RU209428U1 - Perforator for opening tapholes of industrial furnaces - Google Patents

Abstract

The utility model relates to the field of metallurgy, namely to a perforator for opening tapholes of industrial furnaces. The perforator contains a housing in which a distribution block fixed in the housing with the help of two pins is located with a piston-striker installed in it, in which a shaft is located connected on one side to a hydraulic motor through a coupling fixed in two bearings, and on the other hand, to a shaft fixed in spindle, through a bushing and a chuck in two bearings, a shank, and the working cavity of the perforator, which is insulated with five seals, and the ends of the perforator body are closed on one side by a cover, and on the other, by a flange. The bearings that hold the shank in the spindle are made as double-row roller bearings, and the center distance between these bearings is 163-200 mm. EFFECT: increase of transmitted torque to the shank due to the use of a kinematic chain of hydraulic motor-coupling-shaft-shaft shank while increasing the resistance of the shank to loads, which allows to increase the length of the rod, increase the diameter of the drill bit and increase productivity. 1 ill.

Description

The utility model relates to metallurgy, namely to devices for opening tapholes of industrial furnaces.

Known perforator for opening tapholes of metallurgical units, having a housing in which are located: a distribution block fixed in the housing with at least two pins, with a piston-striker installed in it, in which a shaft is located, connected on one side to a hydraulic motor, through a coupling fixed in two bearings, and on the other hand, with a shank fixed in the spindle, through a bushing and a cartridge in two bearings, and the working cavity of the perforator is insulated with at least five seals, and the ends of the perforator body are closed on one side with a cover, and on the other hand, a flange (Patent of Ukraine for a utility model "Punch for opening tapholes of metallurgical units" No. 91705 (U) dated 10.07.2014, application No. and 201401976 dated 26.02.2014, published on 10.07.2014, bull. No. 13 ).

In the known device, the drilling tool is fixed in angular contact bearings, which are structurally relatively narrow and, for this reason, relatively less wear resistant.

In the design of the well-known hammer drill, the base (the distance between the bearings) is 60 mm, which, to ensure sufficient rigidity of the shank during its rotation, is relatively insufficient, which leads to shank runout, and as a result, to its rapid wear. For this reason, the liner seals also wear out, which leads to a decrease in the efficiency of blowing the drill rod and the destruction of the liner occurs when the loads on it are exceeded, including in unforeseen extreme conditions.

The known technical solution of the device does not provide for the possibility of increasing the impact energy and torque of the drill rod (the torque in the known device is 720 Nm), does not provide for an increase in the service life of the perforator units (tail section), bearings and replacement of bearings with more powerful ones.

The basis of the proposed technical solution is the task of creating a device that would not have the above disadvantages.

The task is achieved by the technical development of a perforator for opening tapholes of industrial furnaces, the essence of which is illustrated by a schematic representation in Fig.1.

Brief description of the drawing

Fig. 1. Schematic representation of a perforator for opening tapholes of industrial furnaces.

1 - body; 2 - pin; 3 - distribution block; 4 - piston-drummer; 5 - shaft; 6 - hydraulic motor; 7 - bearing that secures the clutch; 8 - clutch; 9 - spindle; 10 - bushing; 11 - cartridge; 12 - bearing, fastening the shank; 13 - shank; 14 - sealant; 15 - cover; 16 - flange; 17 - working stroke chamber; 18 - reversing chamber; 19 - purge channel of the shank.

Perforator for opening tapholes of industrial furnaces (hereinafter also referred to as "perforator"), having a body (1) in which are located: fixed in the body with at least two pins (2), distribution block (3) with installed in it a piston-impactor (4), in which a shaft (5) is located, connected on one side to a hydraulic motor (6), through a coupling (8) fixed in two bearings (7), and on the other - to a spindle (9) fixed in the spindle, through the bushing (10) and cartridge (11) in two bearings (12), shank (13), and the working cavity of the perforator is insulated with at least five seals (14), and the ends of the perforator body are closed on one side with a cover (15), and on the other - a flange (16).

The rotary hammer is distinguished by the fact that the bearings that hold the shank in the spindle are made as double-row roller bearings, and the center-to-center distance between these bearings is at least 163 mm.

To bring the perforator into working condition, the following regulated energy carriers are pumped under pressure:

- working fluid (oil) - into the hydraulic motor;

- compressed gas (air, nitrogen) - into the purge system;

- compressed gas (air, nitrogen) - into the percussion mechanism.

The operation of the perforator is also possible without compressed gas injection under pressure, while there will be no blow and purge, which allows the perforator to be used on objects where there is no compressed gas.

For the possibility of operation of the piston-drummer, compressed gas is injected from an external source through pipelines into the perforator. Under the pressure of the gas supplied through the distribution block to the chambers of the working (17) and reverse (18) strokes, the piston-striker performs reciprocating movements. At the end of the stroke, the hammer piston strikes the shank, causing a shock impulse. The frequency and energy of the blows applied depend on the pressure (flow rate) of the compressed gas that is injected into the perforator.

The torque to the shank of the perforator is transmitted from the hydraulic motor through the kinematic chain - hydraulic motor-coupling-shaft-shaft.

Purge of technological equipment (drill rod) with compressed gas during drilling is carried out through the purge channel (19) of the perforator shank.

To facilitate the process of replacing wearing parts, the front part of the hammer is made easily detachable.

The work of the perforator is supervised in the order indicated in the passport of the device (perforator for opening tapholes of industrial furnaces).

The perforator for opening tapholes of industrial furnaces according to the claimed technical solution has the following advantages:

- the perforator has a relatively larger - 1200 nm - shank torque;

- the shank can withstand relatively large (at least 3.3 times) loads, with an increase in the length of the drill rod and an increase in the diameter of the drill bit;

- the perforator can open the tap-hole of the furnace of greater (at least 1 m) length, and with harder refractory (shot-hole) masses;

- due to the increase in the rigidity of the shank maintenance system in double-row roller bearings, the service life of the perforator is relatively longer.

The perforator according to the claimed technical solution was industrially operated for six months in the blast furnace shop of the Magnitogorsk Iron and Steel Works (Magnitogorsk) at various loads, without losing its technical characteristics, and thus fully confirmed the possibility of its use in any metallurgical production. A perforator for opening tapholes of industrial furnaces can be manufactured at any production facility equipped with turning, milling, boring and grinding machines using structural steels 35; 45; 40X; 20XH3A and their analogues.

Claims (1)

A perforator for opening tapholes of industrial furnaces, having a body in which a distribution block fixed in the body with the help of two pins is located with a piston-striker installed in it, in which a shaft is located connected on one side to a hydraulic motor through a coupling fixed in two bearings, and with the other - with a shank fixed in the spindle through a bushing and a cartridge in two bearings, and the working cavity of the perforator is isolated with five seals, and the ends of the perforator body are closed on one side by a lid, and on the other - by a flange, characterized in that the bearings that are held in spindle shank, are made as double-row roller bearings, and the center distance between these bearings is 163-200 mm.

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