JP5543763B2 - Rust cover - Google Patents

Description

  The present invention relates to a rust-proof cover that rusts the cut surface by being held in contact with the cut surface of an existing fluid pipe cut into an annular shape.

  Conventionally, a rust-proof cover that rusts the cut surface of an existing fluid pipe is formed in an annular shape, and an annular recess that opens toward the front side of the rust-proof cover is formed to fit the cut surface. There is something. An elastic seal layer (rust preventive portion) is provided over the entire inner peripheral surface of the annular recess, and the side surface of the annular recess facing the radial direction of the anticorrosion cover is elastic for pressure contact with the existing fluid pipe. A seal projection (locking portion) is formed to project, and by fitting the cut surface into the annular recess from the tube axis direction of the existing fluid pipe, the cut surface contacts the elastic seal layer in the annular recess, A part of the elastic seal layer is brought into contact with the outer peripheral surface and the inner peripheral surface of the existing fluid pipe, and the elastic seal protrusion is pressed against the outer peripheral surface and the inner peripheral surface of the existing fluid pipe, thereby preventing the cut surface. Rust is performed (for example, refer to Patent Document 1).

JP 2009-8120 A (page 11, FIG. 2)

  However, in the rust preventive cover described in Patent Document 1, an annular recess must be formed in the rust preventive cover, and an elastic seal layer (rust preventive part) must be provided over the entire inner peripheral surface of the annular recess. Therefore, there is a problem that the manufacturing cost of the rust-proof cover increases.

  The present invention has been made paying attention to such problems, and an object thereof is to provide a rust-proof cover that can rust-proof the cut surface of an existing fluid pipe at a low cost.

In order to solve the above problems, the rust-proof cover of the present invention is:
A rust-proof cover that rusts the cut surface by being held in contact with the cut surface of the existing fluid pipe cut in an annular shape,
The rust preventive part made of a member having an annular elastic force that makes contact with the cut surface over the entire circumference, a guide ring formed in an annular shape, and the rust preventive part coming into contact with the cut surface, the existing fluid A plurality of locking portions that are locked only to either the outer peripheral surface or the inner peripheral surface of the pipe , and the rust prevention portion is disposed on the inner peripheral surface of the guide ring, and the outer peripheral surface of the guide ring In the circumferential direction, a plurality of the locking portions consisting of a claw portion whose tip portion abuts against the cutting surface and elastically deforms and a push plate portion that presses the rust prevention portion toward the cutting surface are fixed, wherein the plurality of engaging portions, has a strong locking force than the elastic force of the rust section is characterized in Rukoto.
According to this feature, the rust-proof cover has a simple configuration in which the locking portion is locked to either the outer peripheral surface or the inner peripheral surface while the rust-proof portion is in contact with the cut surface. Thus, the cut surface can be rust-proof while keeping the manufacturing cost of the rust-proof cover low. Then, by adjusting the elastic force of the locking portion, the locking force on only one of the outer peripheral surface and the inner peripheral surface of the existing fluid pipe of the locking portion can be optimized. The rust prevention part can contact the cutting surface without gaps while being elastically deformed while being pressed from the pressing part toward the cutting surface, and by holding the rust prevention part in contact with the cutting surface, Even if the pressing portion receives a reaction force from the rust prevention portion due to the elastic force, the locking portion surely has a stronger locking force than the reaction force. It can be locked to only one of the inner peripheral surfaces, and can keep the rust preventive cover in contact with the cut surface.

The antirust cover of the present invention is
The plurality of locking portions are locked to the outer peripheral surface of the existing fluid pipe.
According to this feature, the inner peripheral surface of the existing fluid pipe is not damaged by the locking portion, so that it is not necessary to apply a rust preventive treatment such as application of a rust preventive paint to the inner peripheral surface.

The antirust cover of the present invention is
The plurality of locking portions are formed in a barb shape that is bent toward the rust prevention portion side toward only one of the outer peripheral surface and the inner peripheral surface of the existing fluid pipe.
According to this feature, even if a force is applied to the rust-proof cover in a direction away from the cut surface after the rust-proof portion and the cut surface are in contact with each other, the locking portion can be Since it strongly bites into only one of the peripheral surfaces, it is possible to reliably maintain the contact and retention of the rust preventive cover on the cut surface.

