SU747556A1 - Female die for pressing sections - Google Patents

Description

(54) MATRIX FOR.PRESSING PROFILES

one

The invention relates to the field of metal forming, and more specifically to the field of extrusion of profiles.

The known matrix for pressing profiles contains a calibrating area with a profile point and a lead-in area in the form of a funnel emerging from a large base on the working end of the matrix, the surface of which is formed by straight circumferential circles with arcs with a variable radius.

The radius of the arcs in such a matrix is inversely proportional to the length of the projection of the corresponding streamline of the material on the plane perpendicular to the pressing axis l.

However, this matrix has a significant drawback. When it is used, the quality of the surface of the pressed products is deteriorated due to the absence of a zone of hindered deformation at the interface between the matrix and the container, and this leads to a free transition of the surface layer of the workpiece to the surface of the product. In addition, the known mattress does not allow the pressing of cladding poufili, since in the case of inserting into the container a washer made from a floating metal located between the workpiece and the matrix, the cladding washer is completely extruded in the initial stage of pressing.

The aim of the invention is to increase

10 uniformity of coating when pressing clad profiles.

The goal is achieved by the fact that the base of the funnel is made in the form of a circle that describes the area of the core point.

Claims (1)

15 . on the working end of the matrix, while the cross-sectional area of the middle of the spout is equal to the half-sum of the areas of its base and the profile point of the matrix. Fig. 1 shows the matrix, the general view; FIG. 2 is a view from the side of the working end of the matrix; in fig. 3 is a section A-L of FIG. one; in fig. 4 - section BB of FIG. one; in fig. 5 is a sectional view BB of FIG. one; in fig. 6 shows the mutual position of the tool in the pressing process. The opening of the entry funnel, sl-its more large base, is made around the circumference 1 at the working end 2 of the matrix. Okrua 1stost 1 is the okruga described for 7 dyu. The contour of contour 3 points contour at the end. The inner surface 4 of the lead-in funnel of the matrix is formed straight, with arcs with circles, and the arc radius and length of the projection of the corresponding current on the plane perpendicular to the pressing axis have a variable value, and the radius arc is inversely proportional to the length of the project. The configuration of the cross sections taken at different height of the cavity of the funnel gradually changes, gradually approaching from the circumference of the base 1 to the shape of the profile point 4 of the matrix, i.e. WP: i-7F., While maintaining the relationship with rfolEim the area of the mean priest of the funnel section, i.e. cross-section, taken on the height of the funnel on the floor, the area around the crater, which serves as the basis of the pellet; the area of the profile point of the matrix. The smooth transition of the shape of the cavity of the funnel from the circle on its larger base to the configuration of the profile core of the matrix at the smaller axis ocjnaecT is due to the formation of concave sections of the section that match the convex sections, and the radii of the convex sections gradually increase as 7i infinity straight line), and the radii of the concave sections decrease, running toward the radii of rounding of the gauge hole of the matrix point. The working end 2 of the mat is mated to the cylindrical cavity of the container 5, in which the washer 6 adjacent to the matrix 6 from the plating metal and the blank 7 from the base metal or alloy is placed. From the opposite side of the matrix, press stamp 8 enters the cavity of container 5. Matritsha works as follows: Sheyb 6 and eachoche 7; the cavity of the container 5 of the press. Then, by pressing the press piece 8, they inform the preparation of the washer the hfessing force, under the influence of which the workpiece is compressed in the cavity of the container, and the metal washer (for example, pure agom) shash partially out through the point of the matrix, but more the part fills the annular space bounded by the plane of the matrix and adjacent to the last section of the cylinder surface of the internal cavity of the container 5, thus forming the conical surface of the estuary-south expiration,. When the nominal amount of force is reached, after pressing the stamp 8 to the workpiece 7, the material of the latter is extruded through the profile point of the matrix in to: having a steady flow, carries the layer of material of the washer 6 uniform then into the inlet funnel of the matrix, the uniformity of the thickness of the washer the layer of material of the washer is supported both by making a larger base of the funnel in the shape of a circle, t-whale, and thanks to the made up of the cavity of the funnel with a surface formed by straight lines mating with circular arcs for the sake of which is inversely with: length of the projection corresponding proporshyunalen streamlines on the plane perpendit sulgfnuyu-axis compression. As a result, the uniform flow of both the base material and the material of the washer at the pro exit from the matrix point is constantly maintained ({: 1ile) a plaster layer is formed, the thickness of which is uniform throughout all parts of the product contour. Finding OE in the zone of difficult outflow , providing a constant and uniform supply of the plated material on the turn of the material forming in the deformation zone. Thus, the forming formation formed on the extruded layer is uniform not only along the periphery, but also along the length of the product. In the extrusion window of the calculated length of the profile, the pressure switch is separated by known means, a new stocking container with a washer made from a cladding material is loaded into the container, and the pressure film is repeated. The proposed matrix allows to obtain profiles, the surface quality of which is two classes higher than when pressed on known matrices, to obtain profiles with a protective cladding layer, the corrosion resistance of which is 3.5-4 times higher than that of non-clad profiles, to obtain profiles with a uniform cladding layer along the section and length of the product. The thickness of the cladding layer is 0.15-0.25 mm along the length of the profiles. DETAILED DESCRIPTION OF THE INVENTION A matrix for pressing profiles, comprising a calibrating section with a point and a lead-in section in the form of an outlet of a large base on the working end of the funnel matrix, the surface of which is formed by direct adjoining arcs of circumference having a variable radius, tl and h In order to increase the uniformity of the coating when pressing clad profiles, the base of the funnel is made in the form of a circle describing the projection of the profiled point on the working end of the matrix, while river sectional yuding with vorotsh is equal to half the area of its profile base and points of the matrix. Sources of information taken into account under 1. USSR Author's Certificate No. 39О850, cl. B 21 C 25/02, 1972 (prototype).