CS244327B1 - Electromagnetic hammer drill - Google Patents

Abstract

The invention relates to an electromagnetic spinning device hammers and solves the problem of drawing rotary movement of the drill shaft. The electromagnetic hammer includes an electromagnet arranged in the frame whose anchor is provided with a return spring and one end stowed on the anchor a pin, provided at the other end hammer and cam guide, arranged in the space above the thrust surface of the shaft rotatable and sliding mounted in shaft bearings. The shaft is provided with a clamp head of the tool and slidable mounted a holder comprising at least one latch to fit into the ratchet teeth, which is rotatably mounted on the holder, with z the back side of the hammer is arranged adjustable bumper. The essence of the solution is that it is a ratchet swivel sprung through a resilient element provided between the protrusion ratchet and skeleton, and is its transmission the rocker element in contact with the rocker element cam guides, with the hammer skeleton is for disengaging the transfer rocker a ratchet element with a cam guide a detachable element is attached. The use of the invention is mainly possible in the construction industry.

Description

The present invention relates to an electromagnetic drill hammer and solves the problem of deriving the rotational movement of the drill hammer shaft.

Prior art electromagnetic drill hammers are driven by an electromagnet, the hammer being hammered by an electromagnet anchor hammer directly at the end of the shaft, the rotational movement of the shaft being derived from the anchor movement by means of a knee mechanism or by a rocker, pawl and ratchet. When using the knee mechanism, the joints of the mechanism are heavily stressed, and when using a rocker arm, the rocker arm may be stressed due to inertia forces and thus increased wear using commonly available materials for their manufacture.

The aforementioned drawbacks are eliminated by a hammer drill having an electromagnet in its skeleton, the armature of which is provided with a return spring and one end mounted on the anchor bolt and at the other end provided with a hammer and cam guide arranged in the space above the impact surface of the shaft rotatable wherein the shaft is terminated by a chuck for the tool and is provided with a slidably mounted holder on which a ratchet with internal teeth is received which engages latches which are received in the holder and are pressed into engagement by springs supported on the holder, the ratchet is in contact with the cam guide which is connected to the armature of the electromagnet by its projection provided with the transmission lever element. The contact of the ratchet transmission element of the ratchet with the cam guide is thereby ensured by the pressure of the elastic element tensioned between the carcass and the ratchet projection. An adjustable bumper is arranged on the side of the hammer back.

The electromagnetic hammer drill according to the invention extends the service life, reduces the weight and length, and reduces the manufacturing cost of the device.

The electromagnetic drill hammer is shown schematically in the accompanying drawings, where in FIG. 1 is a front elevational view of the overall assembly of the apparatus. In FIG. 2 shows the structural arrangement of the holder, ratchet, rotary pulley in a sectional view. In FIG. 3 is a front elevational view of the disengagement of the rotary mechanism of the ratchet transmission element of the ratchet with the cam guide; In FIG. 4 is a side elevational view of the ratchet and latch assembly.

The electromagnetic drill hammer consists of a chassis 1, an electromagnet 2, the armature 3 of which is provided with a return spring 4 and one group is mounted on the anchor bolt 5 and the other end of the armature is provided with a hammer 6 and cam guide 14 arranged in space above the impact surface of the shaft 7 and slideably mounted in shaft bearings 8. The shaft 7 is terminated by a tool gripping head 9 and is provided with a slidably mounted holder 10 in which the latches 11 are engaged which engage the ratchet 13 by the pressure of the latching springs 12 tensioned between the holder 10 and. The ratchet 13 is mounted on the holder 10 and is provided with a transmission cam element on its projection, which may also be a swivel pulley 15. The contact of the transmission rocker element of the ratchet 13 with the cam guide 14 is ensured by the elastic element 16 tensioned between the frame 1 and the projection. ratchets 13. For discarding The ratchet element of the ratchet element of the ratchet 13 with the cam guide 14 serves for the disconnecting element 17 mounted rotatable in the frame

An adjustable bumper 18 is provided on the side of the hammer back 6.

The function of the device is such that when the solenoid coil 2 is connected to the mains, either directly or via an electronic device, which discards the selected electrical pulses and only releases each of the precisely specified sequence into the solenoid coil 2, a changing magnetic field is created. In accordance with the magnetic induction of the electromagnet 2, it attracts the armature 3, overcoming the force of the return spring 4. The armature 3 with the hammer 6 and cam guide 14 performs an oscillating rocking movement around the anchor bolt 2. The hammer 6 hits the shaft 7 as it moves forward. and transmits to it some of its kinetic energy, as a result of which the shafts 7 jump forward together with the working tool clamped in the clamping head 9. At the same time as the armature 3 moves forward, the cam guide 14 also moves forward and rotates the ratchet 13 by transmission. The force of the resilient element 16 is overcome as the resilient element 16 is tensioned between the frame 1 and the ratchet protrusion 13. The ratchet 13 rotates the holder 10 and hence the shaft 7 with the clamping head 9 in which the tool is clamped.

After hitting the hammer 6 on the shaft 7 and bouncing therefrom, the anchor 3 with the hammer 6 and the cam guide 14 returns to its starting position. This movement is assisted by the return spring 4. When the armature 3 is moved incorrectly, the resilient element 16 ensures that the ratchet transmission element of the ratchet 13 engages the cam guide 14 to rotate the ratchet 13 to its starting position, the latches 11 pushed by the ratchets 12 cross over the teeth. ratchets 13 until they engage between the teeth.

At that time, the anchor 3 is in its starting position already supported on the adjustable bumper 18. The impact intensity of the hammer 6 can be re-adjusted by means of an adjustable bumper 18, among other modifications.

The electromagnetic hammer drill can also be used to chop, bite, rivet, and the like by disengaging the rotary mechanism from the disengaging element 17, which keeps the ratchet 13 in its extreme deflected position, thereby preventing the ratchet transmission element of the ratchet 13 from contacting the cam guide 14.

Electromagnetic drill hammer can be used mainly for making holes in building materials, cutting, riveting.

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).