It is a partially broken top view which shows the existing fluid pipe | tube cut | disconnected in the Example. It is a fragmentary sectional view which shows the antirust cover of the state hold | maintained at the antirust operation body in the work case. It is sectional drawing which shows the state by which the antirust operation body is arrange | positioned in the housing | casing. It is AA sectional drawing of the housing | casing in FIG. (A) is a front view which shows a rust prevention cover, (b) is BB sectional drawing of the rust prevention cover in Fig.5 (a), (c) is a rear view which shows a rust prevention cover. It is. (A) is a side view which shows a rust prevention operation body, (b) is a vertical side view of a rust prevention operation body. (A) is sectional drawing which shows the state which has arrange | positioned the antirust cover facing the cut surface, (b) is sectional drawing which shows the state by which the antirust cover was contact | abutted and held by the cut surface, (c ) Is a cross-sectional view showing a state in which the locking of the first locking member to the rust preventive cover is released. It is a rust prevention cover sectional view as a modification.

  EMBODIMENT OF THE INVENTION The form for implementing the antirust cover which concerns on this invention is demonstrated below based on an Example.

  The antirust cover according to the embodiment will be described with reference to FIGS. In this embodiment, the direction perpendicular to the tube axis direction of the existing fluid pipe in the horizontal direction will be described as the left-right width direction of the anticorrosion cover.

  Reference numeral 1 in FIG. 1 is an existing fluid pipe to which the rust prevention method for a cut surface of the existing fluid pipe of the present invention is applied. The existing fluid pipe 1 is, for example, a water pipe in which clean water as a fluid flows inside, and in order to provide a new valve body or the like in the existing fluid pipe 1, a predetermined portion such as a hole saw or the like is cut. It has been cut by a tool.

  As shown in FIGS. 1 and 2, first, a casing 2 for watertightly sealing the existing fluid pipe 1 is attached to the existing fluid pipe 1. A partition portion 3 having a valve body 3a that can be opened and closed by sliding in the horizontal direction is attached to the upper portion of the housing 2 in a watertight manner.

  A work housing provided with a hole saw (not shown) is attached to the upper end of the partition part 3 in a watertight manner, and the hole saw is moved downward with the valve body 3a opened, so that the existing fluid pipe 1 is kept in an uninterrupted state. Disconnect. Therefore, the cut surface 1a of the existing fluid pipe 1 is formed in an arc shape in plan view by being cut by the hole saw.

  After the existing fluid pipe 1 is cut, the valve body 3a is closed after the hole saw and the cut piece of the existing fluid pipe 1 are accommodated in the work casing, and the work casing is removed from the partition portion 3 to remove the existing fluid pipe 1 End the cutting work. At this time, the existing fluid pipe 1 is sealed in a watertight manner by the housing 2 and the partition part 3 in a cut state.

  The antirust cover 5 of the present invention is an antirust cover 5 for antirusting the cut surface 1a of the existing fluid pipe 1 cut in the housing 2 as described above.

  As shown in FIG. 2, a work case 4 is attached to the upper end portion of the partition portion 3 in a watertight manner. In the work case 4, rust prevention covers 5 and 5 for rusting the cut surfaces 1 a and 1 a of the existing fluid pipe 1 are arranged in a state of being held by the rust prevention operation body 6. Further, a through hole 4a is formed in the upper center portion of the work case 4 so as to face in the vertical direction.

  Furthermore, the upper end of the work case 4 is provided with a cylindrical body 7a facing upward and downward, and an operation rod 7b inserted and disposed in the cylindrical body 7a. The operation rod 7b is rotatable in the horizontal direction within the cylinder 7a, and a packing (not shown) is provided at the upper end of the inner peripheral surface of the cylinder 7a. The portion and the operating rod 7b are kept watertight. Moreover, the cylindrical body 7a is inserted and disposed in the work case 4 through the through hole 4a, and the rust preventive operating body 6 is suspended at the lower end. In addition, packing which is not illustrated is provided between the cylinder 7a and the through-hole 4a, and between the cylinder 7a and the through-hole 4a is kept watertight.

