RU178147U1 - Installation for the manufacture of constrictions in quartz ampoules - Google Patents

Abstract

The installation is designed for shaping the walls of quartz ampoules in the process of manufacturing constrictions and can be used in the pharmaceutical, chemical, food industry. An ampoule rotation mechanism, including a vacuum bearing, a stepper motor, and an ampoule holder, is mounted in the installation case. A tripod is mounted on the upper plate of the housing, on which two heating elements are installed, located at an angle of 10 ... 170 ° opposite each other. Heating elements have the ability to adjust the position. The microcontroller system of the installation provides regulation of the rotation speed of the ampoule during the process of formation of constrictions. The vacuum system of the installation, including a vacuum pump, vacuum regulators and a vacuum gauge, creates a vacuum in the ampoule, due to which the ampoule is held in the holder and the walls of the ampoule are shaped during the manufacture of constrictions. The installation has a positioner, height-adjustable ampoules, which provides centering of the ampoule relative to its axis of rotation.

Description

The utility model relates to the field of shaping the walls of quartz ampoules and can be used in the pharmaceutical, chemical, and food industries.

A device is known for the manufacture of glassware from a tubular billet (USSR author's certificate No. 234626, published: 01/10/1969), containing a mechanism for rotating the billet and a gas burner mounted on the frame. The proposed device for the manufacture of quartz crucibles from a tubular billet is equipped with two forms in communication with a vacuum pump, for example, graphite, with perforated bottoms, one of which is mounted for movement in a horizontal plane.

A device for the manufacture of shaped glass tubes (US patent No. US4675043A, published: 02/06/1984), containing a vertical mandrel, which one takes the tube from the feed device and rotates them relative to two gas nozzles designed to heat them. The pipe is heated in an axial limited intermediate zone, as a result of which an hourglass-shaped profile is formed. The profile of the tube is scanned by a camera that generates two signals that determine the inner diameter. After reaching the inner diameter of the tube to the desired value, the two nozzles turn into an inactive position.

A known method and device for the manufacture of a shaped glass tube that meets the requirement of straightness of its axial line (US patent No. US4111677A, published: 09/05/1978). The method includes hanging the tube in a vertical direction, and a load of a certain weight is attached to the bottom of the tube. In the process of heating, the tube rotates while heating is performed to a temperature at which it becomes slightly plastic, but lower than the temperature at which the load can significantly stretch the tube. This heating to the point of plasticity allows the load to straighten any axial deviations in the tube. After straightening, the tube locally heats up to a higher drawing temperature, sufficient for the load to stretch the tube to a given length and, thus, ensure a uniform inwardly narrowed part in the center of the tube. Then, if necessary, at the point of narrowing, the tube can be cut into two parts.

The disadvantages of the known installations, selected as analogues of this utility model, is that they have a complex structure, limited functionality and do not allow controlled shaping of quartz glass ampoules.

The objective of this utility model is to create an installation devoid of these drawbacks.

The result is a technical result, which consists in simplifying the design of the device and expanding its functionality with the possibility of controlled shaping of ampoules of quartz glass, in particular the creation of an ampoule of the required dimensions.

The specified technical result is achieved by creating an installation for the manufacture of constrictions in quartz ampoules, containing an ampoule holder with a rotation mechanism, heating elements with mechanisms for moving them, while containing a housing in which the ampoule rotation mechanism is mounted, including a vacuum bearing, a stepper motor and an ampoule holder, a tripod on which two heating elements are installed, located at an angle of 10 ... 170 ° opposite each other, with the possibility of subsequent adjustment of their position microcontroller system that regulates the rotation speed of the ampoule during the process of forming the constrictions, a vacuum system that includes a vacuum pump, vacuum regulators, a vacuum gauge and creates a vacuum in the ampoule, due to which the ampoule is held in the holder and the walls of the ampoule are formed during the manufacture of constrictions, positioner, height-adjustable ampoules and centering it relative to the axis of rotation.

The essence of the claimed utility model is illustrated by graphic materials on which:

- in FIG. 1 - General view of the installation for the manufacture of constrictions in quartz ampoules;

- in FIG. 2 - mechanism of rotation of the ampoule;

- in FIG. 3 - vacuum diagram of the installation for the manufacture of constrictions in quartz ampoules.

