EA000370B1 - Percussion mechanism - Google Patents

Abstract

Percussion mechanism, comprising a housing, drilling bit and crankgear-lever device, comprising crank, connecting rod and a balance beam, one end of which is pivoted connected to a support, and at the other end an impact mass is fixed, characterized in that to increase frequency and energy of an impact, rigidly fixed support of the balance beam is placed towards the crank support at a distance, determined from the provision that LO-L1(L3-L2 or LO-L2(L3-L1, wherein L1 - length of crank; L2 - length of connecting rod; L3 - length of balance beam.

Description

The invention relates to percussion mechanisms, fender, drilling machines and hammers and can be used in engineering, construction and mining industry.

Famous hand hammer with elastic links (see II Artobolevsky. Mechanisms in modern technology, t.Sh, mech. 2011), which contains a body installed in it using two coil springs peen, connected with a slider crank-slider mechanism using springs. When the crank is rotated, the hammer head under the action of springs oscillates in the longitudinal direction.

The above percussion device due to the use of springs has a small impact energy. For the same reason, the emergence of complex dynamic processes, leading to uneven impact.

The use of springs during the operation of the percussion device limits the frequency of impact of the mechanism, since the very frequent application of an alternating load leads to the breakage of the springs.

Closest to the proposed invention is (see patent No. 1833462) percussion mechanism, which includes a housing installed in it with the possibility of rotation of the crank and connected to it with a connecting rod rocker arm. Moreover, the support of the rocker arm is fixed and installed relative to the support of the crank at a distance determined from the condition

Lo ^- Ll + L2 ^- Lз ^, where L ₁ is the length of the crank, L ₂ is the length of the connecting rod, L ₃

- the length of the rocker arm. The known mechanism has a low frequency and impact energy due to the difficulty of reversing the rocker arm after the impact.

The aim of the present invention is to increase the frequency and impact energy of the percussion mechanism.

To achieve this goal, the support of the rocker is rigidly fixed on the body and installed a relatively rigidly fixed support of the crank at a distance determined from the condition

Lo-L 1 + L3-L2 or L0-L2 + L3-L1, where L1 is the crank length, L2 is the rod length, L3

- the length of the rocker arm.

FIG. 1 shows a diagram of the percussion mechanism with L ₀ -Li + L ₃ -L ₂ ; in fig. 2 is a diagram of the working stroke at L ₀ -Li + L ₃ -L ₂ ; in fig. 3 is a diagram of reverse stroke at L ₀ -Li + L ₃ -L ₂ ; in fig. 4 shows a diagram of the percussion mechanism with L ₀ L ₂ + L ₃ -Lj; in fig. 5 is a diagram of the working stroke at

L ₀ -L ₂ + L ₃ -Lj; in fig. 6 is a diagram of reverse stroke at L ₀ -L ₂ + L ₃ -Lj.

The percussion mechanism contains (Fig. 1, 4) the housing 1 installed therein with the possibility of rotation of the crank 2 and the rocker arm 3 interconnected movably with the help of the connecting rod 4. At the end of the rocker arm 3, the impact weight 5 is installed. The impact weight 5 acts through the tool 6, installed in the housing 1, on the object 7. The distance between the supports of the rocker arm 3 and the crank 2 is determined from the condition L ₀ -L ₁ + L ₃ -L ₂ or L ₀ -L ₂ + L ₃ -L ₁ , where L _{1 is the} length of the crank , L ₂ - the length of the connecting rod, L ₃ - the length of the rocker arm.

The percussion mechanism works as follows (Fig. 1.4). When the crank 2 rotates, the movement through the crank 4 is transmitted to the rocker arm 3 with impact mass 5. Moreover, one swing of the crank 2 corresponds to one swinging arm of the rocker arm 3. With the working stroke (Fig. 2), for the case of L ₀ -L ₁ + L ₃ -L ₂ the directions of movement of the crank 2 and the rocker arm 3 are opposite, and for the case of L ₀ -L ₂ + L ₃ -L ₁ (Fig. 5) - the same. At the end of the working stroke of the rocker arm 3, the shock mass 5 strikes a blow through the tool 6 on the object being machined 7, and after the impact the rocker arm 3 makes a reverse stroke. The return stroke occurs due to the movement of the crank 2 and the connecting rod 4, which raise the rocker 3 from the shock position.

Thus, the implementation of the supports of the rocker arm 3 and the crank 2 at a distance of L ₀ -L | + L ₃ L ₂ or L ₀ -L ₂ + L ₃ -L ₁ facilitates the return movement of the rocker arm due to the successful arrangement of the crank 2 and the connecting rod 4, t. that is, during the return stroke of the yoke 3, the connecting rod 4 performs a pushing movement, and the rocker 3 separates from the shock position whether or not there is a rebound. This facilitates operability and allows you to increase the frequency and energy of impact mechanism in comparison with the known device.

Claims (1)

CLAIM A percussion mechanism comprising a housing, an instrument, and a crank-lever device, including a crank, a connecting rod, and a rocker arm, one end of which is pivotally connected to the support, and at the other end reinforced shock mass, characterized in that, in order to increase the frequency and impact energy, the fixed support of the rocker is set relative to the crank support at a distance determined from the condition ^(L 0 ^-L 1 ⁾ + ^(L 3 ^-L 2 ^{) or (L} 0 ^-L 2 ⁾ + ^(L 3 ^-L 1 ^), where L1 is the length of the crank , L2 is the length of the connecting rod, L3 is the length of the rocker arm.