  As shown in FIG. 3, after the valve body 3a is opened from this state, the user pushes the cylinder body 7a downward together with the operation rod 7b, whereby the rust prevention cover 5 held by the rust prevention operation body 6 is obtained. Is arranged at a position facing the cut surfaces 1a, 1a of the existing fluid pipe 1.

  As shown in FIGS. 6A and 6B, the rust-proof operating body 6 has a pair of holding parts 8 and 8 into which the rust-proof cover 5 is inserted and held, and both holding parts 8 and 8 are already provided. The jack 9 is moved toward the cut surface 1a of the fluid pipe 1, and the guide portion 10 is provided with the jack 9 inside to guide the movement of the holding portions 8, 8 to the cut surface 1a. Yes. As shown in FIG. 6 (a), the pair of holding portions 8, 8 and the jack 9 and the guide portion 10 are provided approximately symmetrically with respect to the left and right sides of the figure. The structure will be described.

  The guide part 10 is formed in a frame shape whose central axis faces the same direction as the pipe axis direction of the existing fluid pipe 1. A pair of upper and lower key grooves 10a are formed at the end on the central axis direction side of the inner peripheral surface of the guide portion 10 toward the outer side in the central axis direction of the guide portion 10. Further, a leg portion 10 b that comes into contact with the bottom surface in the housing 2 is provided at the lower portion of the end portion on the central axis direction side of the guide portion 10 in order to arrange the anticorrosion operation body 6 in the housing 2. A rubber piece 10g is attached to the bottom surface of the leg portion 10b.

  Further, as shown in FIGS. 4 and 6A, a pair of guide pieces 10f, 10f facing the left-right width direction of the guide portion 10 are provided at the lower end portions of the guide portion 10 in the left-right width direction. 10 opposite to the central axis direction.

  On the other hand, as shown in FIGS. 3 and 4, a guide protrusion 2 a is provided on the inner side surface of the housing 2 on the left and right width direction side so as to face the central axis direction of the guide portion 10 from the upper side to the lower side. Yes. The width dimension of the guide protrusion 2a on the side of the central axis direction of the guide portion 10 is shorter than the width dimension between the opposing side surfaces between the two guide pieces 10f, 10f, and the rust prevention cover 5 is provided. When the guide rib 2a is disposed between the two guide pieces 10f and 10f when the fluid pipe 1 is disposed at a position facing the cut surface 1a, the leg portion 10b of the rust preventive operating body 6 is placed in the existing fluid pipe 1. Can be brought into contact with the bottom surface of the housing 2 without being influenced by the fluid flowing through the casing 2.

  As shown in FIG. 6B, through holes 10 d and 10 e that are substantially coaxial and face in the vertical direction are formed in the upper and lower portions of the center of the guide portion 10. The lower part of the operation rod 7b is inserted and arranged in the guide part 10 through these through holes 10d and 10e. A lower portion of the operation rod 7b disposed in the guide portion 10 is formed on a shaft portion 7c formed with a right screw. In addition, the cylindrical body 7a suspends the guide part 10 by connecting a lower end part to the upper end part of the guide part 10 with a volt | bolt. Furthermore, the lower end portion of the operation rod 7b is disposed below the guide portion 10 through the through hole 10e, and the bolt 12 is screwed to the lower end portion of the operation rod 7b so that the operation rod 7b is The guide portion 10 can also be rotated in the horizontal direction.

  The holding part 8 faces the pipe axis direction of the existing fluid pipe 1, is shorter than the guide part 10, and has a vertical width dimension substantially the same as the diameter of the existing fluid pipe 1. The upper and lower ends of the holding portion 8 are provided with slide protrusions 8a that can be inserted into the key grooves 10a formed in the guide portion 10, and the holding portion 8 inserts the slide protrusions 8a into the key grooves 10a. It arrange | positions at the both ends of the pipe-axis direction side in the guide part 10 in the state arrange | positioned in the inside.

  For this reason, the holding part 8 moves the slide protrusion 8a in the key groove 10a, thereby receiving the accommodation position accommodated in the guide part 10 shown in FIG. 7 (a) and FIG. 7 (b). The rust preventive cover 5 is slidable between a moving position where the rust preventive cover 5 is held in contact with the cut surface 1 a of the existing fluid pipe 1.

