RU2679855C1 - Injection molding machine piston assembly - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: invention relates to metallurgical production and is suitable as an element of tooling for the production of non-ferrous castings on injection molding machine. Piston assembly of the injection molding machine contains a piston, a rod with a longitudinal channel for the refrigerant and a cover with a conical side surface and a threaded shank connected to the surface of the longitudinal channel of the rod. Piston assembly contains a tube placed with a lateral clearance in the longitudinal channel of the rod and connected with its front end to the cover shank, the piston is designed as a piston-sleeve, the ends of the cover and the rod are connected to each other; ledges are made at the rear end of the cover and in the front part of the rod to accommodate the ends of the piston sleeve.

EFFECT: maximum strength, durability and manufacturability of the assembly are provided.

1 cl, 1 dwg

Description

The invention relates to metallurgical production and is suitable as a tooling element for producing non-ferrous castings on MLPD.

Known stock injection molding machine, on the front of which is placed a solid piston with a gap between their ends; a longitudinal channel is formed from the end of the first, in which a tube is fixed with a lateral gap with a sealing element at the end locally abutted in its conical bottom, where one transverse window is open, and the other goes into the lateral gap; transverse windows are formed at the front end of the stem, open in the above-mentioned lateral clearance, and at the end of its front part there is a sealing element for sealing the piston cooling zone (see patent SU 1783209 A1 of 23.01. 1989).

Its disadvantages: overheating and destruction of it, as well as the sealing element due to the lack of washing the latter with refrigerant; also significant material consumption and its complexity due to the manufacture of a rod from a piston.

Another assembly piston assembly MLPD is also known, comprising a cover with a conical lateral surface and a threaded shank connected to a thread of the front cavity of the rod, the end of which is separated by an axial clearance from the rear end of the cover; a piston in the form of several split rings placed behind the cover on the side surface with longitudinal grooves of the stem and the extreme stops in its ledge and the end face of the cover; refrigerant supply path in the form of a longitudinal channel of the rod passing into the longitudinal blind channel of the shank open at the bottom through its transverse windows to the indicated axial clearance above and cooling paths between the side surfaces of the rings and the rod, as well as a sealing element located between the ends of the cap and the rod (see patent RU 2002571 C1 of 06/26/1991).

Its disadvantages: the presence of an axial clearance between the latter, leading to the deformation of the former from the effort of pressing the alloy into the mold from the pressing chamber; falling into the last of the residues of non-evaporated refrigerant in the piston, which worsens the quality of the obtained castings by porosity; acceleration of wear of the pressing chamber by the alloy trapped in the cavities formed by the end facets of these rings; the difficulty of screwing and unscrewing the shank into the stem and twisting out of it using flats for this.

The objective of the proposed solution is to eliminate the axial clearance between

the ends of the cap and rod, sealing the cooling zone of the piston, eliminating the ingress of alloy on the lateral surface of the latter and simplifying the assembly-disassembly of the piston with the rod.

The technical result from it: increasing the resistance of the piston-sleeve, manufacturability and strength of this node in the contact zone of the ends of the cap and rod and casting quality.

This is achieved by the fact that the MLPD piston assembly comprising a cover with a conical lateral surface and a threaded shank connected to the front cavity of the rod, the end face of which is separated by an axial clearance from the rear end of the cover, the piston in the form of bushings placed behind the cover on the side surface with longitudinal grooves of the rod and focusing extreme on its ledge and the end face of the cover, the refrigerant supply path in the form of a longitudinal channel of the rod passing into the longitudinal blind channel of the shank, open at the bottom through its transverse windows in the above-mentioned axis second gap and cooling paths between the side surfaces of the bushings and the rod, and a sealing member disposed between the ends of the cover and the rod is new is that the ends of the cover and the rod connected with each other and at their ends situated ledges piston sleeve; at the same time, N depressions are made from the end face of the rod, separated by N - 1 annular protrusions with longitudinal grooves on which this piston is located; while the extremes of the depressions are opened by transverse windows into the longitudinal channels of the rod and the shank of the cap connected to the front end of the tube placed with a lateral gap in the longitudinal channel of the rod; the front end of the cover is made in the form of a truncated polyhedral cone with a base on the side of the front end of the rod, while a screw socket with a round head abutting against it is formed from its top; the front and rear ends of the piston-sleeve are sealed with sealing elements located in the annular grooves of the cover and the rod, to which the nut-sleeve located on it is connected, abutting the front end against the rear end of the piston-sleeve.

By interfacing the ends of the cover and the stem of the assembly, axial deformation of the cover in this zone is eliminated and the proposed assembly is hardened.

The formation of ledges on the rear end of the cap and in the front of the rod supports are created to accommodate the ends of the piston sleeve.

Using a piston sleeve instead of a piston - rings increases its manufacturability, simplifies assembly and disassembly of such an assembly, reduces wear on the pressing chamber due to the absence of alloy on the side surface of such a piston, improves the quality of castings in porosity due to the exclusion of refrigerant on the side surface of the piston, etc. d.

Fulfillment of N depressions separated by N-1 ring protrusions with longitudinal grooves from the front end of the rod, ring cooling paths of the assembly are created, interconnected by longitudinal grooves formed on the annular protrusions that divide adjacent grooves and are additional bearings of the inner surface of the piston sleeve.

