RU92814U1 - MANUAL TOOL FOR CALIBRATING THE END OF PLASTIC OR METAL-PLASTIC PIPES AND REMOVING THE CHAIN - Google Patents

Abstract

 1. A hand tool for calibrating the ends of plastic or metal-plastic pipes and chamfering, comprising a body made of polymeric material with a central hole and made with the body in one piece with three hole gauges located radially outwardly uniformly around the circumference, as well as a chamfer made in the form of a glass, installed in the opening of the housing with fixation from the longitudinal relative to the housing movement in the direction of the cavity of the glass and from relative rotation, with each caliber in Full a stepped rod positioned with the free end of the cylindrical portion caliber and configured Flat skimmers positioned within the axial cavity of its bottom conical protrusion on the side surface of which are fixed arranged along the generatrices of the conical surface of the incisors. ! 2. The tool according to claim 1, characterized in that the calibrating cylindrical sections of three calibres are made with different diameters equal to 12, 16 and 20 mm, respectively. ! 3. The tool according to claim 1, characterized in that the rod of each caliber is made of two stages, and the step of at least one caliber located on the side of the housing is made with an additional calibrating cylindrical surface. ! 4. The tool according to claim 3, characterized in that the diameter of the additional calibrating cylindrical surface is 26 mm. ! 5. The tool according to claim 1, characterized in that each caliber is made with an end chamfer, comprising an angle of 30 ° with its axis. ! 6. The tool according to claim 1, characterized in that the hole in the housing is made with a hexagonal side surface, and the chamfer is �

Description

The utility model relates to construction, and specifically to a hand tool for calibrating the ends of plastic or metal-plastic pipes and chamfering, which is used when installing water supply and water heating systems for buildings and structures using plastic and metal-plastic pipes of standard sizes with external diameters 16, 20, 26 and 32 mm.

A known tool for manual flaring of the ends of multilayer pipes, an operation that, in the case of this particular tool, is similar to the Russian calibration of the ends of the pipes, made in the form of extenders uniformly spaced radially around the circumference and connected in the center, of different diameters, each of which is separated from the mating zone by a ring, having chamfering tools on the side surfaces facing the expanders (JP 2008264835 A, IPC B21D 41/02 (2006.01), 2008).

Flaring is carried out by manually introducing the expander into the cavity of the pipe when turning and, as the flared end of the pipe passes to the ring, the chamfer is removed from the end face of the cutters.

The tool, unified for the three pipe sizes, is convenient for manual use, but because of the need for manual rotation, it is uneven, since the friction force on the inner surface of the pipe is large and, if necessary, the application of axial force, the chamfer is removed non-uniformly.

Known manual tool for calibrating the ends of plastic or metal pipes and chamfering, made in the form of a stepped rod with a T-shaped handle. The rod steps are cylindrical gauges in series, with a smaller diameter gauge at the end of the rod opposite the end with the handle, and then a larger diameter gauge in the direction of the handle. In the transition zone from the gauge of smaller diameter to the gauge of larger diameter, as well as in the transition zone from the caliber of larger diameter to the annular thickening, there are cutters in front of the handle for chamfering the end of the calibrated pipe end (DE 202005017875 U1, IPC ВСС 37/02 (2006.01), 2006).

The work is carried out similarly as described above, the end of the gauge is manually inserted into the pipe with rotation and when the end of the pipe reaches the cutters, the inner bevel is removed. The tool can be used to calibrate pipes of two sizes, that is, at the first or second stage of the rod.

This well-known tool allows calibration of pipes of only two sizes and if pipes of a larger number of sizes are used when installing a water supply or water heating system, then the installer needs to use another similar tool to calibrate them, which expands the range of tools used during installation.

The use of a known tool for the above reasons results in uneven removal of the inner chamfer. In addition, since the cutters are made directly on the tool body in one piece with it, the tool must be made of a sufficiently wear-resistant metal alloy, which makes it heavy and not convenient when carrying out installation work, accompanied by transitions of installers to different areas of work. From a metal alloy, it is enough to make cutters that are located outside in this known solution, which reduces the safety of using the tool, because the installer can easily cut himself against sharp cutting edges. The use of a metal alloy to form calibration surfaces is not justified, since less hard and lighter materials than wear-resistant metal alloy can be used to calibrate plastic materials of plastic and metal-plastic pipes.