  In addition, holding members 11 project from the outer end of the holding portion 8 on the central axis direction side toward the outer side of the guide portion 10 in the central axis direction. These holding members 11 are made of a thin plate-like elastic body such as spring steel having elasticity, and the front end portion of the holding member 11 is bent and formed in a substantially arc shape toward the center direction of the guide portion 10. It is formed in the bent portion 11a. The elastic force of the holding member 11 is determined in advance by the user bending both the bent portions 11a toward the center of the holding portion 8 on the vertical width direction side and the center on the left and right width direction side, or in a direction away from the center. Adjustment is possible by keeping it.

  The jack 9 is disposed at the approximate center in the guide portion 10. The jack 9 is pivotally supported by a screwed portion 9a screwed to the shaft portion 7c of the operation rod 7b and a pivot shaft 13a having one end provided in the screwed portion 9a and facing in the left-right width direction. A pair of arms 9b, and the other end of each arm 9b, 9b is pivotably pivoted by a pivot 13b facing the holding width 8 facing each other in the guide section 10 in the left-right width direction. It is supported.

  For this reason, the jack 9 moves up and down in the shaft portion 7c of both screwed portions 9a, which is performed by the user turning the operating rod 7b in the horizontal direction, and the central axis of the guide portions 10 of both holding portions 8 is moved. It can be converted into movement to both sides of the direction side.

  As shown in FIGS. 5 (a), 5 (b) and 7 (a), the rust preventive cover 5 is used as a rust preventive part in the present invention for rusting the cut surface 1a over the entire circumference. The rust rubber 5a, the pressing plate portion 5e as a pressing portion in the present invention that presses the rust preventing rubber 5a toward the cut surface 1a, and the outer surface 1b of the existing fluid pipe 1 are engaged with the rust preventing cover 5 It comprises a claw portion 5c as a locking portion in the present invention that prevents separation from the cut surface 1a, and a guide ring 5d to which the rust preventive rubber 5a, the push plate portion 5e, and the claw portion 5c are fixed. Yes.

  The guide ring 5d is made of a metal material such as steel, and has an outer diameter that is substantially the same as the vertical width of both ends of the vertical piece 8b on the tube axis direction side. It is formed in substantially the same curved shape over the entire circumference with the end of the holding portion 8 on the tube axis direction side.

  As shown in FIGS. 5B and 5C, a plurality of claw portions 5c are fixed to the outer peripheral surface of the guide ring 5d by welding or the like at equal intervals (four in this embodiment). These claw portions 5c are formed of a thin plate-like elastic body such as spring steel having a larger elastic force than the holding member 11 and the rust preventive rubber 5a. Further, the rear end portions of the claw portions 5c are bent toward the diameter reducing direction so as to contact the back surface of the guide ring 5d to form a pressing plate portion 5e, and the front end portion 5f ( 6 (a) and 6 (c)), the guide ring 5d is bent toward the rust preventive rubber 5a side so as to be locked to the outer peripheral surface 1b of the existing fluid pipe 1. It is formed in the shape of a reed.

  Furthermore, an annular rust preventive rubber 5a is disposed on the front side of the pressing plate portion 5e on the inner peripheral surface of the guide ring 5d. The rust preventive rubber 5a is fixed to the front surface of the pressing plate portion 5e and the inner peripheral surface of the guide ring 5d with an adhesive or the like, and the front side of the rust preventive rubber 5a extends over the entire cut surface 1a. It is formed in the curved surface which contact | abuts.

  As shown in FIG. 7A, the rust-proof cover 5 configured in this way is from the back side with respect to the end portion on the tube axis direction side of each holding portion 8 disposed at the accommodation position of the guide portion 10. The holding member 11 is inserted toward the outer side of the holding portion 8 and is elastically deformed. For this reason, the holding part 8 uses the bending part 11a on the outer peripheral surface of the guide ring 5d by using the elastic force of the holding member 11 as a result of pressing from the antirust cover 5 in the direction of diameter reduction of the antirust cover 5 as a locking force. The rust preventive cover 5 is held by the contact.

  Next, the rust prevention operation | movement of the cut surface 1a by the rust prevention cover 5 hold | maintained at the holding | maintenance part 8 in this way is demonstrated. In this embodiment, rust prevention is simultaneously performed on both opposing cut surfaces 1a of the existing fluid pipe 1, but only the rust prevention for one cut surface 1a will be described for the same operation.

