SU89874A1 - Electrojacking gearless hammer - Google Patents

Description

Known design electrophoof hammers imeggg gear gearbox that transmits the force of the electric motor to the head.

In the proposed design of the electromotive hammer, an air-ratchet mechanism is used instead of a gear reducer and an end device with a permanently spring-loaded tool, which significantly improves the operation and increases the efficiency of the end device, as well as the timing of the shock absorber of the hammer. In order to obtain high-impact blows, the following has been described:) a hammer is used to hold the striker motionless for several strokes of the crank-cryopesser mechanism. In order to accumulate kinematic energy from air compression during the period of percussion, the firing pin is hollow, with a bore, which includes a piston connected to a gravitational crank mechanism, and an inertial friction mechanism consisting of in the piston of the rocking eccentric load, the end of which can enter the annular groove of the striker and ratchet device with a ratchet having periodically repeated, symmetrically located teeth of a normal and shallow depth. To reduce the recoil amplitude, an end spring is applied, located in the holder body and resting on one side into the ring groove of the holder, and on the other side into the collar of the working tool.

FIG. Figures 1 and 2 depict a jackhammer gearless hammer in two projections.

The electric breaker hammer consists of two main components: an asynchronous motor with a squirrel cage rotor and an air-kinematic percussion mechanism assembly. The rotor shaft / is made in one piece with the counterweight and crank pin, which with the help of shtun 2 is directly connected with the knot of the percussion mechanism, placed in the barrel 3. The knot of the air-kinematic percussion mechanism; It consists of a connecting rod 5 and a piston 4 connected to a fork head.

No. 89874-2 with a finger 5, a striker 6 inside which a piston of inertial grip, which sits freely on a piston finger, and parts of the mechanism for hitting a bump moves: ratchet wheel 7 with small and deep dents, freely rotating on a piston finger, and a ratchet wheel the pawl 8, sitting in the piston nest together with the spring 9, and the leading ratchet pawl 10 placed in the connecting rod nest together with the springbag 6, made in the form of a hollow dilindra, has in the tail part an inner annular groove, one of the side it is made as a spherical surface of the belt. Inertial gripping is abutted against this surface, which provides a rigid one-way connection of the striker to the piston. In the walls of the striker there are windows that serve to regularly compensate for the leakage of air from the closed window; It has air volume inside the striker. In the sticking position, the compensation windows are significantly blocked by the piston, which creates a preliminary compression of the air inside the striker before the start of each operating cycle of the electric hammer.

Between the smooth inner surface of the barrel 3, which serves as a scribe for the striker, and the ribs of the striker, air is circulated during the reciprocating movement of the striker, thus eliminating harmful compression in the barrel. The guide ribs in this design of the hammer are not axially located, but along a gentle spiral, which creates a torque on the hammer to guarantee its rotation during operation, regardless of the mass ratio of the hammer and the working tool 12. The hammer is constantly affected by the spring 13, soothing vibrations of the striker after each working stroke.

When you stop pressing on the body of the hammer, the spring moves the shank of the spike forward through the stop up to the stop of its collar to the pic holder. As a result, the annular groove of the striker mixes slightly forward (by 6-7 mm) and thus eliminates the possibility of clutches. The electric hammer stops the blows when the electric motor is running, i.e. it goes to idle.

Inertial gripper 11 has a stapled shape (due to the presence of a stepped groove running along the gripper). During the reciprocating motion of the piston, the gripper moving with it together oscillates about its axis under the action of variables in magnitude and direction of the inertia forces. After each interlock, the next working cycle occurs as a result of striking the striker against the shank of the lances. Consequently, with this section of deep and shallow depressions, for every five revolutions of the crank, there is one worker strike of the striker. This is the effect of the ratchet (or kinematic) mechanism to skip blows, which, thanks to the control of the clutch moment, performs a reduction in the frequency of strikes of the striker by the required number of times relative to the rotor speed of the electric motor without the use of a power gearbox.

The return spring permanently presses the shoulder of the working tool 12 to the barrel 3 of the hammer. For this, the spring rests on the annular groove of the clamps. Due to the annular groove, the supporting turn grasps both crackers (both halves of the cut steel cup). On the other hand, the rusks also have an annular collar that fits into the corresponding groove on the barrel 3. On top of the rusks, there is a spring clutch that engages both rusks together, and the clutch is mounted on the hammer barrel.

.NO 89874

The assembled device is a rigid, non-stick, monolithic construction.

During the work of the hammer, the working tool for each stroke has some movement, which is very small when working on strong materials. With weak materials, the movement of the working tool can be significant. With a free working tool, this movement under the action of idle blows of a hammer is such that the coils of the returning end spring can close, i.e. compress - the barrel perceives blows, albeit weakened by the pre-absorption of energy by the spring when it is depopmed by the amount of movement tool.

Subject invention

Claims (4)

1. Electroless hammerless hammer with a crank mechanism that drives the hammer head, characterized in that, in order to receive high-impact blows, it uses a device that keeps the striker motionless for several strokes of the crank-drive mechanism. 2. A hammer blow according to claim 1, characterized in that, in order to accumulate kinematic energy from compressed air during the period of the percussion, the firing pin is hollow with a bore, which includes a piston connected to a pull pulverized-crank mechanism. 3. The form of the hammer on PP. I and 2, characterized in that, for the purpose of periodically coupling the shaft with the die, an inertial coupling mechanism is applied, consisting of an eccentric rocking load suspended in the piston, the end of which may include an annular shaft and a ratchet ratchet having periodically repeated through several teeth of normal depth - a shallow tooth. 4. The form of the hammer on PP. 1-3, characterized in that, in order to reduce the amplitude of recoil, the end npyj is applied; The gin is located in the holder body and rests on the one side into the ring groove of the holder, and on the other side into the collar of the working tool.