Inside the installation case, an ampoule rotation unit is mounted, which includes a stepper motor 18, a vacuum bearing 16, a shaft with a central bore 15 and angular contact ball bearings 17. The rotation from the stepper motor to the shaft is transmitted by a belt drive. The lower end of the shaft 15 is connected to a vacuum bearing 16, and a holder 10 made of vacuum rubber is attached to the upper end. An ampoule 11 is mounted on the holder 10, after which it is fixed in the upper part by means of the positioner 13. An adjustable level is fixed on the positioner 13, indicating the place of soldering. The positioner 13 moves along the guides 12 mounted on the housing 14. A hole is made in the central part of the positioner 13, the diameter of which is 2 ... 3 mm less than the outer diameter of the ampoule 11. Under the influence of gravity, the positioner 13 centers the spherical end of the ampoule 11 with the central hole of the positioner 13. In order to ensure the possibility of changing the structural dimensions of the groove obtained during the soldering process, it is possible to change the weight of the positioner 13 by means of interchangeable weights. A tripod 1 is also mounted on the housing 14, on which the movement mechanisms 2, 4 of the heating elements (burners) 3, 14 are fixed. In the example under consideration, the angle between the nozzles of the burners is 100 °. The movement mechanism consists of a stop and a latch. The stop determines the position of the burner in height and the end point of the supply of the burner to the ampoule during the formation of constrictions. The latch fixes the angular position of the burner relative to the axis of the tripod, the overhang of the burner, the angular position of the burner relative to the axis of the latch and the angular position of the burner relative to its axis. The latch has two handles and one adjustment screw. Thus, the position of the burners can be adjusted based on the sizes of the sealed ampoules and the place of soldering along the length of the ampoule. The structure of the installation includes a vacuum system that creates a vacuum in the ampoule 11, due to which the ampoule 11 is held in the holder 10 and the walls of the ampoule are shaped during the manufacture of the constrictions. The vacuum system includes a vacuum pump 19, vacuum regulators 5, 7, tees 20 and a vacuum gauge 6. In order to allow the mode of the process of forming constrictions to vary when the size and material of the ampoule are changed, the unit is equipped with a microcontroller system 9 that controls the speed of rotation of the ampoule during the manufacture of constrictions . In addition, the microcontroller system 9 allows you to change the speed in the process of manufacturing constrictions and reverse. The microcontroller system 9 also provides storage in the memory of the modes of the process of forming constrictions for the selected standard sizes of ampoules, which improves the quality of manufactured products and reproduces the result when forming batches of ampoules. Connecting and disconnecting from the network the power supply unit is made through the switch 8.

Thus, the installation for the manufacture of constrictions in quartz ampoules has expanded functionality for setting up and maintaining soldering modes, as well as a simplified design and ensures high quality soldering of ampoules made of quartz glass.

The installation for the manufacture of constrictions in quartz ampoules is used as follows (a non-limiting example of the use of a utility model is given).

Stage A1. Fix the quartz ampoule 11 in the holder 10 with the open part down. Install positioner 13, aligning its holes with guides 12. Fix the upper part of the ampoule with positioner 13.

Stage A2. Activate the vacuum pump 19. Fix the steady-state pressure. If necessary, adjust the pressure using the vacuum regulator 7.

Stage A3. Activate the gas generation in the electrolyzer, after which, using a piezoelectric element, sequentially ignite the gas leaving the burner nozzles 3, 14. The amount of gas produced is regulated by the current regulator knob.

Stage A4. Wait until the steady state sets in, and then activate the rotation of the quartz ampoule by selecting the necessary mode in the microcontroller system 9.

Stage A5. Having removed the fixation of the burner supply blocks 2, 4, rotate the burners in series with respect to the axis of the tripod 1 towards the ampoule until it stops. Lock burner inlet blocks 2, 4.

Stage A6. After completing the process of forming constrictions and giving the ampoule the desired shape, remove the fixation of the supply units of the burners 2, 4 and put them in an inactive position. Extinguish burners 3, 14.

Stage A7. Disable ampoule rotation. Turn off the vacuum pump. Using vacuum control 5 remove the vacuum in the system. Remove positioner 13. Remove ampoule 11 from holder 10.

Claims (1)

Installation for the manufacture of constrictions in quartz ampoules containing an ampoule holder with a rotation mechanism, heating elements with mechanisms for their movement, characterized in that it contains a housing in which the ampoule rotation mechanism is mounted, including a vacuum bearing, a stepper motor and an ampoule holder, a tripod, which sets two heating elements located at an angle of 10 ... 170 ° opposite to each other, with the possibility of subsequent adjustment of their position, a vacuum system including a vacuum pump, rarefaction regulators, a vacuum gauge and creating a vacuum in the ampoule, due to which the ampoule is held in the holder and the walls of the ampoule are shaped during the manufacture of constrictions, a positioner that is adjustable in height and centered on the axis of rotation, the installation being able to control the rotation speed of the ampoule during the process of forming constrictions by means of a microcontroller system.

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