  First, as shown in FIGS. 2 and 3, the user opens the valve body 3a and pushes the cylinder body 7a downward together with the operation rod 7b to prevent the rust prevention cover 5 from being held. The rust operating body 6 is disposed in the housing 2. At this time, since the rust preventive cover 5 is locked by the bent portion 11 a of the holding member 11, the rust preventive cover 5 is prevented from falling off the holding portion 8 due to the resistance of the fluid flowing in the existing fluid pipe 1.

  Further, as shown in FIGS. 3 and 4, the rust preventive operating body 6 is configured so that the leg portion 10b is inserted into the bottom surface of the housing 2 through the rubber piece 10g while the guide protrusion 2a is inserted between the guide pieces 10f and 10f. The anticorrosive cover 5 and the cut surface 1a face each other (see FIG. 7A) without being affected by the resistance of the fluid flowing in the existing fluid pipe 1 by being brought into contact with each other (see FIG. 7A). It has become so.

  In addition, since the leg portion 10b contacts the bottom surface of the housing 2 via the rubber piece 10g, the bottom surface of the housing 2 is prevented from being damaged by the leg portion 10b directly contacting the bottom surface of the housing 2. ing. Further, even after the anti-corrosion operating body 6 is arranged at the arrangement position, the guide protrusion 2a is arranged between the two guide pieces 10f, 10f, and the leg portion 10b is disposed through the rubber piece 10g. By being in contact with the bottom surface of 2, it is possible to continue to secure the arrangement position in the housing 2 without being affected by the resistance of the fluid or the like flowing in the existing fluid pipe 1 continuously. Yes.

  From this state, as shown in FIGS. 7A and 7B, the user moves the holding portion 8 from the accommodation position to the movement position by rotating the operation rod 7b in the horizontal direction. By the movement of the holding portion 8 from the accommodation position to the movement position, the rust prevention cover 5 is moved toward the cut surface 1a. At this time, the claw portion 5c has the tip portion 5f abutting against the cut surface 1a and the movement of the holding portion 8 toward the moving position of the anticorrosion cover 5 by the cut surface 1a and the outer peripheral surface 1b of the existing fluid pipe 1. It is elastically deformed by being pressed toward the diameter increasing direction.

  Then, as shown in FIG. 7B, the rust preventive rubber 5a is moved to the cut surface 1a via the push plate portion 5e by further moving the holding portion 8 from the state where the claw portion 5c is elastically deformed to the moving position. The rust preventive rubber 5a is elastically deformed by contacting the front surface of the rust preventive rubber 5a and the cut surface 1a, and the rust preventive rubber 5a is brought into contact with the cut surface 1a without a gap.

  At this time, the claw portion 5c has the tip 5f as the outer periphery of the existing fluid pipe 1 with an elastic force that is generated on the outer peripheral surface 1b of the existing fluid pipe 1 as a result of elastic deformation and directed toward the reduced diameter direction of the existing fluid pipe 1 as a locking force. By contacting the surface 1b, the antirust cover 5 is held in contact with the cut surface 1a.

  After the rust preventive cover 5 is held in contact with the cut surface, as shown in FIG. 7C, the user reverses the direction when moving the rust preventive cover 5 toward the cut surface 1a. Then, the operating rod 7b is rotated to move the holding portion 8 from the moving position to the accommodating position, and the rust prevention operation to the cut surface 1a is completed.

  At this time, the rust-proof cover 5 has a force that moves from the holding member 11 toward the storage position by moving the holding portion 8 toward the storage position. However, as described above, the rust-proof cover 5 is more than the elastic force of the holding member 11. Since the elastic force of the claw portion 5c is stronger, the contact of the claw portion 5c with the existing fluid pipe 1 is maintained, so that the abutting and holding of the rust preventive cover 5 with respect to the cut surface 1a is maintained. The locking of the holding member 11 with respect to the rust-proof cover 5 is released while the holding member 11 is elastically deformed as the holding portion 8 moves toward the storage position.

