CS244327B1 - Electromagnetic Drill Hammer - Google Patents

Abstract

The invention relates to an electromagnetic drilling hammer and solves the problem of deriving the rotary motion of the drilling hammer shaft. The electromagnetic drilling hammer contains an electromagnet arranged in the frame, the armature of which is equipped with a return spring and one end is placed on the anchor pin, while at the other end it is equipped with a hammer and a cam guide arranged in the space above the striking surface of the rotary and sliding shaft stored in the shaft bearings. The shaft is equipped with a clamping head of the tool and a slide-mounted holder, containing at least one latch for engaging the teeth of the ratchet, which is rotatably mounted on the holder, while an adjustable buffer is arranged on the back side of the hammer. The essence of the solution is that the rotating ratchet is sprung by means of a flexible element arranged between the ratchet protrusion and the frame, and its transfer rocker element is in contact with the cam guide, while a disconnecting element is attached to the hammer frame to eliminate the contact of the transfer rocker element of the ratchet with the cam guide. The use of the invention is possible mainly in the construction industry.

Description

244327

BACKGROUND OF THE INVENTION The present invention relates to an electromagnetic rotary hammer and solves the problem of the rotational movement of the spindle shaft.

Previous electromagnetic spinning devices are driven by an electromagnet, hammering them with the hammer hammers of the electromagnet directly at the end of the shaft, the rotating movement of the shaft being derived from the armature movement by the knee mechanism or by rocker arm, ratchet and ratchet. With the use of knee mechanics, there is a great deal of stress on the mechanism, and with the use of a rocker, there may be an increased strain on the rocker as a result of inertial forces and those of increased wear when using commercially available materials.

The above mentioned drawbacks are eliminated by a spinning binder having an electromagnet in its frame, the armature of which is provided with a return spring and one end supported on the anchor bolt and at the other end provided with a hammer and a cam guide arranged in the space above the impact surface of the shaft rotatable and displaceable. the bearings, the shaft being terminated by a clamping head for the tool and displaceable by a supported bracket, wherein a ratchet is provided with internal claws which engage the latches that are received in the holder and are pressed into the spring by the springs resting on the bracket; the ratchet is by means of a recess provided with a transfer rocker element in contact with the cam guide which is connected to the electromagnetic armature. The contact of the ratchet transfer armature with the cam guide is thereby secured by the pressure of the elastic element tensioned between the carcass and the ratchet outlet. An adjustable bumper is arranged on the back of the hammer.

By virtue of the simplified construction, the electromagnetic hammer drill according to the invention extends the service life, reduces the weight and length, reduces the production costs of the equipment.

The electromagnetic rotary hammer is shown schematically in the attached drawings, in which FIG. 1 shows the overall arrangement of the device in front. FIG. 2 shows a structural arrangement of the handle, the ratchet, the rotary pulley in the sub-section. FIG. 3 illustrates the method of disengaging the rotary mechanism by operating the ratchet transfer element of the ratchet with the cam guide in front. Fig. 4 is a side elevational view of the ratchet and latch arrangement.

The electromagnetic rotary hammer consists of the frame 1, the electromagnet 2, which the armature 3 is provided with a return spring 4a, is disposed at one end on the anchor pin 3 ε, the other end of the armature is provided with a baffle 6 and a cam guide 14 arranged in the space above the impact flat shaft 7, the shaft 7 is terminated by a clamping head 9 for clamping the tool and is provided with a slidably mounted holder 10 in which the latches 11, which engage the ratchet 13 with the ratchet pressure 13, are held in place. The spring 13 is supported on the holder 10 and is provided with a projection cam element, which may also be a rotatable pulley 15. The contact of the transfer arm of the ratchet 13 is provided with a projection. with the cam guide 14 is provided by the pressure of the elastic element 16 tensioned between the frame 1 and the height of the ratchet 13. For discarding d The speed of the transfer rocker element 13 with the cam guide 14 serves as a deflection element 17 mounted rotatably in the frame 1. An adjustable bumper 18 is arranged on the back side of the hammer 6.

The function of the device is such that after connecting the solenoid coil 2 to the electrical network directly or via an electronic device which disables the selected pulses of the electric current and switches the solenoid coil 2 only to each precisely determined sequence, in the electromagnet 2 a changing samagnetic field. In accordance with the course of the magnetic induction of the electromagnet 2, the armature 3 is attracted by the force of the return spring 4. The armature 3 with the hammer 6 and the cam 14 performs the oscillating motion around the anchor bolt 2. 6 in its forward movement, the shaft 7 is pushed and gives it a portion of its kinetic energy, as a result of which the shaft 7 jumps forward along with the working tool clamped in the clamping head 9. At the forward movement of the armature 3, the cam 14 also moves forward and, by means of the transfer rocker element 13, rotating the ratchet 13, overcoming the force of the elastic element 16, the spring element 16 being tensioned by the rim 1 and the ratchet projection 13. The ratchet 13 rotates the bracket 10a by means of the catches 11a and the shaft 7 with the clamping head 9, in which the tool is clamped.

Upon impact of the hammer 6 on the shaft 7 and away from it, the hammer 6 with the hammer 6 and the vacuum line 14 returns to its exit position. This movement is assisted by a return spring 4. In the case of poor movement, the elastic element 16, which contacts the transfer rocker element of the ratchet 13 with the cam guide 14, rotates the ratchet 13 into its starting position, while the latches 11 pressed into the engagement by the locking springs. 12, while the ratchet teeth 13 until the teeth engage.

At this point, the armature 3 is already in its starting position supported on the adjustable bumper18. Impact of hammer 6 is possible

Claims (2)

SUBJECT An electromagnetic drill hammer comprising an electromagnet in a carcass, the armature of which is provided with a return spring and one end mounted on an anchor pin, the other end provided with a hammer and a cam guide arranged in the space above the impact surface of the shaft rotatable and movable in shaft bearings; provided with a tool clamping head and a slidably mounted holder comprising at least one latch for engaging a ratchet toothedly rotatably mounted on the holder, wherein an adjustable bumper is provided on the side of the hammer back, characterized in that the hat [13] is pivotable by the resilient element (16) provided between the ratchet protrusion (13) and the frame (1) is in contact with the cam guide (14) at its armature (3) by its transmission rocker element, and to disengage the transmission rocker element ratchet (13) a disconnecting element (17) is fastened to the cam guide (14). Electromagnetic rotary hammer according to Claim 1, characterized in that the transmission rocker element of the ratchet (13) is formed by a rotating roller (15).