SU883285A1 - Tooth of active-action excavator bucket - Google Patents

Description

The invention relates to a device for the excavation and movement of frozen ^ soils and rocks without prior loosening.

Known for active action with shock teeth mounted in the hollow front wall ⁵ having a drive from pneumatic hammers. An impact tooth with a pneumatic hammer, front axle box, adapter sleeve and automatic start-up device form a single block of impact. The pneumatic hammer is turned on automatically when the tooth is pressed with a certain force, which is set by the calibrated spring of the C13 launch machine. ”

With such a design of the starting device, it is difficult to provide a sufficiently large switching force, _w which is determined by the dimensions of the calibrated spring, and they, in turn, are limited by the dimensions of the pneumatic hammer. In addition, the reliability and durability of the spring are low due to its high rigidity.

A tooth of an active excavator bucket is also known, including a tubular casing, a pneumatic hammer mounted in it with the possibility of axial displacement, a thrust washer, a bar with pressure screws and a mechanism for automatically starting a pneumatic hammer with a pneumatic jack G 21.

The disadvantage of this device is unreliable shutdown, pneumatic hammer with a decrease in compressed air pressure, which leads to significant shock loads in the structure and to a decrease in its durability. In addition, due to the summation of the errors arising from the machining of the tubular casing and the details of the automatic start mechanism with the errors obtained when adjusting this mechanism, its reliability will be removed.

The purpose of the invention is to increase the reliability and durability of the tooth excavator bucket active.

This goal is achieved by the fact that a spring is installed between the housing and the piston of the automatic start mechanism, while the housing is made in the form of a cover and a locking ring.

In FIG. I shows a tooth excavator bucket active; in FIG. 2 - device automatic start mechanism.

The tooth of the active excavator bucket contains a tubular casing 1 mounted in the casing with the possibility of axial movement of the pneumatic hammer 2, to which the automatic start mechanism 3 is attached, fixed in the tubular casing by a strap 4 with pressure screws 5. The compressed air is supplied to the pneumatic hammer through the channel 6 in the tubular . a casing; annular groove 7, radial channels 8 and the central channel

9. There is a window 10 for exhaust air exhaust on the side surface of the tubular casing. A cavity 11 of the pneumatic jack formed by a locking ring 12, a cover 13, and a piston 14 is connected to the central channel 9 by radial holes 15. The impact tooth 16 is mounted in the tubular casing 1 with the possibility of axial movement . The spring 17 is installed in the cavity 11 of the pneumatic jack.

Tooth excavator bucket active action-works as follows.

The cavity 11 of the pneumatic jack is under the network pressure of compressed air, therefore, with low resistance to stabbing, the pneumatic hammer 2 and the impact tooth 16 are pushed forward by the efforts of the pneumatic jack and the spring 17, the pneumatic hammer is turned off and the impact tooth works as a static one. Having encountered increased resistance to digging, the impact tooth is displaced in the hole of the tubular casing, moving the pneumatic hammer, which compresses the spring 17 through the piston 14 and displaces the compressed air from the cavity 11 of the pneumatic jack. When the housing reaches the preset position of the pneumatic hammer, it is turned on. Compressed air through the channel 6, the annular groove 7 and the central channel 9 enters the pneumatic hammer and puts it into action. Impact destruction of the rock occurs. Exhaust air leaves through window 10 into the atmosphere. If the resistance to digging on the impact tooth falls below the efforts of the spring and the jack, the air hammer and hammer. the tooth returns to its original position, the pneumatic hammer is turned off.

The strap 4 is inserted into the grooves in the rear of the tubular casing and, using the pressure screws 5, fixes a pneumatic hammer with an automatic start mechanism attached to it in the tubular casing against loss.

Therefore, the invention is aimed at improving the reliability and durability of the tooth of an active excavator bucket due to the guaranteed shutdown of the pneumatic hammer, regardless of the network pressure of the compressed air and eliminating the possibility of its idling in the absence of resistance to digging on the tooth (see figures 1 and 2).

Due to the fact that the pneumatic jack is supplemented with a spring, the force that acts on the pneumatic hammer and impact tooth _? remains sufficient to return them to their original position when the pressure of compressed air in the network decreases. The structural arrangement of the automatic start mechanism in a separate unit allowed to increase its reliability, which led to an increase in the durability of the entire structure.

Timely shutdown of the pneumatic hammer eliminates idle strikes of the striker, and also helps to increase durability.