  Further, in these series of rust prevention operations, the pressure applied to the rust prevention cover 5 by the jack 9 is such that the holding portion 8 presses the pressing plate portion 5e toward the cut surface 1a instead of the rust prevention rubber 5a which is an elastic member. Can be transmitted without loss, and the front surface of the rust preventive rubber 5a can be reliably brought into contact with the cut surface 1a.

  Further, the rust preventive rubber 5a is elastically deformed and brought into contact with the cut surface 1a to further elastically deform toward the back side of the rust preventive cover 5, but the rust preventive rubber 5a is pressed against the cut surface 1a. Since the plate portion 5e is sandwiched from the front-rear direction, the contact with the cut surface 1a can be stably maintained.

  In this embodiment, the claw portion 5c is formed in the pressing plate portion 5e by bending the rear end portion of the claw portion 5c, but the claw portion 5c is formed in an annular shape having substantially the same diameter as the rust preventive rubber 5a. And the front end portion 5f extending from the outer peripheral edge of the pressing plate portion toward the front side, the pressure received by the pressing plate portion from the holding portion 8 is made uniform over the entire circumference. The front surface of the rust preventive rubber 5a may be brought into contact with the cut surface 1a evenly.

  Furthermore, in this embodiment, the claw portion 5c is provided on the outer peripheral surface of the guide ring 5d, and the tip portion 5f of the claw portion 5c is engaged with the outer peripheral surface 1b of the existing fluid pipe 1, whereby the rust-proof cover 5 is cut. The claw portion 5c is provided on the inner peripheral surface of the rust preventive rubber 5a, and the tip portion 5f of the claw portion 5c is engaged with the inner peripheral surface of the existing fluid pipe 1 to prevent rust. The cover 5 may be held in contact with the cut surface 1a.

  As described above, the rust preventive cover 5 according to the present embodiment includes the annular rust preventive rubber 5a that is in contact with the cut surface 1a over the entire circumference, and the outer periphery of the existing fluid pipe 1 by the contact of the rust preventive cover 5a with the cut surface 1a. A plurality of claw portions 5c that are engaged with only one of the surface 1b and the inner peripheral surface, so that the rust preventive cover 5 is configured so that the rust preventive rubber 5a is brought into contact with the cut surface 1a while the claw portion By making 5c into a simple configuration in which the claw portion 5c is locked to either the outer peripheral surface 1b or the inner peripheral surface, it is possible to rust the cut surface 1a while keeping the manufacturing cost of the rust-proof cover 5 low. .

  Further, since the plurality of claw portions 5c are engaged with the outer peripheral surface 1b of the existing fluid pipe 1, the inner peripheral surface of the existing fluid pipe 1 is not damaged by the claw portions 5c. It is not necessary to apply rust prevention treatment such as coating.

  Further, since the plurality of claw portions 5c are locked to only one of the outer peripheral surface 1b and the inner peripheral surface of the existing fluid pipe 1 using the elastic force as a locking force, the elastic force of the claw portion 5c is adjusted. Thus, the locking force with respect to only one of the outer peripheral surface 1b and the inner peripheral surface of the existing fluid pipe 1 of the claw portion 5c can be optimized.

  The rust-proof cover 5 has a pressing plate portion 5e that presses the rust-proof rubber 5a toward the cut surface 1a, and the rust-proof rubber 5a is made of a member having an elastic force. Since the rust rubber 5a has a locking force stronger than the elastic force of the rust rubber 5a, the pressing plate portion 5e is held by the elastic force of the rust preventive rubber 5a by holding the rust preventive rubber 5a in contact with the cut surface 1a. Even if the reaction force directed to the direction of detachment from the cut surface 1a is received from the rust preventive rubber 5a, the claw portion 5c surely engages the outer peripheral surface 1b or the inner peripheral surface of the existing fluid pipe 1 with a locking force stronger than the reaction force. It can be locked to only one of them, and the rust preventive cover 5 can be kept in contact with the cut surface 1a.

  Further, since the plurality of claws 5c are formed in a barb shape bent toward the rust preventive rubber 5a toward only one of the outer peripheral surface 1b and the inner peripheral surface of the existing fluid pipe 1, the rust preventive rubber Even if a force is applied to the anticorrosion cover 5 in a direction away from the cut surface 1a after the 5a and the cut surface 1a are in contact with each other, the claw portion 5c can be formed on the outer peripheral surface 1b or the inner peripheral surface of the existing fluid pipe 1 by the force. Since it digs into only one of them, the rust preventive cover 5 can be reliably maintained in contact with the cut surface 1a.

