RU2164998C1 - Striking mechanism - Google Patents

Abstract

FIELD: striking machines; drilling blast- holes in hard rocks and in concrete. SUBSTANCE: striking mechanism includes body, crank, connecting rod, slide block and striker interconnected by means of spring with double-sided wedge mounted between them on bevels which is engageable with flexible member supported by body of mechanism. EFFECT: simplified construction; facilitated procedure of manufacture. 1 dwg

Description

 The invention relates to mechanical engineering, in particular to mining, and in particular to percussion machines, and can be used as a percussion mechanism for drilling holes in rocks of high strength and concrete.

 Known electric drilling machines [1], made in the form of a crank mechanism, in which the slider acts as a hammer. Their disadvantage is the large load on the connecting rod and crank. For this reason, they are not widely used.

 Closest to the claimed mechanism is [2], including a crank, slider, hammer and spring, while a kinematic connection is made between the slider and hammer in the form of a non-self-locking screw fixed to the slider, the nut of which forms a non-self-locking screw pair with the hammer, and the spring is remotely mounted between the drummer and the slider.

 The design drawback is the complexity of the need to manufacture a special part in the form of a nut with two internal threads, which requires high accuracy while ensuring the alignment of the parts.

 The objective of the invention is to simplify the design and remove the requirements of high-precision manufacturing of parts.

 The solution to the problem is achieved by the fact that in the percussion mechanism, comprising a housing, a crank, a connecting rod, a slider and a striker connected by a spring, a slider and a striker are made with bevels, and between them there is a two-sided wedge interacting with an elastic element resting on the mechanism body .

 The drawing shows the design of the proposed impact mechanism.

 The shock mechanism comprises a crank 1, a connecting rod 2, a slider 3, an elastic element 4, a two-sided wedge 5, a striker 6, a striker body 7. The shock is perceived by the waveguide 8. The slider and the striker are made with bevels A and B and connected by a spring 9.

 The shock mechanism works as follows. Crank 1, receiving movement from a rotary engine, with a connecting rod 2 accelerates the slider 3, which, with its bevel A, acts on the two-sided wedge 5, and the latter, along bevel B, acts on the hammer 6 and accelerates it. The speeds of the slider and the striker before the strike are equal or very close.

 At the moment of impact on the shank of the waveguide, the reflected shock impulse (recoil) does not affect the connecting rod 2 and crank 1, since a two-sided wedge 5, pushed upward by the slider and the striker along their bevels, allows them to come closer. The entire recoil load is thus perceived by the elastic element 4, which is compressed. Further rotation of the crank 1 causes the slider 3 to move backward, while the elastic element 4 is unclenched, and the two-sided wedge 5 sets the initial distance between the slider and the hammer, which is facilitated by the spring 9.

 During the working stroke of the mechanism, the firing pin together with the slider move in the housing due to kinematic coupling: the slider - a two-sided wedge - the firing pin, fulfilling the given law of movement, and striking the instrument at the given moment. After the impact, the inertia force of the slider and the recoil force of the impactor are directed towards each other, causing the two-sided wedge to move along the bevels A and B upward and the elastic element to compress. When idling, under the action of a bilateral wedge, the slider and the hammer return to their original position.

 The proposed design reliably protects the crank and connecting rod from shock during recoil, provides an increase in the energy of a single shock, ensures the frequency of strokes in accordance with the speed of the crank, thereby increasing efficiency and increasing the service life of the mechanism parts.

Sources of information
[1] Ryashentsev N.P., Alabuzhev P.M. and other manual electric shock machines. M .: Nedra, 1970, p. 115.

 [2] RF Patent N 2026978, E 21 C 3/00, 1995.

Claims (1)

 A percussion mechanism, comprising a housing, a crank, a connecting rod, a slider and a striker connected by a spring, characterized in that the slider and the striker are made with bevels, and between them there is a two-sided wedge interacting with an elastic element resting on the mechanism body.