RU51705U1 - TELESCOPIC ELEMENT PRODUCTION SYSTEM - Google Patents

Abstract

The utility model relates to the engineering industry and, in particular, to the production of telescopic elements

The essence of the utility model consists in the fact that the pipe blanks are made from one blank with an annular gap between the inner surface of the outer and outer surfaces of the inner blanks, respectively, the matrix is made with inclined side walls with a V- or U-shaped cross section, the punch, respectively, with a mirror made cross sections of the matrix, the mandrel along the length of the pipe blanks is made conical, and along the cross section - in the form of a polyhedron or with a curved perimeter

Description

The utility model relates to the engineering industry and, in particular, to the production of telescopic elements

A known system for the production of telescopic elements, including interconnected tube blanks with a matrix, punch and mandrel, / see Polytechnical Dictionary, M., S.E., 1989, p. 506 /

Also known is a system for the production of telescopic elements, which includes interconnected tube blanks with a die, punch and mandrel, / cm. Polytechnical Dictionary, M., S.E., 1989, p. 491 /

The disadvantages of the known utility models are relatively low quality due to insufficient accuracy of movement relative to each other with minimal backlash and narrow technological capabilities due to the relatively narrow range of pipe diameters

blanks, the high complexity of the selection of external and internal blanks, as well as relatively low bending strength due to the absence of longitudinal stiffeners

The purpose of the utility model is to improve the quality and productivity of the production of telescopic elements

This is achieved by the fact that the tube blanks are made of different sizes from the same tube with an annular gap between the inner surface of the outer and outer surfaces of the inner blanks, respectively, the matrix is made with inclined side walls with a V- or U-shaped cross section, the punch, respectively, with mirror cross sections matrices, the mandrel along the length of the pipe blanks is made conical, and along the cross section in the form of a polyhedron or with a curved perimeter

It is advisable that the pipe blanks were made of steel

It is useful that the tube blanks are made of alloy steel

It is advisable that the pipe blanks were made of stainless steel

It is useful that the tube blanks are made of aluminum-containing steel

It is advisable that the pipe blanks were made of boron steel

It is useful that the tube blanks are made of vanadium steel

It is advisable that the tube blanks were made of tungsten-containing steel

It is useful that the pipe blanks are made of cobalt-containing steel

It is advisable that the pipe blanks were made of silicon-containing steel

It is useful that the tube blanks are made of manganese steel

It is advisable that the tube blanks were made of copper-containing steel

It is useful that the tube blanks are made of molybdenum-containing steel

It is advisable that the pipe blanks were made of nickel-containing steel

It is useful that the tube blanks are made of niobium-containing steel

It is advisable that the tube blanks are made of titanium-containing steel

It is useful that the tube blanks are made of carbon steel

It is advisable that the pipe blanks were made of chromium-containing steel

It is useful that the tube blanks are made of non-ferrous metals

It is advisable that the pipe blanks were made of light non-ferrous metals

It is useful that the tube blanks are made of heavy non-ferrous metals

It is advisable that the pipe blanks were made of aluminum

It is useful that the tube blanks are made of titanium

It is advisable that the pipe blanks are made of magnesium

It is useful that the tube blanks are made of copper

The system meets all the requirements of the features of a utility model, namely

- a sign of novelty, since the pipe blanks are made of different sizes

- a sign of the presence of a structural element, since the pipe blanks are made from one blank

- the sign of the presence of communication between the elements, since the pipe blanks are performed with an annular gap

- a sign of the relative position of the elements, since the pipe blanks are performed with an annular gap between the inner surface of the outer and outer surface of the inner blanks, respectively,

- a sign of the form of execution of the elements, since the matrix is performed with inclined side walls with a V- or U-shaped cross section,

- the sign of the form of communication between the elements, since the punch is, respectively, with mirror cross sections of the matrix

- the sign of the parameters and their relationship, since the mandrel along the length of the pipe blanks is made conical, and along the cross section in the form of a polyhedron or with a curved perimeter,

feature of the material from which the element is made, since the tube blanks are made of copper

Figure 1 shows a diagram of a production system of multifaceted telescopic elements, a cross section

In Fig.2 - the same elements with a curved perimeter

The production system of telescopic elements includes interconnected pipe billets 1 with a matrix 2, a punch 3 and a mandrel 4, while the pipe billets 1 are made different from one billet with an annular gap 5 between the inner surface 6 of the outer 7 and the outer surface 8 of the inner 9, respectively, of the blanks 1 element 10, the matrix 2 is performed with inclined side walls 11 with a V-12 or U-shaped 13 cross-section, the punch 3 - respectively, with a mirror-made cross-sections of the matrix 2, the mandrel 4 along the length of the pipe blanks 1 is made conical, and along the cross section in the form of a polyhedron 14 or with a curved perimeter 15, and the pipe blanks 1 are made of steel, or alloy steel, or stainless steel, or from aluminum-containing steel, or from boron-containing steel, or from vanadium-containing steel, or from tungsten-containing steel, or from cobalt-containing steel, or from silicon-containing steel, or from manganese-containing steel, or from copper-containing steel, or from molybdenum-containing steel, or from nickel-containing steel, or from niobium-containing steel, or from titanium-containing steel, or from carbon-containing steel, or from chromium-containing steel, or

non-ferrous metals, or from light non-ferrous metals, or from heavy non-ferrous metals, or from aluminum, or from titanium from magnesium, or from copper

