RU2019136024A - METHOD FOR PROTECTING EXPLOSIVE OBJECTS - Google Patents

Claims (2)

1. A method of protecting explosive objects, which consists in the fact that an explosive object is made containing a metal armored frame with an armored metal sheathing and filler, while at least three support rods with stop sheets in the upper part are rigidly fixed in the upper part of the explosive equipment , which are telescopically inserted into stationary support pipes located in a metal armored frame, characterized in that the stop sheets of the protective device of explosive equipment are rigidly fixed on the supporting structures of the building foundation, while elastic damping elements are fixed in the upper part of the support rods, one end of which is rigidly are connected with their base to the stop sheets, and the other is positioned freely, while each of the elastic damping elements is made consisting of two elastic elements symmetrically located relative to the common base, made in the form of a plate with holes, which is rigid with It is connected to the stop sheets of the protective device through a vibration damping plate, by means of at least three guide rods, coaxially placed in the holes of the base of the elastic elements, while the common base of the elastic elements, in its middle part, in contact with the elastic elements, is vibration damping, and the guide rods rigidly connected to thrust inclined rods rigidly connected to the guide sleeve, into which the support rod of the protective device, located in the metal frame of the protective device, enters in axisymmetrically to the elastic elements, while the support rod is made with an elastic limiting element rigidly connected to its upper part and is located between thrust inclined rods, and the guide sleeve is made of friction material. 2. A protective device for explosive objects, containing a metal armored frame with armored metal sheathing and filler, which is made in the form of a dispersed air-lead system, and the lead is made in the form of a crumb, and the frame has fixed branch pipes at the ends, and in the upper part of the explosive object, at least three support rods with stop sheets in the upper part are rigidly embedded, which are telescopically inserted into fixed support pipes in a metal armored frame, characterized in that the stop sheets of the protective device of explosive equipment are rigidly fixed on the carriers structures of the building foundation, while in the upper part of the support rods elastic damping elements are fixed, one end of which is rigidly connected by its base with the stop sheets, and the other is located freely, while each of the elastic damping elements is made of two, symmetrically located relative to the common base of elastic el elements made in the form of a plate with holes, which is rigidly connected to the stop sheets of the protective device through a vibration damping plate, by means of at least three guide rods coaxially placed in the holes of the base of the elastic elements, while the common base of the elastic elements, in its middle of the part contacting with the elastic elements is made vibration-damping, and the guide rods are rigidly connected to the thrust inclined rods rigidly connected to the guide bushing, into which the support rod of the protective device located in the metal frame of the protective device enters a limiting element rigidly connected to its upper part and located between the thrust inclined rods, and the guide sleeve is made of friction material.