RU2212313C2 - Portable device for pulse cutting - Google Patents

Abstract

FIELD: applicable, particularly, for reinforcement cutting. SUBSTANCE: device has cylinder with holes for gas bleeding. Cylinder accommodates movable sleeve in which piston with rod is located. Sleeve height is selected for overlapping of gas bleeding holes. EFFECT: reduced device overall dimensions and weight. 1 dwg

Description

 The invention relates to means used mainly in extreme situations when saving lives, and can be used mainly for cutting reinforcement.

 The proposed device in unforeseen emergencies will allow you to quickly clear the rubble. Available stationary means in such cases, operational use is practically not possible.

 Instead of stationary means, the design of a lightweight portable device can be used, the actuator of which is driven by an autonomous energy source - a powder charge (cartridge).

 Solutions whose actuator is powered by a powder charge are known. For example, described in the description of the patent of the Russian Federation 2033904, cl. At 29 D, 29/00.

 The device comprises a drive mechanism in the form of a single-cavity cylinder with a piston placed in it with a rod transmitting force to the cutting element. The piston is driven by a powder charge.

 In view of the practical absence of damping of the total energy of the powder charge during a single shot, this solution is unacceptable from the point of view of operability and reliability under shock loads.

 The closest solution to the claimed is the solution given to the patent of the Russian Federation 2157742, cl. B 29 D 29/00.

 It contains a cylinder made with internal longitudinal grooves and with holes for bleeding gas, a piston with a rod placed in the cylinder with the possibility of actuation from a pressure source, and an actuator associated with the specified rod. The actuator is a fixed and movable knives. The movable knife is driven by the piston rod.

 The implementation of the cylinder with internal longitudinal grooves ensures the flow of high-pressure gas into the damping cavity and thereby ensures an unstressed stop of the piston with the rod. However, since the gas pressure after the working stroke, despite the presence of holes, determines the residual pressure on the piston, this factor requires strengthening the design of the device, increasing its damping part and, as a consequence of this, making the structure heavier.

 The objective of the invention is to reduce the size and weight of the device due to the additional damping of moving parts.

 The problem is solved due to the fact that the known device containing a cylinder made with holes for bleeding gas, a piston with a rod, an actuator in the form of movable and fixed knives and a pressure source, according to the invention is equipped with a piston with a rod placed in a glass inserted in the device installed in the cylinder with the ability to move, and its height is selected from the condition that it overlaps the holes at the beginning of the stroke and communicates with the atmosphere at the end of its stroke.

 This embodiment provides a separation of the total mass of the moving parts into the actual piston with a rod and a movable knife and a glass in which the piston is mounted with the possibility of movement.

In this case, the glass transfers pressure to the piston only along the stroke length (P _X ), i.e. until its bottom reaches the level of the holes.

 The technical result of the proposed solution is to reduce the weight and dimensions of the device.

 The device is made in the form of a cylinder 1 with holes for bleeding gas 2. A cylinder 3 is placed in the cylinder with the possibility of axial movement. The height of the glass is selected from the condition that the hole 2 is blocked by it. A piston 4 with a rod 5 is placed in the glass 3. The rod 5 is rigidly connected to the actuator consisting of a movable knife 6, which relative to the fixed knife 7 is installed with the possibility of adjusting the working gap between them depending on the size of the material being cut. The working gap is set by the handle of the ratchet mechanism 8 mounted on the outside of the cylinder. In the end part of the device, a pressure source 9 is provided, which is used as a blank cartridge.

 The device operates as follows.

 Before the shot, the movable knife 6 with a ratchet mechanism 8 is brought in contact with the material being cut. When the cartridge 9 is fired, the gases exert pressure on the cup 3, which transfers the force to the piston 4 with the rod 5 by the inner bottom surface. After passing through the hole zone (end of the working stroke), the gases above the cup 3 are released into the atmosphere, and the cup rests against the cylinder end, cutting off the residual pressure and kinetic energy of the gas after the end of the stroke, i.e. gas is neutralized and does not affect the piston. Further, the piston 4 with the rod 5 and the movable knife 6 continues to move only by inertia, while a vacuum is generated above the piston, and under the piston is increasing pressure, which absorb the remainder of the kinetic energy of the masses. Thus, an effective separate shockless braking of the moving parts of the device is ensured. After cutting the material, the moving parts of the device (piston, rod, knife, glass) are returned to their original position using the ratchet handle 8. The device is ready for the next shot.

Claims (1)

 A portable device for pulse cutting, containing a cylinder with holes for bleeding gas, a piston with a rod, an actuator in the form of movable and fixed knives and a pressure source, characterized in that it is equipped with a nozzle mounted in the cylinder with the ability to move, the height of which is selected from the condition of overlapping openings for bleeding gas, and a piston with a rod placed in the said glass.