By creating transverse windows in extreme depressions of the stem open into its longitudinal channel and into the liner cavity, cold refrigerant is approached into these depressions and the piston-sleeve and the refrigerant cover heated by heat are removed from the cooling zone of such a piston.

By the presence of a tube with a lateral gap in the longitudinal channel of the rod, connected by the front end to the shank, the flows of the discharged heated and supplied coolant to this unit are separated.

By placing the sealing elements in the annular grooves of the cap and the rod, the ends of the piston sleeve are sealed, thereby eliminating the leakage of refrigerant there from the cooling zone of this piston.

By abutting the front end of the sleeve nut, threaded to the rod, into the rear end of the piston sleeve, it is secured to the front of the rod together with the cover in contact with its front end.

By making the front end of the lid in the form of a truncated polyhedral cone with a base on the front end of the stem and forming a screw with a round head resting against the end from the top of its socket, a cover is secured by a special key and secured by the specified screw, followed by screwing (turning out) the shank of the cover into a threaded cavity made from the front end of the rod.

The proposed solution with features that distinguish it from the known ones is new, significantly different from them, industrially suitable and meets the criterion of the INVENTION

The proposed presented on the drawing of FIG. 1 and contains a cover 1 with a multifaceted surface and a screw on its front end; its shank 2 is connected to the surface of the longitudinal channel 3 of the rod 4, in which a tube 5 is placed with a lateral gap, connected by the front end to the shank 2; N depressions 6 are made from the front end of the stem 6, separated by N-1 annular protrusions 7 with longitudinal grooves 8, which, like the ledges 9 of the rod 4 and 10 of the rear end and the cover 1, are supports for the inner surface of the piston-sleeve 11 located on front of the stem 4; in these supports, annular grooves are made for the sealing elements 12 and 13, the sealing ends of this piston and, therefore, the refrigerant circulation zone along it; in front of the rear sealing element 12, as well as behind the front of the same element 13, there are transverse windows 14 and 15, respectively, in the rod 4, extending into its longitudinal channel 3, and in the rod 4 and the shank 2, open in the bottom of the cavity of the latter; on the rear end of the piston-bush, the front end of the piston-nut 16 is screwed onto the threaded surface of the front of the stem 4 and having a cavity at the back, which is based on its surface behind the threaded surface of the stem on its lateral surface to prevent ingress of process dirt into the threaded stem-bushing connection ; the implementation of the annular grooves for the sealing elements 12 and 13, partially open from the lowering of the rod, provides washing them with a refrigerant, which guarantees their durability.

The piston sleeve is cooled as follows: the refrigerant through the longitudinal channel 3 of the rod 4 and the transverse windows 14 enters the rear cooling path formed by the lowering surfaces 6 and the cavity of this piston, rushing from its rear end to the front through the grooves 8 of the annular protrusion 7 and the front path formed the same surfaces as the previous tract; from its front part through the transverse windows 15 of the rod 4 and the shank 2, the heat heated by the heat of the piston 11 and the cover 1 enters the cavity of the latter and from it into the tube5 and outside the rod.

The number of grooves and annular protrusions on the front of the shock 4 is determined by the diameter and length of the piston-sleeve, for example, with diameters of 40-70 mm and a length of 100 mm N = 2, N-1 = 1; with these parameters 80-100 and 100 N = 3, N-1 = 2, etc.

The cooling efficiency of the piston-sleeve is determined by the speed of circulation of the refrigerant and the size of the cooled surfaces of it and the cover, which are maximum in the proposed unit compared to the piston-glass of the analog and therefore the resistance of the proposed piston is higher than the latter.

Thus, the absence of axial clearances between the ends of the piston-sleeve and the cap, rod and cap, nut-bush and piston guarantees the strength of the proposed site; the presence of sealing elements at the ends of the piston-sleeve eliminates the ingress of refrigerant from it into the pressing chamber and improves the quality of casting by porosity; the maximum cooled surface of such a piston ensures its maximum durability and manufacturability by using a pipe blank for it.

Claims (1)

A piston assembly of an injection molding machine comprising a piston, a rod with a longitudinal channel for refrigerant and a cover with a conical lateral surface and a threaded shank connected to the surface of the longitudinal channel of the rod, characterized in that it contains a tube placed with a lateral gap in the longitudinal channel of the rod and connected by the front end to the stem of the cap, the piston is made in the form of a piston-sleeve, the ends of the cap and stem are interconnected, ledges are made on the rear end of the cap and in the front of the stem to accommodate the end of the piston-sleeve, while on the front end of the rod there are N annular depressions separated by N-1 annular protrusions with annular grooves for the sealing elements and with longitudinal grooves forming annular cooling ducts, while the annular protrusions are additional bearings of the inner surface of the piston bushings, in extreme depressions transverse windows are made, open in the longitudinal channel of the rod and in the bottom of the cavity of the shank of the cover, the front end of which is made in the form of a truncated polyhedral cone with warping from the front end face of the rod, on the top of which a socket for a screw with a round head resting against the end face is made into it, the front and rear end of the sleeve are sealed with sealing elements, a nut-sleeve is screwed onto the threaded surface of the front of the rod, resting the front end against the rear end of the piston - bushings.

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