SU278057A1 - DEVICE FOR VACUUM CALIBRATION OF PIPES - Google Patents

Description

A device for vacuum calibration of tubes is known, which includes a rotary table with rotating mandrels, an actuator of the rotary table and mandrels, and movable burners and a running-in mechanism.

The purpose of the invention is to improve the quality of calibration.

This is achieved by the fact that the device for moving the burners is made in the form of a pneumatic-hydraulic cylinder with a throttle speed control.

The drive of the rotary table and mandrels is made in one unit and equipped with a pneumatic actuator coupling for periodically turning on the table and continuous rotation of the mandrels.

The drawing schematically shows the proposed device, which is a carousel-type semiautomatic device operating in automatic mode, with a pneumohydraulic calibration mechanism and a mechanical drive.

A sleeve 1 is installed on the core column of the core, with which the carousel 2 (rotary table) and gear 3 with disk 4 with grooves are rigidly fastened. On the sleeve / slide, a block 6 is installed, receiving rotation from the gear with the gear wheel of the electric motor 7 and the gearbox, connected by a V-belt transmission 8.

The gearbox contains a worm gear 9, two pairs of cylindrical gear wheels W, 11, a half coupling 12, rigidly connected to the shaft 13, on which the drive gear 14 is loosely mounted, which is held in the spring position by the spring 15. The drive wheel is in contact with the shaft 16 of the cylinder 17 mounted on the gearbox housing. On the shaft 18 of the gearbox is fixed drive shchestren 19.

Mandrels 21 are installed in the sockets of the 20 shpindles. The spindle consists of the proper pin of the 22, the friction clutch 23 and the pressure gauge 24, which is freely installed on the pin itself between the friction plates. The lever 25 has a roller 26 which, when attacked to the fists of the skeleton in the loading and removal positions, keeps the spindle from rotating.

The carousel is locked in working position by a latch consisting of a lever 27 fixed on an axis 28, a roller 29, a spring 30 and a cylinder 31, the brush of which is in contact with the shank of said lever controlling two three-way valves 32 and 33.

The heating and sealing of the ends of the glass cylinder or the assembly on the mandrel prior to calibration is carried out by the running-in mechanism 34.

and stitching rollers 37 on forks hingedly connected with 3S brackets. The forks are spring-loaded, which makes it possible, when using roller rollers to run in the ends of glass cylinders, to ensure their snug fit to the glass with a certain, predetermined force.

The sleeves 39 are interconnected by a pull 40, which is preloaded on one side by a spring 41, and on the other rests on a lever 42. The shank of this lever is in contact with the cylinder rod 43.

Drain calibration is accomplished by a mechanism 44, which ensures smooth mixing of calibration burners 45 mounted on a rod 46, which by means of a plug 47 is connected to the rod of a pneumohydraulic cylinder 48. On axis 49 a swinging head, an emphasis 50, controlling a three-way valve 51 The plug 47 controls the valve 52.

The intensity of the flame for preheating the mandrels before installing glass blanks on them is controlled by the mixer 53.

In the initial position, the latch roller 29 is held by the action of the spring 30 in the slot of the disk 4, rigidly connected to the gear wheel 3 and the carousel 2. The shank of the lever 27 retracts the pusher clanan 32.

When the electric motor 7 is turned on, dyeing through a key-time transmission 8 and a gearbox is transmitted to the gear unit 6 and then to the spindle. The mandrels 21 installed in the nests of the spindles come at a time. At the same time, the dedication is transmitted to the half coupling 12. The drive gear 14, which is in engagement with the gear wheel 3, is held in a suspended position by the spring and slides along the shaft 13.

When the speed controller (throttle) is installed at the desired position, oil flows into the rodless cavity of the pneumohydraulic cylinder 48 under pressure. Its stem is mixed at a given speed and there is no stem 46 of the calibration torches 45 connected with it by a fork 47.

When mixed, the plug 47 by the stop 50 acts on the valve tappet 51, inserting it and connecting the working cavity of the cylinder 43 to the air line. The rod deflects the lever 42, which mixes 40. The ha turns the sleeves 39 and the brackets 38 fixed on them with forks and rollers 37. The rollers, pressing against the ends of the glass pre-heated by burners 36, seal them on the mandrel 21. The process of rolling. When the valve tappet 51 is released from the action of the stop 50, the working cavity of the cylinder 43 will communicate with the atmosphere, and the prulsin 41 will return the running-in mechanism 34 to its original position.

At the end of the stroke of the pneumatic cylinder 48, the valve pusher 52 is depressed, and compressed air from the line enters the working cavity of the cylinder 31. Overcoming the force of the spring 30, it moves the lever 27 and removes the roller 29 from the groove of the disk 4. At the same time, the valve pusher 32 and the lever are released 27, the valve tappet 33 is sunk. As a result, compressed air enters the rod cavity of the pneumohydrocydra 48. The rod is stirred up, displacing the piston oil from the other cavity of the cylinder. The calibration torches 45 connected kinematically with the rod are reset to the starting position with the required speed. In this case, the anvil 50 rotates and does not affect the natcate of valve 51, and after its passage returns to its original position.

When pushing the valve pusher 33, the working cavity of the cylinder 17 of the table drive is connected to the air line. The rod 16, overcoming the force of the spring 15, lowers the drive gear 14 and impresses its coupling half to the coupling half 12, ensuring the transmission of torque to the gear 3. The carousel turns to position. at the end of rotation, the cam (not shown in the drawing) attached to the slot disc 4 acts on the valve. At the same time, the working cavity of the cylinder 31 is connected to the atmosphere. Under the action of the spring 30, the lever 27 turns and presses the roller 29 to the dial 4. The lever 27 leaves the valve 33 pusher free - the working cavity of the cylinder 17 is in communication with the atmosphere, the spring 15 pushes the rod 16 and the drive gear 14 to its original position. The carousel continues to rotate by inertia until the roller 29 sinks into the groove of the disk 4. At the same time, the pusher of the valve 32 sinks and the oil flows into the rodless cavity of the hydraulic cylinder 48. The cycle is repeated.

Subject invention

Claims (2)

1. A device for vacuum calibration of tubes, containing a rotary table with rotating mandrels, an actuator of a rotary table and mandrels, movable burners and a running-in mechanism, characterized in that, in order to improve the quality of calibration, the fixture for moving the burners is made in the form of a pneumatic-hydraulic cylinder with an adjustment throttle speed. 2. The device according to claim 1, characterized in that the rotary table and mandrels are driven in one block and are equipped with a pneumatic actuator coupling for periodically switching on the table and continuous mounting of the mandrels. 3J V 45 42