CS244555B1 - Exhausting pistol with pneumatic cutter for fibre tying - Google Patents

Description

(54) Extraction gun with pneumatic fiber cutter

BACKGROUND OF THE INVENTION The present invention relates to a suction nozzle with a pneumatic shear for filament feeding, respectively. By means of which the fiber can be sucked out, guided to the working organs of machinery and cut the fiber after it has been guided.

Extraction guns without a shearing device or extraction guns with mechanical shear are used to guide the fibers.

The disadvantages of suction guns without shearing devices are obvious. To cut the fibers, in particular of thicker fineness, scissors or another, additional tool is needed. This, however, increases the labor intensity of the machinery, reduces the mobility of the operating personnel, increases the fiber lead time and consequently increases the waste.

Extraction guns with mechanical shear allow cutting the fiber, but not all fibrils in the fiber bundle are always cut. This is due to the fact that the mechanical cutter of the fast moving fibers is manually operated, which lowers the cutting speed of the working members. Operation of the gun becomes unreliable. In addition, this type of pistol requires almost perfectly sharp working organs for consuming activity. This has the effect of reducing life ** -:

cutting mechanism and high consumption of spare parts.

These drawbacks are solved by a suction gun with a pneumatic fiber guiding cutter according to the present invention, in which the shearing mechanism operates on a pneumatic principle. The shearing mechanism is formed from a rigid cutting die provided with a sharp edge against which the punch is terminated by a piston slidably mounted in a cutting chamber connected by two channels to a leakage pressure chamber provided with at least one vent hole. In the pressure relief chamber there is a slidingly mounted pressure relief piston valve with at least two pistons serving to connect the individual parts of the punching chamber to the pressure medium supply line, respectively. with the surrounding air. The pressure relief chamber is connected to the inlet duct with at least one channel, and sometimes there is a spring for mechanically returning the pressure relief piston valve to its initial position. Returning the punch to its initial position may be a pressure of the working medium or a spring.

The main advantage of this suction gun is its high shearing speed, as a result of which all the fibrils in the fiber bundle, respectively, are perfectly cut. the whole thread. This increases the operational reliability of the gun and significantly reduces waste. Because the cutting edge may not be perfectly sharp, the life of the shearing mechanism will increase and spare parts consumption will decrease. Another advantage is the use of the same pressure medium for both the suction device and the shearing mechanism.

BRIEF DESCRIPTION OF THE DRAWINGS The subject matter of the invention is explained in more detail in the accompanying drawings, in which: FIG. 1 is a sectional elevational view of a suction pistol with a pneumatic shearer in which the punch and relief piston are poorly returned by the working medium; wherein the punch and bypass piston valve is spring-returned.

Figure 1 is a cross-sectional view of a suction gun with a pneumatic fiber guiding cutter according to the invention, in which the pneumatic shear is a rigid cutting die 1 with a sharp edge 2, the die 1 being secured by a nut 3. provided in the pistol body 7 are channels 8a, 8b connecting the punching chamber 5 to the pressure relief chamber 9, which is vented through the apertures 10a, 10b. A duct 8a located at the top of the punch chamber 5 connects a portion of the punch chamber 5 above the piston 6 with a portion of the pressure relief chamber 9 located between the pistons 12, 13 of the piston relief valve 11. The duct 8b is at the bottom of the punch chamber 5 of the punch chamber 5 below the piston 6 with a portion of the pressure relief chamber 9 between the pistons 13, 14 of the relief piston valve 11.

The pressure relief chamber 9 is connected by ducts 15a, 15b to the pressure medium supply line 16 such that the pressure relief chamber 9a connects a portion of the pressure relief chamber 9 above the piston 12 to the supply line 16 and the duct 15b connects the pressure relief chamber 9 between the pistons 12, 13 pipe 16.

By moving the pressure relief valve 11 slidably mounted in the pressure relief chamber 9 to the operating position secured by the stop 21, a portion of the shear chamber 5 below the piston 6 connects to the pressure medium supply line 16 through the duct 8b and a portion of the pressure relief chamber 9 between the pistons 13, 14 channel 15b. The effect of the pressure medium on the piston 6 is. the punch 4 is thrown at high speed against the sharp edge 2 of the punch 1, whereby the thread 17 contained in the channel 18 is cut. The portion of the punch chamber 5 above the piston 6 is vented through the duct 8a, a portion of the pressure relief chamber 9 between the pistons 12, 13 and the vent hole 10a. When the pressure relief valve 11 is released, the pressure medium supplied by the duct 15a will act on the piston 12, thereby returning the pressure relief valve 11 to the initial position secured by the stop 19. Thus, a portion of the punch chamber 5 above the piston 8 is connected to the pressure medium supply line 16. by its effect on the piston 6, the punch 4 returns to the starting position defined by the stop 20. Part of the punching chamber 5 below the piston 6 is vented through the duct 8b, a portion of the pressure relief chamber 9 between the pistons 13, 14 and the vent 10b.

Figure 2 shows in cross-section a similar cutting mechanism in which both the punch 4 and the piston relief valve 11 are returned to their initial position by a spring 31 and a spring 31 respectively. 32, when shearing the fiber 17, the relief piston valve 11 is moved to the operating position, thereby transferring the punch chamber 5 below the piston 6 through channel 33b, a portion of the pressure relief chamber 9 between the pistons 34, 35, channel 36 with pressure medium supply line 16 to the piston. 6, the punch 4 is thrown at high speed against the sharp edge 2 of the punch 1, whereby the thread 17 is cut. When the piston relief valve 11 is released, it is returned to the starting position by the action of the spring 32, interrupting the supply of pressure medium to the punch chamber 5, which is connected to the atmosphere via the channel 33a and the venting opening 37. The punch 4 is returned to the starting position by the spring 31.

The suction gun with a pneumatic fiber guiding cutter can be used either as a portable device for operating fiber-producing machines or as a fixed device incorporated into these machines.

Claims (3)

P R E D Μ E T A suction gun with a pneumatic fiber guiding cutter, wherein the shearing mechanism consists of a fixed cutting die with a sharp edge against which a punch is displaceably mounted in the punching chamber, characterized in that the punch (4) is terminated by a piston (6) displaceable at the bottom of the punch chamber (5). A suction piston 1 'with a pneumatic fiber guiding device according to claim 1, characterized in that a portion of the punching chamber (5) above the piston (6) is connected by a duct (8a) to a portion of the pressure relief chamber (9) between 13j of the relief piston valve (11) and a portion of the punch chamber (5) below the piston (6) is connected by a duct (8b) to a portion of the relief pressure chamber (9) between the pistons (13, 14) of the relief piston valve (11) slidably mounted in the relief a pressure chamber (9) provided with two venting openings (10a, 10b) and ducts (15a, 15b) for supplying the pressure medium, the first duct (15a) being connected to the supply line (18) with a portion of the pressure relief chamber (9) above the piston (12) and the second inlet duct (15b), a part of the pressure relief chamber (9) between the pistons (12) is connected by the inlet duct (16). 3. Pneumatic stroke suction pistol according to claim 1, characterized in that the punching chamber (5) is connected by ducts (33a, 33b) to a pressure relief chamber (9) in which the pressure relief piston valve is slidably mounted. (11) with pistons (34, 35) provided with a venting opening (37) and connected by a duct (36) to a printing medium supply line (16), wherein a spring (32) is located in the pressure relief chamber (9) above the piston (34) ).