  Although the embodiments of the present invention have been described with reference to the drawings, the specific configuration is not limited to these embodiments, and modifications and additions within the scope of the present invention are included in the present invention. It is.

  For example, in the above embodiment, the existing fluid pipe 1 is described as a water pipe through which clean water flows, but the fluid flowing in the existing fluid pipe 1 may be liquid other than water, such as petroleum, in addition to clean water, It may be a mixture of liquid and gas.

  Further, in the above-described embodiment, the distal end portion 5f of the claw portion 5c is bent toward the rust preventive rubber 5a toward the reduced diameter direction of the guide ring 5d so that the distal end portion 5f can be locked to the outer peripheral surface 1b of the existing fluid pipe 1. However, as shown in FIG. 8, the tip of the claw portion 5c is formed in a bent portion 5g that bends in a substantially arc shape toward the reduced diameter direction of the guide ring 5d. May be. Thus, by forming the front-end | tip part of the nail | claw part 5c in the bending part 5g, since the nail | claw part 5c latches to the outer peripheral surface 1b of the existing fluid pipe | tube 1 with the curved surface of the bending part 5g, the outer peripheral surface 1b is a nail | claw part. It can be made hard to be damaged by 5c.

  Moreover, in the said Example, the housing | casing 2, the partition part 3, and the working case 4 are attached to the existing fluid pipe | tube 1, and the antirust cover 5 is contact | abutted with respect to the cut surface 1a which cut | disconnected the existing fluid pipe | tube 1 in the uninterrupted flow state. The cut surface 1a is rust-proofed by holding, but after stopping the flow of fluid in the existing fluid pipe 1, the existing fluid pipe 1 is cut, and the user directly holds and holds the rust-proof cover 5 on the cut surface. You may make it rust prevent a cut surface.

  Moreover, in the said Example, although the existing fluid pipe | tube 1 was cut | disconnected with cutting tools, such as a hole saw, and the front side of the rust prevention cover 5 was formed in the curved surface which can contact | abut the cutting surface 1a, A cutting tool such as a cutting tool or a chain saw may be used to cut linearly, and the front side of the rust preventive cover 5 may be formed on a flat surface with respect to the cut surface.

  In the above embodiment, the push plate portion 5e is formed at the rear end portion of the claw portion 5c by bending toward the diameter reducing direction so as to contact the back surface of the guide ring 5d. The pressing plate portion may not be formed at the rear end portion of the claw portion 5c, but may be directly extended toward the diameter reduction direction side of the guide ring 5d with respect to the rear end portion of the guide ring 5d.

1 Existing fluid pipe 1a Cut surface 1b Outer peripheral surface 5 Rust prevention cover 5a Rust prevention rubber (rust prevention part)
5c Claw part (locking part)
5e Press plate part (press part)
5f Tip

Claims (3)

A rust-proof cover that rusts the cut surface by being held in contact with the cut surface of the existing fluid pipe cut in an annular shape,
The rust preventive part made of a member having an annular elastic force that makes contact with the cut surface over the entire circumference, a guide ring formed in an annular shape, and the rust preventive part coming into contact with the cut surface, the existing fluid A plurality of locking portions that are locked only to either the outer peripheral surface or the inner peripheral surface of the pipe , and the rust prevention portion is disposed on the inner peripheral surface of the guide ring, and the outer peripheral surface of the guide ring In the circumferential direction, a plurality of the locking portions consisting of a claw portion whose tip portion abuts against the cutting surface and elastically deforms and a push plate portion that presses the rust prevention portion toward the cutting surface are fixed, wherein the plurality of engaging portions, rust-preventing cover, characterized that you have a strong locking force than the elastic force of the rust section.   The rust preventive cover according to claim 1, wherein the plurality of locking portions are locked to the outer peripheral surface of the existing fluid pipe. The plurality of locking portions are formed in a barb shape that is bent toward the rust prevention portion side toward only one of the outer peripheral surface and the inner peripheral surface of the existing fluid pipe. Item 3. An antirust cover according to item 1 or 2 .

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