CS273612B2 - Cell blowing machine - Google Patents

Abstract

In a cellular pneumatic stower, in particular for placing stowing in mining and tunnelling, in which the revolving cells are formed by a rotating hub, its spokes and a rim and are closed off axially with the stationary machine housing, in which arrangement the half, allocated to one cell side, of the preferably split machine housing has in the direction of rotation of the cells a stowing discharge and a compressed-air feed opening, which is in alignment with a housing opening opposite it serving to deliver the stowing into the pneumatic line, as well as preferably several exhaust-air slots of an exhaust unit, the stowing-delivery opening being held under the pressure of the blast air and being arranged offset by in each case an arc of the housing curvature around the rim of the cells in the direction of rotation behind the discharge opening and in front of the exhaust-air slots, provision is made according to the invention for the housing sector under positive pressure relative to the stowing-delivery opening to carry a jaw press on an arc which starts from the exhaust-air slots and encloses the discharge opening, which jaw press acts with its jaws axially on both housing halves and counteracts the separting forces of the positive pressure, the jaws being axially adjustable.

Description

(57). The cell blowing machine, in particular for laying the foundation in mining and tunneling, has circulating cells formed by a rotating charge, its spokes and a rim, and axially closed by a standing two-part machine cover (2). The cover lead (2) associated with one side of the cells has a feed opening (12) in the direction of rotation of the cells and a recess (15) for compressed air which is coaxial with the discharge opening (20) in the lower half (4) of the cover (2) for supplying a foundation to a blow pipe, and a plurality of vent slots. The discharge opening (20) is offset in the direction of rotation by a certain arc of the circumference of the cover (2) downstream of the foundation chute (12) and in front of the ventilation slots. The cover section (2) against the foundation chute (12) carries a jaw press (33) whose axially adjustable jaws (34, 35) lie one above the other and press both halves (3,4) of the cover (2) to each other.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cell blowing machine for mining and tunneling, in particular for laying a base in which the orbiting cells are formed by a rotating charge, its spokes and rim and axially sealed by a machine stand. rotating the cells a foundation feed opening and a compressed air inlet which is coaxial with the opposite opening of the cover opening into the blow pipe and a ventilation slot, the discharge opening of the foundation being disposed with respect to the periphery of the cover offset in the direction of rotation behind the foundation opening and in front slits.

Cellular blowing machines are used in deep mining to dry blowing building materials and rocks to complete or partial foundation. The cells formed in the wheel or in the cell drum serve to pour the blown material, for example, a foundation into a standing blow pipe, where the material is conveyed by a stream of compressed air and where the particles of the base material have to be kept buoyant. In cell-wheel blowing machines, the cell wheel rotates around a vertical support shaft, in drum machines the drum rotates around a central shaft with a horizontal axis. Although the invention is also applicable to drum machines, it is further described by virtue of its main field of application, which are cell-wheel machines.

The need to seal cells in which there is a blowing pressure to the atmosphere results from the leakage of the blown air and the increased consumption thereof. On the other hand, the interior of the cells coming to the chute opening must be placed under atmospheric pressure so that the chassis can be introduced from the outside into the cell. The pressure relief of the cell wheel must take place in front of the foundation chute opening, inter alia in order to prevent the compressed air from blowing into the supplied foundation material. Effective exhaust slots are therefore upstream of the inflow opening in the direction of rotation of the cell wheel. In the foundation drain hole, for cell-wheeled machines, both housing halves must be provided with coaxial holes, one for the supply of compressed air to the cell and the other for the supply of compressed air and the contained base material to the blow pipe.

The seal requires between the fixed housing halves and the rotating edges of the hub and seal rim that protect the expensive cell wheel from unavoidable wear by friction that occurs between the orbiting and upright parts mainly due to the particles of the base material entering the sealing slots. Usually, this is used on the radially end faces of the hub and the wear ring rim. The seals are then preferably loaded with blown air pressure to make the pressure on the wear rings dependent on the blown air.

The invention is based on a known cell wheel machine of the described construction, wherein the cover is radially divided and its halves are clamped on a vertical shaft around which the cell wheel rotates. To do this, a gear ring on the hub of the cell wheel is used, with which the pinion of the blowing machine gear engages. In operation, the cover is jammed against the standing axle of the cell wheel due to the pressure difference between the cover sector where there is overpressure and the hopper opening sector where there is atmospheric pressure. This difference is considerable because the blowing pressure can exceed atmospheric pressure by three to five times. The resulting load on the housing causes considerable forces, since the surfaces on which the pressures are applied are very large. These loads create moments of inclination of the cell wheel with respect to the shaft, so that even with heavier shaft design, permanent deformations occur and damage and destroy the seals and rolling bearings on which the cell wheel hub is running.

SUMMARY OF THE INVENTION It is an object of the present invention to eliminate the rupture of the pinion against the support shaft in a blowing machine, thereby reducing machine wear.

SUMMARY OF THE INVENTION The sector of the cell wheel housing opposite the chute opening of the base carries a jaw press on an arc extending from the vent slots and comprising a foundation discharge opening, the axially adjustable jaws of which are axially adjustable above each other for downward pressure both halves of the cover.

According to a preferred embodiment, the jaw press is designed as pliers, the arms of which are connected to the jaws via a transmission. A pneumatic actuator is provided for actuating the arms: its pressure is identical to the blowing pressure exerted on the base outlet side of the cell wheel cover. The jaws of the jaw press abut on the outer edge of a sector of the cell wheel cover that is arranged around the cell rim.

