RU2002900C1 - Power shovel excavator - Google Patents

Abstract

Usage - the invention relates to construction, in particular to devices for excavation and moving soil, and can be used to excavate rocks and frozen pounds without prior loosening in the construction and mining industries. SUMMARY OF THE INVENTION: in order to increase the reliability and efficiency of operation in a single-bucket excavator, including an arrow, a handle, a compressor, a receiver and an air duct, the air duct from the compressor to the bucket is made of pipes connected by pieces of flexible hose, and the receiver is connected to the air duct in parallel. It is advisable to lay the pipes along the boom and the handle and connect them with a flexible hose attached to the pipe in the middle between the handle travel limiters. It is advisable to fasten the flexible hose to the pipe by means of an angular hinge. It is advisable to include an anti-icer of 3 PLN, 1 silt in the air duct.

Description

The invention relates to construction, in particular to devices for excavation and soil movement, and can be used to excavate rocks and frozen soils without prior loosening in the construction and mining industries.

Known bucket excavator, on the rear platform of which a compressor is installed, connected by a pipeline to the receiver, mounted on the rear platform of the excavator. From the receiver, compressed air is piped into the air distributor. Swivel joints or flexible hoses are installed at the bend points of the air duct.

A disadvantage of the known device is that the air duct allows only angular movements of the elements of the working equipment relative to each other.

Closest to the technical nature of the invention is a single-shaft excavator with a bucket equipped with vibrating teeth. A well-known excavator includes a compressor and an air collector mounted on the side of the excavator on a metal cantilever structure mounted on a swing frame. Vibrating teeth are installed in the front front wall of the cotter, powered by a hose and channels in the bucket. A boom-mounted tension drum is installed on the boom, which automatically adjusts the hose length.

A disadvantage of the known excavator is that in order to ensure a more uniform tension of the flexible hose, an additional mechanism in the form of a tension block drum is required, which complicates the design and, therefore, reduces the reliability of the excavator as a whole.

In addition, the flexible hose sags, when turning the excavator, it touches the rock and may break. Thus, the reliability of the air supply in the known excavator is low.

It is also possible to freeze air hammers in the cold season. This is because the receiver is turned on in series. When the receiver is turned on in this way, the air cools down and oil vapor precipitates.

The aim of the invention is to increase the reliability and efficiency of the excavator.

This is achieved in that in a single-bucket excavator with an active bucket, including an arrow, a handle, a compressor, a receiver and an air duct, the air duct from the compressor to the bucket is made of pipes connected by pieces of flexible hose, and the receiver is connected to the air duct in parallel.

In order to ensure freedom of angular and translational movements of the handle on the boom with a minimum length of the flexible hose section, it is advisable to run the pipes along the boom and handle and connect with a flexible hose attached to the pipe in the middle between the handle travel limiters.

To reduce the possibility of a break

5 of the flexible hose, it is advisable to fasten it to the pipe by means of an angular hinge.

In order to improve the operation of the excavator in the cold season, it is advisable to include an icer in the air duct.

The implementation of the air duct in the form of pipes connected by segments of a flexible hose to a receiver connected in parallel to it is unknown.

5 The drawing shows a diagram of a shovel excavator with an active bucket and an air supply system.

One-shaft excavator with active bucket includes body 1, boom

0 2, handle 3, compressor 4, receiver 5, air duct made of pipes 6 laid along body 1, boom 2 and arm 3 and connected at the points of transition from body 1 to boom 2 with a piece of flexible hose 7 and with

5 arrows 2 to the handle 3 - with angular joints 8 and a piece of flexible hose 9, and anti-icing device 10 included in the air duct b. The receiver 5 is connected to the air duct 6 in parallel.

0 The proposed single-bucket excavator operates as follows.

Before the excavator starts to operate, compressor 4 is turned on and after the pressure in the air supply system to 5 reaches a predetermined value, the development begins. The bucket 11, starting from the bottom, describes a spiral trajectory, removing chips of a certain thickness, / free teeth 12, when a specified digging resistance occurs, include pneumatic hammers. Hammers of pneumatic hammers strike the shanks of the impact teeth 12, as a result of which the rock is destroyed. The number of simultaneously activated pneumatic hammers at the instantaneous values of the compressed air flow varies depending on the structure of the bottom from zero to a maximum equal to the total consumption of pneumatic hammers installed in the bucket. The compressed air heated in the compressor 4, together with the oil vapors, enters directly into the pneumatic hammers, lubricates them and increases their service life and reliability, as well as preventing freezing in the cold season. With a large flow rate of compressed air exceeding the capacity of the compressor 4, the pressure in the air supply system is stabilized by the receiver 5. Due to the fact that the receiver 5 is connected to the air supply system in parallel, the compressed air does not have time to cool and oil vapor does not settle. To combat freezing, an anti-icer 10 is additionally included in the air supply system, filled with a volatile liquid, the vapors of which are sucked in by a stream of compressed air.

The ability to change the scooping radius of the bucket 11 is provided by translational movements of the handle 3 in the saddle bearing 13.

The design of the air duct does not limit the angular and translational movements of the handle 3 relative to the boom 2, due to the presence of a piece of flexible hose 9. Since the main part of the air duct is made of pipes 6, it can

damage is greatly reduced and therefore the reliability of the excavator is improved.

A flexible hose 9 is connected to an angular hinge 8, mounted on a pipe mounted on a handle 3 in the middle between the travel stops 14. Such a design of the air duct allows its minimum length to be ensured, which ensures freedom of movement of the handle 3 relative to the boom 2 and the minimum possible air path resistance . A shorter air duct 6 than in the known analogues allows preserving the temperature of the compressed air, which will improve the lubrication conditions of pneumatic hammers.

Using the proposed design allows the excavator to work in the cold season, which leads to an increase in its average annual productivity by approximately 5%.

(56) USSR Copyright Certificate No. 99240, cl. B 02 F 3/40. 1954.

USSR copyright certificate No. 90798, class 02 B 3/40, 1952.

Claims (4)

1. A SHOWER EXCAVATOR WITH AN ACTIVE ACADEMIC Bucket, including an arrow, a handle with a travel stop and a pneumatic system containing a compressor, a receiver and air ducts, characterized in that, in order to increase the reliability and efficiency of the excavator, the air duct connecting the compressor to the bucket is made from pipes interconnected by means of pieces of flexible hose, while the receiver is connected in parallel with the air duct. 2. The excavator according to claim 1, characterized in that the air duct pipes are placed on the boom and the handle and the connecting piece of the flexible hose connecting them is fixed to the pipe in the middle, the distance between the hand travel limiters. b 3. The excavator according to claim 1, characterized in that the segments of the flexible hose are connected to the pipes by means of corner joints. 4. The excavator according to claim 1, characterized in that it is equipped with anti-icing a mechanism associated with the air duct. .. ..v |; , -., --i-r r / . .; - - .. -tl-A - .M T7S: i; 4 / (and -  ff /  iiiiispii  I il:. :; ... - i .- (.l.-l. t-u:; -; tv ||,. - (.- К vl 4. H ( XWtelAi, .Ts. /. | ..h; ,,, -. ,,     W: ifeai-ys ® 4 .-,,: -. T.t  fefM: j; .- - ct .., -Vi -...; W