The system is as follows

First, interconnected pipe blanks 1 with a matrix 2, a punch 3 and a mandrel 4 are prepared for work, while the pipe blanks 1 are made from one blank with an annular gap 5 between the inner surface 6 of the outer 7 and the outer surface 8 of the inner 9, respectively, of the blanks 1 of the rack 10 , the matrix 2 is performed with inclined side walls 11 with a V-12 or U-shaped 13 cross-section, the punch 3 is respectively with mirror-shaped cross-sections of the matrix 2, the mandrel 4 along the length of the pipe blanks 1 is performed to full, and in cross section - in the form of a polyhedron 14 or with a curved perimeter 15, and the pipe blanks 1 are made of steel, or alloy steel, or stainless steel, or aluminum-containing steel, or boron-containing steel, or vanadium-containing steel, or from tungsten-containing steel, or from cobalt-containing steel, or from silicon-containing steel, or from manganese-containing steel, or from copper-containing steel, or from molybdenum-containing steel, or from nickel-containing steel, or from niobium-containing steel, or from titanium containing steel or carbon-steel or chromium-containing steel or non-ferrous metals, non-ferrous or light metal or of heavy non-ferrous metals or aluminum, or titanium, magnesium, or

copper, then different-sized tube blanks 1 are arranged in pairs in pairs, the mandrel 4 is placed inside, the assembly is placed in the matrix 2, the mandrel 4 is oriented relative to the vertical axis of symmetry of the matrix 2 and the working stroke of the punch 3 is made, which gradually compresses the pairwise arranged blanks 1 between the matrix 2 and the punch 3 and receiving the workpiece of the rack, then turn on the punch on the reverse stroke and release the matrix, while due to underpressing in the blanks of the matrix and punch, the elastic force of the presses is formed ki of blanks and the latter get the possibility of mutual telescopic displacement, if necessary, form equally spaced supports and multidirectional grooves and repeat the cycle

Claims (25)

1. The production system of telescopic elements, including interconnected tube blanks with a matrix, a punch and a mandrel, characterized in that the tube blanks are made with an annular gap between the inner surface of the outer and outer surfaces of the inner blanks, respectively, the matrix is made with inclined side walls with V- or U-shaped cross-section, punch, respectively, with mirror cross-sections of the matrix, the mandrel along the length of the pipe blanks is made conically d, and along the cross section - in the form of a polyhedron or with a curved perimeter. 2. The system according to claim 1, characterized in that the pipe blanks are made of steel. 3. The system according to claim 1, characterized in that the pipe blanks are made of alloy steel. 4. The system according to claim 1, characterized in that the pipe blanks are made of stainless steel. 5. The system according to claim 1, characterized in that the pipe blanks are made of aluminum-containing steel. 6. The system according to claim 1, characterized in that the pipe blanks are made of boron steel. 7. The system according to claim 1, characterized in that the pipe blanks are made of vanadium-containing steel. 8. The system according to claim 1, characterized in that the pipe blanks are made of tungsten-containing steel. 9. The system according to claim 1, characterized in that the pipe blanks are made of cobalt-containing steel. 10. The system according to claim 1, characterized in that the pipe blanks are made of silicon-containing steel. 11. The system according to claim 1, characterized in that the pipe blanks are made of manganese-containing steel. 12. The system according to claim 1, characterized in that the pipe blanks are made of copper-containing steel. 13. The system according to claim 1, characterized in that the pipe blanks are made of molybdenum-containing steel. 14. The system according to claim 1, characterized in that the pipe blanks are made of nickel-containing steel. 15. The system according to claim 1, characterized in that the pipe blanks are made of niobium-containing steel. 16. The system according to claim 1, characterized in that the pipe blanks are made of titanium-containing steel. 17. The system according to claim 1, characterized in that the pipe blanks are made of carbon steel. 18. The system according to claim 1, characterized in that the pipe blanks are made of chromium-containing steel. 19. The system according to claim 1, characterized in that the pipe blanks are made of non-ferrous metals. 20. The system according to claim 1, characterized in that the pipe blanks are made of light non-ferrous metals. 21. The system according to claim 1, characterized in that the pipe blanks are made of heavy non-ferrous metals. 22. The system according to claim 1, characterized in that the pipe blanks are made of aluminum. 23. The system according to claim 1, characterized in that the pipe blanks are made of titanium. 24. The system according to claim 1, characterized in that the pipe blanks are made of magnesium. 25. The system according to claim 1, characterized in that the pipe blanks are made of copper.