Since the dimensions of all parts of the automatic start mechanism are small, the accuracy of their manufacture is easily controlled without any special tools or measuring tools, which simplifies the manufacturing technology, guarantees trouble-free operation of the mechanism and increases the life of the bucket of active action in general, and also increases the reliability of turning off the air hammer, therefore, the reliability of the whole mechanism is increased, downtime of the working equipment is reduced, which leads to an increase in productivity by 1.5-2 times.

Claims (1)

3 The purpose of the invention is to increase the reliability and durability of the tooth of an active excavator bucket. The goal is achieved by the fact that a spring is installed between the housing and the piston of the automatic start mechanism, and the housing is designed as a cover and a locking ring. FIG. Figure 1 shows an active excavator tooth; FIG. 2 shows a device for the automatic start mechanism. The active excavator bucket tooth contains a tubular casing 1 mounted in the casing with the possibility of axial movement of the pneumatic hammer 2, to which the automatic start 3 is attached, fixed in the tubular casing by the plan 4 with pressure screws 5. Compressed air is supplied to the pneumatic hammer through channel 6 in the tubular Ko / cyxej, an annular groove 7, radial channels 8 and a central channel 9. For exhaust air exhaust, there is a window 10 on the side surface of the tubular casing. The cavity 11 is of a pneumatic jack, azovanna locking ring 12, cover 13, piston 14 is connected with a central channel 9 radial holes 15. The impactor tooth 16 is mounted in a tubular casing 1 with the possibility of axial movement. A spring 17 is installed in the cavity 11 of the pneumatic jack. The tooth of the excavator bucket is active as follows. The cavity 1 of the pneumatic jack is located under the net pressure of compressed air, therefore, with a low resistance to digging, the pneumatic hammer 2 and the impact tooth 16 under the action of the efforts of the pneumatic jack and spring) 7 are pushed forward, the pneumatic hammer is turned off and the impact tooth works as static. Upon encountering increased resistance to digging, the impact tooth is displaced in the bore of the tubular casing, moving the pneumatic hammer, which, through the piston 14, compresses the spring 17 and forces the compressed air out of the cavity 11 of the pneumatic jack. When the pneumatic hammer body reaches a predetermined position, it is switched on. Compressed air through the channel 6, the annular groove 7 and the Central channel 9 enters the pneumatic hammer and brings it into action. Impact destruction of the rock occurs. Exhaust air escapes through the window atmosphere. If the resistance to digging on the impact tooth falls below the forces of the spring and pneumatic jack, pneumatic hammer and impact hammer. the tooth returns to its original position, the pneumatic hammer is turned off. Plank 4 is inserted into the grooves in the tail section of the tubular casing and with the help of pressure screws 5 fixes the pneumatic hammer with the automatic start mechanism in the tubular casing attached to it from falling out. Therefore, the invention is aimed at improving the reliability and durability of the active-duty excavator bucket by ensuring that the pneumatic hammer is turned off regardless of the magnitude of the compressed air net pressure and prevents its operation in the absence of digging resistance on the tooth (see Figures 1 and 2). Due to the fact that the pneumatic jack is supplemented by a spring, the force that acts on the pneumatic hammer and the impact tooth remains sufficient to return them to their original position while reducing the pressure of the compressed air in the network. The constructive arrangement of the automatic launch mechanism in a separate unit allowed increasing its reliability, which led to an increase in the durability of the whole structure. The timely shutdown of the pneumatic hammer eliminates idle strikes of the striker, also contributes to an increase in durability. Since the dimensions of all parts of the automatic start mechanism are small, the accuracy of their manufacture is easily controlled without any special tools or measuring tools, which simplifies the manufacturing technology, ensures trouble-free operation of the mechanism and increases the service life of the bucket in general, and the reliability of the pneumatic hammer increases. therefore, the reliability of the whole mechanism is increased, the downtime of the working equipment is reduced, which leads to an increase in productivity by 1.5-2 times but. Claims of the active action tooth of an excavator bucket, including a tubular casing, an air hammer mounted for axial movement, a bar with pressure screws, an automatic start mechanism, STATUS from the housing and a piston, which is characterized by the fact that in order to increase its reliability and durability A spring is installed between the body and the piston of the automatic start mechanism, and the body is designed as a cover and a locking ring. Sources of information taken into account in the examinations. 1. Nedorezov I.A. Equipment for the development of frozen and rocky soils. - Construction and road machines, 1967, No. 2. 2- USSR Author's Certificate 538136, cl. E 02 F 3/40, 1974 (prototype).