RU2086405C1 - Pneumatic hammer - Google Patents

Abstract

FIELD: mechanical engineering; building. SUBSTANCE: pneumatic hammer has casing accommodating impact piston, working tool and hydraulic actuator positioned between the piston and the tool. The hydraulic actuator is made in the form of a sleeve containing a flanged bushing and adopted to interact with the working tool. The sleeve is filled with working fluid. The striker is instaled in the bushing. Diameter of the striker is less than the inner diameter of the sleeve. EFFECT: enhanced efficiency. 1 dwg

Description

 The invention relates to manual pneumatic-hydraulic impact machines, which can be used in mechanical engineering, construction and other industries.

 Closest to the invention in technical essence and the achieved result is a pneumatic mechanism of shock action (as.with. 1093532, class B 25 D 9 / 04.1984), comprising a housing with a hydraulic cavity, an shock piston placed therein, forming a cavity with the housing working and idling, a working tool and placed in the hydraulic cavity of the firing pin, interacting with a percussion and working tool.

 This technical solution has several disadvantages: the presence of shock loads or recoil forces created by compressed air about the shock piston; increasing the impact force on the working tool requires an increase in mass and the area on which the compressed air of the shock piston acts; vibration reduction will be small, as this depends on the force of impact on the working tool.

 The invention is aimed at minimizing vibration and increasing impact force, as well as reducing the mass of the entire pneumohydraulic mechanism.

 The specified task is achieved there, that the pneumatic hammer containing the housing, the shock piston located in it, forming the working and idle cavities with the housing, the firing pin, the working tool and the working fluid, is equipped with a hydraulic booster installed in the housing between the shock piston and the working tool in the form interacting with the working tool of a glass filled with a working fluid and a sleeve with a flange placed in it, and the hammer is installed in the sleeve and is made with a diameter smaller than the inner diameter Taka.

 New in the claimed technical solution: the pneumatic hammer contains a hydraulic booster in the form of a cup installed with the ability to interact with a working tool, filled with a working fluid, and a sleeve with a flange placed in it, and the hammer is installed in the sleeve and is made with a diameter smaller than the inner diameter of the glass. The power steering transmits a blow to the working tool and dampens the reflected vibration from the working tool. At the moment of impact of the shock piston against the hammer, the latter touches the working fluid, creating a hydraulic shock, i.e. greatly increasing the impact force of the shock glass on the working tool. The impact force of the shock nozzle on the working tool will be so many times greater than the impact force of the shock piston on the hammer, how many times the area in its inner diameter will be greater than the contact area of the hammer.

 The drawing shows a pneumatic hammer.

 The mechanism consists of a housing 1, in which an impact piston 2 is placed, which forms a working cavity and idle cavities (not shown) with a housing 1 and an attachment 3 of the housing 1. A power amplifier is located in the attachment 3, which comprises a sleeve 4 with a flange mounted in it on the firing pin 5 interacting with the shock piston 2 and through the working fluid 6 with the nozzle 7, which in turn interacts with the working tool 8. The hammer 5 is made with a diameter in contact with the working fluid smaller than the inner diameter of the nozzle 7.

 Pneumatic hammer works as follows.

 At the moment of impact of the shock piston 2 on the striker 5, which touches the working fluid 6, creating a water hammer from the shock piston 2 in it, the impact force of the nozzle 7 on the working tool 8 will be so many times greater than the impact force of the shock piston 2 on the striker 5, how many times the area of the inner diameter of the glass 7 filled with the working fluid 6 is greater than the area of the striker 5 in contact with the working fluid 6.

 Most of the shock wave from the working tool is extinguished by the hydraulic booster, and the vibration reflected from the area of the shock piston 2 is reduced by reducing the area in contact with compressed air at the moment the working stroke of the striker 5 is turned on and by reducing its mass.

 Thus, due to the proposed pneumohydraulic mechanism, it becomes possible to minimize vibration without decreasing but increasing the force of impact on the working tool, which ultimately leads to a decrease in occupational diseases and an increase in labor productivity.

Claims (1)

 A pneumatic hammer containing a housing, a shock piston located therein, forming a working cavity and idle cavities, a firing pin, a working tool and a working fluid, characterized in that it is equipped with a hydraulic booster installed in the housing between the shock piston and the working tool in the form of an installed with the possibility of interaction with a working tool of a glass filled with a working fluid and a sleeve with a flange placed in it, and the hammer is installed in the sleeve and is made with a diameter smaller than the internal diameter of the glass.