SU876564A1 - Device for treatment of sheet glass articles - Google Patents

Description

The invention relates to devices for threading products and sheet metal having a complex curved perimeter shape, and can be used in the glass manufacturing industry. A device for processing sheet glass products that incorporates torch burners mounted in rows on mechanisms for moving articles is known. tljThe disadvantages of this device. are the inability to carry out selective heat treatment, for example, the melting of the edge of a product of LI of various configurations and different sizes, the complexity of control.,. The most sophisticated offer is a device for treating sheet glass products containing flare burners, assembling rows of mechanisms for moving products, a power source, a low pressure source, a voltage source for the number of flare burners, electric fuses, air nozzles a pressure switch and two solenoid valves for each flare burner, the air supply nozzles being connected via a corresponding pressure switch to a low pressure source, electric joint and electromagnet These valves are connected to the power source through the short-circuiting contacts of the corresponding pressure switch 2. A disadvantage of this device is the inability to control the burning rate of the combustible mixture in the torches of the burners, which does not allow to adjust the burning mode when changing the speed of movement of the products, which can change, for example, depending on the change in the thickness of the products or their size, shape, etc. The absence of the aforementioned possibility impairs the quality of the melting of the edges of the products when their processing parameters change. The purpose of the invention is to improve the quality of machining in JX products. This goal is achieved by the fact that a device for processing sheet glass products containing torch burners mounted in rows on mechanisms for moving articles, a power source, a low pressure source, voltage sources according to the number of torch burners, electric bulbs, supply nozzles of air.

A pressure relay and two solenoid valves for each flare burner. The air nozzles are connected via a corresponding pressure switch to a low pressure source, electric heaters and solenoid valves are connected to a power source through the make contacts of the corresponding pressure relay, equipped with a movement speed meter, a reference element and two regulators tori, and the velocity meter is displaced through an element of comparison with one of the controller inputs, the other inputs of which are connected They are connected to the voltage sources, and the outputs of the regulators are connected to the corresponding electromagnetic valves.

The drawing shows the control circuit of the operation of flare burners, a block with burners, a longitudinal section.

The glass product 1 is moved relative to the support 2 by means of the drive rolls 3. Flare burners 4 and 5 are installed in the support case 2. In the immediate vicinity there are electric burners 6 and 7, for example, nichrome spirals. One ends of the electric igniters 6 and 7 are electrically connected to the grounded support 2, and the second passes through the nozzles 8 and 9, which through the pressure relay 10 and 11 (respectively) are connected to a low pressure source 12, such as a low-power fan. The flare source 4 is powered by a combustible mixture through solenoid valves 13 mounted on the burner pipelines from voltage sources 14 and 15 (energy carrier). Flare source 5 is powered from sources 14 and 15 of energy carrier through solenoid valves 16. Electric power supply (+27 V). Electromagnetic valves 13 and 16 are supplied from electrical voltage source 17 via toggle switch 28 and normally closed contacts of pressure relay 10 and 11 . The output pipelines of the sources 14 and 15 of the energy carrier are connected to the output of the controllers 19 and 20 of the flame intensity of the flare burners.

The output of the speed meter 21 is connected to the input of the comparison element 22 to the second input of which a constant reference voltage is applied.

the output of the comparator unit 22 is connected to the controllers 19 and 20.

The device works as follows.

In the absence of glass product 1 on support 2, the nozzles of the flare sources 4 and 5, as well as the nozzles 8 and 9, are open. Air from the low pressure source 12 flows through a relay.

10 .and 11 pressure in the nozzle and freely goes into space. Air flow and pressure are adjusted so that the contacts of the pressure switches 10 and 11 remain closed. When the toggle switch 18 is turned on, the +27 V voltage from the source 17 is supplied through the closing contacts of the pressure relay 10 to the power supply of the electric connector 6 and the solenoid valves J.3. The latter are triggered, giving access to energy sources, such as oxygen and acetylene from sources 14 and 15, to flare sources 4 through controller 19. From electric heater 6, the energy source ignites and flare source 4 goes into working condition, and a flare of oxygen-acetylene combustible is ignited in it. At the same time, the voltage +27 in comes through the closing contacts of the pressure relay 11 to power the electric igniter 7 and the solenoid valves 16. The latter are activated. The energy source from sources 14 and 15 enters the torch of the flare source 5 and it also goes into working condition.

When moving on support 2, product 1 crosses the last edge of the flames of the flare source 5. The edge melts. At the same time, the flame intensity of the flare source 5 is determined by the position of the regulating element - the regulator 19, which in turn depends on the speed of movement of the products 1 along support 2. O

As product 1 advances, it overlaps the nozzle of the flare source 5, and with it the nozzle 9. As a result of the nozzle-damper pressure, the pressure in the nozzle 9 increases, the pressure relay 11 triggers and opens the power supply circuit of the electric igniter 7 and the solenoid valves 16. torch source

5, the gear 19 stops and the torch lit in it goes out.

When the product 1 overlaps the nozzle of the flare source 4 and the nozzle 8, the pressure relay 10 triggers and the electric burner switches off.

6 and solenoid valves 13. The supply of the energy carrier to the flare source 4 also stops, with the result that the torch lit in it also goes out.

With further movement of the product 1, its rear edge slightly opens the Prisoplow space and the pressure in the nozzle .9 decreases. The contacts of the pressure switch 11 are closed. The voltage +27 V goes to the electric igniter 7 and the solenoid valves 16. The energy source goes through the regulator 19 to the nozzle of the flare source 5 and lights up from the electric fuse 7. The trailing edge of the product 1 is melted.

passing the trailing edge of product 1 over it. When the speed of rotation of the rolls 3 changes, the speed of movement of the product Iv changes accordingly. The voltage generated by the unit 21 changes. This voltage goes to the input of the comparison unit 22 and is compared with the reference voltage. from the magnitude and mismatch sign at the output of the comparison element 22, the actuating mechanism of the regulators 19 and 20 is set; In such a position that the intensity of the flare sources 4 and 5 provides a good melting of the edges products 1.

Claims (2)

1. The patent of France 1414887, cl. From 03 To 32/00, 1971. 2. USSR author's certificate 5 No. 727579, cl. From 03 To 32/00, 1978 (prototype). Tji . J f. 7 j , i L / .. /} .. 7 it .3 /