜面部と、前記斜面部の最小内径部から拡径したリング嵌合部と、を具備することを特徴とする電線管。 - 前記雄型嵌合部の基部側の前記係止壁よりもさらに基部側に、止水部材が設けられることを特徴とする請求項4記載の電線管。
- 前記雄型嵌合部と前記雌型嵌合部の間において、前記管体の外周面に連続した所定ピッチの螺旋状の波形状が形成されることを特徴とする請求項5に記載の電線管。
- 前記雄型嵌合部と前記雌型嵌合部の間において、前記管体の外周面に略正方形状の山部としての大径部位と、円形状の谷部として小径部位が交互に形成されることを特徴とする請求項5に記載の電線管。
- 前記管体の管軸方向に対する前記谷部としての小径部位の略中央部に、一対の突起部が形成され、前記管体の管軸方向断面において、前記突起部の間に平坦部が形成されることを特徴とする請求項7記載の電線管。
- 前記管体の管軸方向断面において、前記谷部としての小径部位が波形に形成されることを特徴とする請求項7記載の電線管。
- 前記リング部材の前記第2の爪部は、管軸方向断面において、前記第2の爪部の先端から前記縮径部に向かって縮径するテーパ部を有し、前記第2の爪部の先端から前記縮径部に向かって肉厚が薄くなるくさび型形状であることを特徴とする請求項4記載の電線管。
- 前記リング部材の前記第2の爪部の形状が、内周部が折れ曲がって形成された2段の鋭角のくさび形状であることを特徴とする請求項10に記載の電線管。
- 前記リング部材の周方向の両端部には、それぞれリング部材接続部が形成され、前記リング部材の両端部が前記リング部材接続部で接続されて、前記リング部材が前記リング部材配置部に環状に形成されることを特徴とする請求項10記載の電線管。
- 前記リング部材は、ABS樹脂、PP樹脂、硬質塩化ビニルまたはこれらのいずれかとPC樹脂の混合樹脂またはポリマーアロイのいずれかであることを特徴とする請求項4記載の電線管。
- 前記止水部材は、前記雄型嵌合部の基部側の前記係止壁よりもさらに基部側に形成された止水部材収容部に配置されることを特徴とする請求項5記載の電線管。
- 前記止水部材は、ゴム製または水膨張部材のいずれかであることを特徴とする請求項5記載の電線管。
- 請求項4記載の電線管の接続構造であって、
複数の前記電線管を具備し、一の前記電線管の前記雄型嵌合部と、他の前記電線管の前記雌型嵌合部とが嵌合して接続されることを特徴とする電線管の接続構造。 - 請求項4記載の電線管の接続構造であって、
ベルブロックを有するハンドホールと、前記電線管を具備し、
前記雌型嵌合部と同一構造を有する前記ベルブロックと、前記電線管の前記雄型嵌合部とが接続されることを特徴とする電線管の接続構造。 - 前記ハンドホールは、複数の前記ベルブロックを有し、
前記電線管は、前記ベルブロックの一部またはすべてと接続されることを特徴とする請求項17記載の電線管の接続構造。 - 請求項4記載の電線管と接続可能であり、前記雌型嵌合部と同一構造を有することを特徴とするベルブロック。
- 請求項10記載の電線管同士を接続する接続方法であって、
前記雄型嵌合部の先端を前記雌型嵌合部に挿入する工程と、
前記雌型嵌合部の前記斜面部に、前記係止壁で挟まれた領域に配置された前記リング部材の外周の前記テーパ部を接触させて、前記リング部材を前記雄型嵌合部の前記リング部材配置部の端部側までスライド移動させて、前記リング部材の前記第2の爪部を、前記リング部材の前記縮径部の内周側と前記雄型嵌合部の前記リング部材配置部との接触部を支点として、前記リング部材の前記第2の爪部を、管軸方向に倒れるように弾性変形させて縮径する工程と、
前記第2の爪部の端部が前記雌型嵌合部の前記斜面部を通り抜けることで、前記第2の爪部が、前記雌型嵌合部の前記斜面部の基部側に形成された前記リング嵌合部に収納される工程を順に行なうことを特徴とする電線管同士の接続方法。 - 前記リング部材の周方向の両端部に、それぞれリング部材接続部が形成され、電線管同士を接続する前に、前記リング部材の両端部がリング部材接続部で相互に接続されて、前記リング部材が前記リング部材配置部の周囲を囲むように環状に形成される工程を含むことを特徴とする請求項20に記載の電線管の接続方法。
- 請求項10記載の電線管とベルブロックとの接続方法であって、
前記ベルブロックは、前記電線管の前記雌型嵌合部と同一の構造を有し、
前記雄型嵌合部の先端を前記ベルブロックに挿入する工程と、
前記ベルブロックの前記斜面部に、前記係止壁で挟まれた領域に配置された前記リング部材の外周の前記テーパ部を接触させて、前記リング部材をスライド移動させて、前記リング部材の前記第2の爪部を、前記リング部材の前記縮径部の内周側と前記リング部材配置部との接触部を支点として、管軸方向に倒れるように弾性変形させて縮径する工程と、
前記第2の爪部の端部が前記ベルブロックの前記斜面部を通り抜けることで、前記第2の爪部が、前記ベルブロックの前記斜面部の基部側に形成された前記リング嵌合部に収納される工程を順に行なうことを特徴とする電線管とベルブロックの接続方法。 - 前記リング部材の両端部に、それぞれリング部材接続部が形成され、電線管同士を接続する前に、前記リング部材の両端部が前記リング部材接続部で相互に接続されて、前記リング部材が前記リング部材配置部の周囲を囲むように環状に形成される工程を含むことを特徴とする請求項22に記載の電線管とベルブロックの接続方法。
- 請求項4記載の電線管と接続可能であり、少なくとも一方の端部が前記雄型嵌合部と同一構造を有することを特徴とする管継手。
- 両方の端部が前記雄型嵌合部と同一構造を有することを特徴とする請求項24記載の管継手。
- 一方の端部が前記雄型嵌合部と同一構造を有し、他方の端部がベルマウスであることを特徴とする請求項24記載の管継手。
- 一方の端部が前記雄型嵌合部と同一構造を有し、他方の端部が前記雌型嵌合部と同一構造を有することを特徴とする請求項24に記載の管継手。
- 請求項4記載の電線管と接続可能であり、少なくとも一方の端部が前記雌型嵌合部と同一構造を有することを特徴とする管継手。
- 一方の端部が前記雌型嵌合部と同一構造を有し、他方の端部がベルマウスであることを特徴とする請求項28記載の管継手。
- 一方の端部が前記雌型嵌合部と同一構造を有し、他方の端部が前記管体の外表面に連続した螺旋状の波形状を有することを特徴とする請求項28記載の管継手。
- 電線管の接続部に用いられるリング部材であって、
前記リング部材は、円周方向の一部が開口した略C字状であり、
前記リング部材は、前記リング部材の一方の端部側の縮径部と、前記縮径部に対して、円周方向にスリットを介して互いに離間して併設される複数の第1の爪部と、複数の第2の爪部を有し、
前記第1の爪部は、前記縮径部から管軸方向に略平行に突出してスライドガイドを形成する爪部であり、
