CS214488B1 - Bearing Air Conveyor - Google Patents

Abstract

The purpose of the invention is to ensure the transport of bearing bodies between technologically connected machines for face machining while maintaining their working sequence and directional orientation. The above purpose is achieved by an air conveyor which has a mechanical stop located on the upper part of the dosing tube 10 behind the separator £, consisting of a swing arm 11 on a pin 12, in which a flexible mass 18 extending through a cutout 13 into the dosing tube 10 and a movable weight 15 are firmly attached. On the lower part of the dosing tube 10 there is a blocking device consisting of a rod 21 slidably mounted in a swinging prism 22, provided at one end with a stop 2£ and at the other end with an adjustable weight 2JS, while the dosing tube £ at the end furthest from the overpressure nozzle 6 is provided with a conically shaped mouth £ and a cutout £.

Description

The invention ββ relates to an air conveyor of bearing bodies ensuring the transport of bodies between technologically connected forehead processing machines, while maintaining the work sequence and the American orientation.

At present, the inter-operation transport and dosing of the bodies into the grinding machines for the grinding of the face of the bodies is carried out manually, and it is necessary in particular for the dbatf taper to ensure the correct orientation of each body. When mechanical dischargers and directional guides are used, and the bodies are poured into the hopper from where they are conveyed by the chain conveyor to the hopper hopper.

After orientation, the bodies are guided by gravity into the feed wheel of the grinding machine.

The disadvantage of the current method is the high costs of construction of individual transport operations and their maintenance, greater demands on work space and energy.

With manual dosing the work is very strenuous and requires more workers.

The above-mentioned drawbacks are eliminated by the air conveyor of the bearing bodies according to the invention, which consists in the fact that a one-cone conduit mounted on the machine and provided with a conical groove with a cut-out is connected to the air pressure nozzle via piping connected via an air separator a dispensing tube provided with a pivotable mechanical stop and a horizontal locking device.

The inner diameter of the conduit, connection pipe, and dispensing tube is smaller than the maximum diagonal of the body and larger than its maximum diameter.

By using the air conveyor according to the invention, the in-process transport is made more efficient mainly by eliminating the need for the orientation of the bodies. The spinning of the bodies in the hoppers of the ejector and orlentator is removed.

The bodies after grinding with the first machine are mixed, but in unchanged sequence they are repaired by the second machine, thus improving the grinding quality.

Due to its simplicity of construction, the air conveyor is easy to manufacture, maintain, energy and adjust easily.

An exemplary embodiment of the invention is shown in the accompanying drawings, in which: FIG.

a longitudinal section through an additional tube, FIG. 2 shows a longitudinal section through a separator and FIG. 3 is a partial cross-sectional view of a metering tube with mechanical stop and locking device.

The adapter tube 6 is mounted on the machine 23 by means of an adjustable holder 2 and is provided with a tapered orifice 6 with a cut-out 2. The air pressure nozzle 6 is connected to one end thereof. prestaviteltaom the stand 2 ⁸ dispensing tube 10 while the tube dávkovaoia the top of the IQ-mechanical abutment provided slúžiaoou to reduce the kinetic energy j pozostávajúoej bodies of the rocker arm 11 on the pin 12, in which the fixed screw 17 pomooou uohytená resilient material 18 zasahujúoa one Kono In the lower part, the dispensing tube 10 is equipped with a horizontal locking device to maintain the desired dose rate of the dosages 14 in the lower part of the dispensing tube. The locking device consists of a rod 21 displaceably displaceable in a pivot beam 22 provided at one end with a stop 23 adjustable by means of a screw 24 and at the other end with an adjustable weight 25 secured by a screw 26 The body 19, after being ejected from the feed disc, falls into the conical groove 6, from where it is sucked in and via the pipe connection χ and the separator 8 transferred to the dispensing tube 10. Its kinetic energy is dampened by a mechanical stop. The necessary force to insert the body 19 into the feed disc 20 is exerted by a potential column of bodies formed by the locking device.

Claims (1)

The air conveyor of the bearing bodies consists of an alignment tube, an air overpressure nozzle of the connecting pipe and a separator characterized in that a mechanical stop consists of a pivot arm (11) on the pin (12) at the top of the dosing tube (10), downstream of the separator (8). ), in which the resilient mass (18) is fixedly engaged by the cutout (13) into the dispensing tube (10) and the movable weight (15), at the bottom of the dispensing tube (10) is a locking device consisting of a rod (21) displaceable in a swinging prism (22) provided with a stop (23) at one end and an adjustable weight (25) at the other end, wherein the assignment tube (1) at the end remote from the pressure nozzle (6) is provided with a tapered mouth (4); notch (5),