SU1361321A1 - Electric percussive mechanism - Google Patents

Abstract

The invention relates to the mining industry and allows to increase the reliability of the design. The mechanism includes a housing 1 with a stator winding 2, inside which is located the firing pin 4, consisting of a diamagnetic part and a magnetic part in the form of a permanent magnet (PM) 6. In the diamagnetic part there is an annular groove 5, between which ends hollow cylinder. At the ends of the grooves 5 fixed elastic elements (CU) 7, 8 in the form of rubber washers. Upon receipt of the winding 2 current pulse PM 6 acts on the striker 4, accelerating it down. When switching the polarity of the current, the PM 6 decelerates, and the UE 8 expands. The striker 4 descends and strikes the anvil 9. After the repetition of the speed of movement of the PM 6, its movement upwards begins. (L vyvvvT / vw-, /

Description

1361321

Then, PM 6 through UE 7 is affected by stopping PM 6, and then the striker goes to striker 4, moving it upwards. After 4, Next, the operation of the mechanism proceeds by switching the polarity of the current in a similar way. 2 hp f-ly. 1 il.

one

The invention relates to the mining industry, in particular to percussion devices used, for example, for drilling holes and destroying rock.

The aim of the invention is to increase the reliability of the design.

The drawing shows an electric shock mechanism.

The electric shock mechanism includes a housing 1, inside which a stator winding 2 is placed, connected to a generator 3 of power current pulses. In the housing 1, in addition, there is a firing pin 4 made of a diamagnetic material, having an annular groove 5. In the groove 5 of the striker 4 a permanent magnet 6 having the shape of a hollow cylinder is placed with the possibility of axial movement, and the length of the permanent magnet 6 is less than the length of the groove 5. Elastic elements 7 and 8, made in the form of rubber washers, are attached to the ends of the groove 5. In the lower part of the housing 1 is placed anvil 9.

Electric shock mechanism works as follows.

When a current pulse of the corresponding polarity from generator 3 is received in the stator winding 2, the electromagnetic field created around the winding 2 acts on the permanent magnet 6. As a result, the magnet 6 moves down, and first it selects the gap between the bottom of the magnet 6 and the elastic element 8, then through the element acts on the hammer 3, accelerating it down.

After the required time, determined by the design parameters of the electric shock mechanism, the polarity of the current flowing in the winding 2 will switch. This (will entail braking of the permanent magnet 6 and decompression of the elastic element 8, while

the striker 4 continues to move down by inertia until it strikes the anvil 9. Moreover, the striker 4 at this moment in time does not experience the decelerating effect 5 from the electromagnetic field created by the winding 2, since it is made of diamagnetic material. Due to the fact that the length of the magnet 6 is less than the length of the groove 5, at the moment of impact of the striker 4 on the anvil 9, the magnet 6 is between the ends of the groove 5 and does not experience shock, which has a positive effect on its service life. If this

 moment the speed of striker 4 is not yet

will drop to zero (due to the braking effect on the hammer 4 of the winding 2 when the current of reverse polarity flows through it), then the remaining sec, significantly 20 but smaller in magnitude in relation to the maximum value, part of its speed quenches to zero due to the elastic effect the firing pin 4 from the side of the elastic element 8. After the repetition of the speed of movement of the permanent magnet 6 downwards, its movement upwards begins. In this case, the gap between the upper base of the permanent magnet 6 and the elastic element 7 is first selected, and then the rubber washer 7 is compressed, through which the magnet will begin to force the striker 4. As a result, it will begin to move upwards.

35 After a necessary period of time, the polarity of the current in winding 2 is switched, which leads first to stopping magnet 6 and then striker 4. Moreover, the force effect of striker 4 on magnet 6 when braking is reduced by a rubber washer 8. Further operation of the electric shock mechanism occurs similarly in a way.

Claims (3)

 Claim 1. Electroshock j exaHH3M, comprising a housing with stator winding, 25 31361321 inside which is located the firing pin, a permanent magnet is arranged, and the elastic The diamagnetic and magnetic hour elements are fixed at the ends of the colts, and the magnetic part of the groove is made, in the form of a permanent magnet, and elastic 2. The mechanism according to claim 1, wherein the elements and elements are characterized in that the permanent masses are designed in such a way as to increase the saturation of the hollow cylinder. reliability of construction, in diamagnetic parts of the striker is made ring pro 3. The mechanism of pop. 1, is different, between the ends of which are from the air and with the fact that the elastic elements of the axial movement of the device are made in the form of rubber washers.