The technical result of this utility model consists in the ability to calibrate at least three standard sizes of plastic and metal-plastic pipes with one tool, and preferably four standard sizes pipes with outer diameters of 16, 20, 26 and 32 mm, as well as to remove the inner chamfer at the ends pipe ends. The tool allows you to separate the calibration node and the chamfer from each other and calibrate and chamfer the two installers in parallel, using the specified node and chamfer as separate tools. The tool is distinguished by reliability, lightness, ease of use, safety, replaceability of the chamfer, use of inexpensive technological polymer materials for manufacturing.

The specified technical result is provided by a hand tool for calibrating the ends of plastic or metal-plastic pipes and chamfering, which comprises a housing made of a polymeric material with a central hole and made with the housing in one piece with three calibrated holes located radially from the outside along the circumference, as well as a chamfer made in in the form of a glass installed in the opening of the housing with fixation from the longitudinal relative to the housing moving in the direction of the cavity glass and the relative rotation.

Each caliber is made in the form of a stepped rod with a calibrating cylindrical section located on the side of the free end.

The chamfer is made with an axial bottom conical protrusion located inside its cavity, on the side surface of which cutters located along the generatrices of the conical surface are fixed.

In an optimal embodiment of the utility model, the calibrating cylindrical sections of three calibres are made with different diameters equal to, respectively, 12, 16 and 20 mm.

In a preferred embodiment, the rod of each caliber is made two-stage, and the step located on the side of the housing of at least one caliber is made with an additional calibrating cylindrical surface, which may have a diameter equal to 26 mm

In a preferred embodiment, each caliber is made with an end chamfer, making an angle of 30 ° with its axis.

The hole in the housing can be made with a hexagonal side surface, and the chamfer can have a hexagonal outer side surface, which it fits with an interference fit with the side surface of the hole in the housing.

Preferably, when the beveller is made with flanging outward along the edge of the glass, paired with the end of the housing. The diameter of the cavity of the glass is usually not less than 32 mm, and the bottom conical protrusion of the chamfer is made with an angle at the apex of the cone, which is 40 °.

The chamfer in the best case is made with three cutters arranged evenly around the circumference. The cutters are fitted with an interference fit in the holes in the form of a rectangular parallelepiped made in an axial bottom conical protrusion. Each cutter is made with a sharpening angle of the longitudinal cutting edge equal to 10 °. The cutters are oriented by the cutting faces in a clockwise direction from the side of the glass cavity.

The case is in the best case made of acrylonitrile butadiene styrene. The chamfer is also made in the best case of a polymeric material, in particular also of acrylonitrile butadiene styrene. Gauges can be made hollow.

The utility model is illustrated by the examples shown in the drawings.

Figure 1 shows a hand tool for calibrating the ends of plastic or metal-plastic pipes and chamfering with an installed chamfer, front view of the cavity of the chamfer. Figure 2 presents a side view. Figure 3 shows a longitudinal section of a chamfer removed from a tool. Figure 4 shows the cross section of the cutter.

The housing 1, made of acrylonitrile butadiene styrene, is made with a Central hole 2 (figure 2) and in one piece with three gauges 3 holes located radially from the outside uniformly around the circumference. The chamfer 4 is also made of acrylonitrile butadiene styrene in the form of a cup mounted in the hole 2 of the housing 1. Each caliber 3 is made in the form of a two-stage rod with a calibrating cylindrical section 5 located on the free end side. For three calibers 3, the calibrating cylindrical sections 5 are made with different diameters equal to , respectively, 12, 16 and 20 mm. Located on the side of the housing 1 step 6 of one caliber 3 is made with an additional calibrating cylindrical surface 7, which has a diameter of 26 mm Each caliber 3 is made with end chamfer 8, making an angle of 30 ° with its axis. Gauges 3 can be made hollow (this option is not shown in the drawings).

The hole 2 in the housing 1 is made with a hexagonal side surface, and the chamfer 4 has a hexagonal outer side surface 9 (Fig. 3), which it mates with an interference fit with the side surface of the hole 2 in the housing 1, thereby preventing rotation relative to the housing 1 of the chamfer 4.

