SU427530A3 - IMPACT MECHANISM - Google Patents

Description

The invention can be applied in gas lighters, burners and similar devices. A percussion mechanism is known, for example, to act on a piezoelectric body in a firing device, comprising a housing with side steaks, in which a hammer is installed to hit a piezoelectric body, a manipulator for actuating the hammer and a force spring located between the impact hammer and the manipulator A spring for returning the manila torus to its original position and means for keeping the hammer at a predetermined distance from the piezoelectric body. This special tool complicates the design and increases the size of the mechanism as a whole. The proposed mechanism is simpler in construction and compact. This is achieved by having shaped grooves on the casing walls, the hammer has a guide hole, and the means for keeping the hammer at a given distance from the piezoelectric body is in the form of a spring-loaded rod located in the guide hole of the hammer and resting on the end surfaces of the figured casing . The manipulator has a portion in contact with a spring-loaded rod for moving it in the hammer guide hole. The section of the manipulator in contact with the spring-loaded rod can be made with speed, and the shaped grooves of the body can be L-shaped. The rod may have stoppers at the ends, and it is recommended to install its spring in the pilot hole of the hammer and fasten it in it to prevent it from falling out. FIG. 1 schematically shows mehkapism with a shock hammer mounted on an axle, a non-working position; in fig. 2 - the same working position; in fig. 3 - mechanism with a hammer with the possibility of reciprocating displacement 1Н-1Я; in fig. 4 - the same, longitudinal section; in fig. 5 - the same, in perspective, in non-working condition; in fig. 6 - the same in the working position. The body / has a transverse wall 2 and two side walls 3. Each side has an L-shaped opening 4, which in turn has a horizontal 5 vertical 6 sections. A chute 7 is mounted in one embodiment (FIGS. 1, 2) pivoting on an axis 8 installed in a housing /. It has a guide hole 9 in which a rod 10 is placed, sliding along this hole. The spring 11 serves to press the rod in one direction. The rod interacts with a horizontal section 5 of L-shaped holes 4, which ensures that the hammer is kept at a certain distance from the piezoelectric body 12, which is mounted on the transverse step 2 of the body. Although 3 of the illustrated example of the body 1 has L-shaped holes, these holes can have only horizontal and vertical sections along which the rod 0 can move against the influence of the spring 11.

The manipulator 13, as well as the hammer 7 in the first embodiment, is rotatably mounted on the axis 8. The manipulator is formed by helical steak 14 and side walls 15, which have a section 16 designed to interact with the rod 10 and move it in transverse direction. Circular 17, the image of the K1N1OY dashed line in the drawings, indicates the tide, which has a rod 10. It does not allow the rod to jump out of the fixed position. The numeral 18 shows the intermediate piece, which is adapted to remove the spring // from the guide hole 5.

The force spring 19 is mounted on an axis 8, one end of which interacts with the vertical wall 14 of the pistol and the other with a hammer 7. The return spring 20 is mounted on an axis 21 mounted in housing 1. At one end it is in contact with a shaft 22 installed on manila torus 13, and the other with protrusion 23 mounted on the body (the return spring can be removed from the constructive construction of the percussion mechanism, its function should be assigned to the spring 11 by performing it with the corresponding characteristic). Conductor 24 is electrically connected to the spark gap (the spark gap is not shown in the drawing), in which a high voltage is discharged, generated by a strong electroelectric body.

The percussion mechanism works as follows. When pressing the GZ manipulator in the direction indicated by the arrow, it compresses the power spring 19, as a result of which the manipulator section 16 comes into contact with the rod 10 and moves it in the transverse direction inside the L-shaped hole 4. Pass the entire length of the horizontal section

About the hole, the rod moves to the vertical section 6 of this hole, as a result of which the hammer 7, under the action of a force twisted by the force spring arm 8, makes a sharp blow to the diezoelectric body, in which a high voltage is generated, discharged in the spark gap . When c) 1 ton of force from the manipulator of the mechanism link, under the action of the return spring 20, the sound will return to its original position.

Subject invention

Claims (3)

1. A percussion mechanism, for example, for acting on a piezoelectric body in a zagall device, comprising a housing with side walls in which a hammer is mounted for lancing a strike on the piezoelectric body, a manipulator for actuating the hammer into a force spring, located between the impact hammer and the manipulator, the operator to return the manipulator to its original position and the means to keep the hammer at a given distance from the piezoelectric body, characterized in that, in order to simplify the construction, the figured faces are made on the side walls of the cornus, the hammer has a guide hole, and the means for keeping the hammer at a given distance from the piezoelectric body are a spring-loaded rod located in the winding hole of the hammer and mounted on the face surfaces of the figured grooves of the housing, wherein the manipulator has a portion in contact with the spring-loaded ster It neremescheni for it in nanravl capstan .m hole hammer. 2. The mechanism according to claim 1, characterized in that the section of the manipulator in contact with the spring-loaded rod is made of an axle, and the figured grooves of the case are L-shaped. 3. The mechanism according to claim 1, characterized in that the rod has stoppers at the ends, and its spring is installed in the hammer guide hole and secured therein by means of an intermediate piece to prevent it from falling out. 9 Vui f "-V2 .J li (Y Fig 5 FIG B