The new or higher effect achieved by the invention can be inferred from the following:

The jaw press allows one-sided compression of the housing halves on the sector affected by the blown air under positive pressure. Thus, the jaw press externally acts against the internally acting forces which open the housing halves together and thereby transverse to the cell wheel. Thus, the jaw press produces counter-torques that counteract or compensate for skew moments such that jamming around the cell support shaft is avoided. Therefore, the advantage is that the cross-coupling causing premature wear of the machine and overloading of the roller bearings is reduced or eliminated. The design of the jaw press as a gripper has the advantage that the gripper arms increase the force of the weak drive to the degree needed to compensate for the forces moving the halves of the housing apart. The force exerted by the pliers can be generated here by the action of the energy in the blowing pipe and, moreover, be made dependent on the blowing pressure of the air supplied to the cell machine.

Since the jaw press is adjacent to the cell wheel and acts on the outer edge of the housing, it can be retrofitted, i.e. to existing cell blow molding machines.

The invention will be explained with reference to the drawing which shows a cell blowing machine in longitudinal section.

On the carriage 11 which carries the entire machine and makes it mobile on the mine corridor, a cover 2 of the wheel wheel 26 is provided in addition to the engine and the blowing machine transmission. The cover 2 consists of an upper half 2 ^{and a} lower half 2. clamped together. For this purpose, a support shaft is provided which has a flange at its lower end supported from the outside in a recess 2 of the lower half A of the housing 2. The upper half 2 of the housing 2 is connected to a spindle 2 which is driven by a worm gear. »When the spindle 2 rotates in the nut 11.

The upper half 2 of the housing 2 has a foundation chute 12 which is arranged at the outlet of the chute 12. Mostly the chute 13 is filled with the upper chute 14 by a continuous conveyor.

In an offset of about 180 'relative to the chute 12, the blow molding cover 2 has a recess IR in its upper half 2 through which compressed air can flow into the housing 2 coming from the inlet pipe 16 through the elbow 17 to the neck 18 and thence to the recesses 12. The blowing pressure is indicated by the pressure gauge 19.

The recess 15 is coaxial with the discharge opening 20 in the lower half 4 of the housing 2, through which the blown material passes into the connection pipe bend 21, which is arranged downstream of the connection piece 22. '

The upright support shaft 2 is mounted on the bearing rings 23, 24 on which the hub 25 of the wheel 26 is rolled. The cells are bounded by the radial spokes of the hub 25 and the rim 22. The front sides of the hub 25 carry wear rings 28, 29. rotate together with the charge 25 and the cells. The ends of the rim 27 are also covered by wear rings. Circular seals 22 »31 seal on the ends of the wear rings 22 '22 and on the faces of the two housing halves 2' A. On the sector 32 of the housing 2, which is located under the overpressure of the blowing pipe 16 against the foundation chute 22» The jaw press 22 is provided with its jaws 34 '35 axially on the two halves 2' A of the housing 2 and against the overpressure separating force and are axially adjustable.

For this purpose, the jaw press 33 has a transmission consisting of two collets 22 '22 »mounted on a bracket 37 of the cover 38 of the jaw press 33 and two rods 22' 40 articulated from the inside to the jaws 34, 22. The cylindrical bellows 40a, the ends of which are supported on opposite inner sides 41, 42 of the collets 36, are pivoted about the joints 43, 44 on the outer ring 10 of the housing 2 inwards and press directly against one flange 45, 46 of the housing sector 32.

The cover 38 of the jaw press 33 is connected via a tab 47 to the tab 48 of the blow molding housing 2.

In operation, a pinion 49 is driven from the output shaft of the blow molding machine, which engages a gear ring 50 mounted externally on the cell hub 25 or its rim 27. By actuating the shut-off flap by lever 51, the blowing pipe 60 opens and the air always flows through the cell located below the recess 15 and above the discharge opening 20 of the cover 2. The discharge opening 20 disperses the cell charge into a stream of compressed air flowing through the blowing duct 16 into the connection elbow 21. the filled cells are rotated to a position below the recess 15 and above the discharge orifice 20, and the emptied cells are routed through compressed air slots (not shown) forming part of the exhaust assembly. The pressure-relieved cells thus return to the position below the normal pressure hopper 13.

The cylindrical bellows 40a is filled with air pressure from the blowing pipe 16 and thereby forces the collets 36 apart from the blowing pressure force which is transmitted via the transmission to the jaws 34, 35. The jaws 34, 35 then compress the outer edges 45, depending on the blowing pressure. 46 of the cover 4 together and thereby hold together the two cover halves 3, 4 of the sector 32.

As a result, the machine housing 2 cannot cross on the upright support shaft 15.

Instead of the cylindrical bellows 40a, a spindle, manually or motor driven, may also be provided.

Claims (4)

SUBJECT OF THE INVENTION A cell blowing machine for mining and tunneling, in particular for laying a base in which the orbiting cells are formed by a rotating charge, its spokes and rim and axially closed by a machine upright, half of the divided machine cover assigned to one side of the cells has and a vent opening, the discharge opening of the foundation being arranged offset by one arc of curvature of the cover around the cell rim behind the charging opening, and in front of the vent slots, characterized in that the sector (32) of the cover (2) of the cell wheel (26) opposite the chute opening (12) carries an arc extending from the vent slots and comprising a foundation discharge opening (12). 20), jaws The press (33), whose axially adjustable jaws (34, 35) lie in the axial direction one above the other for the thrust of the two halves (3, 4) of the cover (2). Cell blow machine according to claim 1, characterized in that the jaw press (33) is designed as pliers, the arms (36) of which are connected to the jaws (34, 35) via a transmission. 3. A cell blowing machine according to claim 1, characterized in that a pneumatic actuator (40a, 41, 42) is provided to the arms (36). Cell blow machine according to one of Claims 1 to 3, characterized in that the jaws (34, 35) of the jaw press (33) abut the outer edge (45, 46) of a sector (32) of the cover (2) arranged around the rim (27) cells.