For fixing from the longitudinal relative to the housing 1 movement in the direction of the cavity 9, the chamfer 4 is made with a flange 10 (figure 2) outward along the edge of the glass, conjugated with the end face 11 of the housing 1.

The chamfer 4 (FIG. 3) is made with an axial bottom conical protrusion 12 having a 40 ° angle at the apex located inside its cavity 9, made cylindrical with a diameter of 34 mm (minimum size 32 mm). On the lateral surface 13 of the conical protrusion 12, three cutters 14 are arranged uniformly around the circumference along the generatrices of the conical surface 13, which are fitted with an interference fit in the holes in the form of a rectangular parallelepiped made in the axial bottom conical protrusion 12. Each cutter 14 is made with a sharpening angle of the longitudinal cutting edge equal to 10 ° (Fig. 4), and the cutters 14 are oriented by these faces in a clockwise direction from the cavity 9 of the chamfer 4.

To calibrate the hole diameter of the end of a plastic or metal-plastic pipe, the installer introduces a gauge 3 of suitable diameter into the pipe hole, accompanying the feed movement by turning the tool around the axis of gauge 3, which ensures calibration of the pipe diameter. To chamfer after the calibration operation, the end of the pipe is inserted into the cavity 9 of the chamfer 4 to the stop, after which the tool is rotated by an angle of at least 120 °, so that the cutters 14 remove the inner chamfer at the end of the pipe. Similarly, the chamfering operation is carried out with the chamfer 4 removed from the housing 1.

Claims (16)

1. A hand tool for calibrating the ends of plastic or metal-plastic pipes and chamfering, comprising a body made of polymeric material with a central hole and made with the body in one piece with three hole gauges located radially outwardly uniformly around the circumference, as well as a chamfer made in the form of a glass, installed in the opening of the housing with fixation from the longitudinal relative to the housing movement in the direction of the cavity of the glass and from relative rotation, with each caliber in Full a stepped rod positioned with the free end of the cylindrical portion caliber and configured Flat skimmers positioned within the axial cavity of its bottom conical protrusion on the side surface of which are fixed arranged along the generatrices of the conical surface of the incisors. 2. The tool according to claim 1, characterized in that the calibrating cylindrical sections of three calibres are made with different diameters equal to 12, 16 and 20 mm, respectively. 3. The tool according to claim 1, characterized in that the rod of each caliber is made of two stages, and the step of at least one caliber located on the side of the housing is made with an additional calibrating cylindrical surface. 4. The tool according to claim 3, characterized in that the diameter of the additional calibrating cylindrical surface is 26 mm. 5. The tool according to claim 1, characterized in that each caliber is made with an end chamfer, comprising an angle of 30 ° with its axis. 6. The tool according to claim 1, characterized in that the hole in the housing is made with a hexagonal side surface, and the chamfer is with a hexagonal outer side surface that is mated with an interference fit with the side surface of the hole in the housing. 7. The tool according to claim 1, characterized in that the chamfer is made with flanging outward along the edge of the glass, paired with the end of the housing. 8. The tool according to claim 1, characterized in that the diameter of the cavity of the glass is at least 32 mm, and the bottom conical protrusion of the chamfer is made with an angle at the apex of the cone equal to 40 °. 9. The tool according to claim 1, characterized in that the chamfer is made with three cutters arranged uniformly around the circumference. 10. The tool according to claim 1, characterized in that the cutters are tightened in the holes made in the shape of a rectangular parallelepiped made in an axial bottom conical protrusion. 11. The tool according to claim 1, characterized in that each cutter is made with a sharpening angle of the longitudinal cutting edge equal to 10 °. 12. The tool according to claim 1, characterized in that the cutters are oriented by the cutting faces in a clockwise direction from the side of the glass cavity. 13. The tool according to claim 1, characterized in that the housing is made of acrylonitrile butadiene styrene. 14. The tool according to claim 1, characterized in that the chamfer is made of a polymer material. 15. The tool according to 14, characterized in that the chamfer is made of acrylonitrile butadiene styrene. 16. The tool according to claim 1, characterized in that the gauges are hollow.