前記第2の爪部は、前記縮径部から先端に行くにつれて、徐々に外径が大きくなるように拡径される係止爪であることを特徴とするリング部材。 - 前記リング部材の管軸方向断面において、前記第2の爪部の先端から前記縮径部に向かって縮径するテーパ部を有し、前記第2の爪部の先端から前記縮径部に向かって肉厚が薄くなる鋭角のくさび型形状であることを特徴とする請求項31に記載のリング部材。
- 前記第2の爪部の爪面の外縁部の厚さに対して、前記外縁部の内部の厚さを薄く形成した薄肉部を設けることを特徴とする請求項31記載のリング部材。
- 前記スライドガイドの形状が面状に形成されたものであることを特徴とする請求項31記載のリング部材。
- 前記スライドガイドの形状が枠状に形成されたものであることを特徴とする請求項31記載のリング部材。
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EP17930128.8A EP3703208B1 (en) | 2017-10-24 | 2017-11-15 | Electric wire tube, electric wire tube connection structure, bell block, method for connecting electric wire tubes, method for connecting electric wire tube and bell block, tube joint, and ring member |
DK17930128.8T DK3703208T3 (da) | 2017-10-24 | 2017-11-15 | Elektrisk ledningsrør, forbindelsesstruktur for elektrisk ledningsrør, klokkeblok, fremgangsmåde til forbindelse af elektriske ledningsrør, fremgangsmåde til forbindelse af elektrisk ledningsrør og klokkeblok, rørforbindelse og ringelement |
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JP2018533955A JP6391903B1 (ja) | 2017-10-24 | 2017-11-15 | 電線管、電線管の接続構造、ベルブロック、電線管同士の接続方法、電線管とベルブロックの接続方法、管継手、およびリング部材 |
US16/856,726 US11402046B2 (en) | 2017-10-24 | 2020-04-23 | Electrical conduit, connection structure for electrical conduit, bell block, method for connecting electrical conduit, method for connecting electrical conduit and bell block, pipe coupling, ring member, double-wall electrical conduit, and connection structure and conduit line for double-wall electrical conduit |
US17/845,440 US11708925B2 (en) | 2017-10-24 | 2022-06-21 | Electrical conduit, connection structure for electrical conduit, bell block, method for connecting electrical conduit, method for connecting electrical conduit and bell block, pipe coupling, ring member, double-wall electrical conduit, and connection structure and conduit line for double-wall electrical conduit |
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US (1) | US11402046B2 (ja) |
EP (1) | EP3703208B1 (ja) |
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JP6391903B1 (ja) * | 2017-10-24 | 2018-09-19 | 古河電気工業株式会社 | 電線管、電線管の接続構造、ベルブロック、電線管同士の接続方法、電線管とベルブロックの接続方法、管継手、およびリング部材 |
JP2020149781A (ja) * | 2019-03-11 | 2020-09-17 | 株式会社オートネットワーク技術研究所 | ワイヤハーネス |
JP7327097B2 (ja) * | 2019-11-14 | 2023-08-16 | 住友電装株式会社 | 配線部材 |
US11996683B2 (en) * | 2020-10-19 | 2024-05-28 | Eaton Intelligent Power Limited | Compressible condulet devices, assemblies, systems and methods for electrical raceway fabrication |
US20220200254A1 (en) * | 2020-12-23 | 2022-06-23 | Eaton Intelligent Power Limited | Push-in condulet devices, assemblies, systems and methods for electrical raceway fabrication |
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EP3703208A4 (en) | 2021-07-21 |
US20200248853A1 (en) | 2020-08-06 |
EP3703208B1 (en) | 2022-10-05 |
US11402046B2 (en) | 2022-08-02 |
EP3703208A1 (en) | 2020-09-02 |
AU2017437359A1 (en) | 2019-12-19 |
AU2017437359B2 (en) | 2020-11-05 |
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