RU185308U1 - SPRAY SYSTEM POSITIONING DEVICE - Google Patents

Abstract

The utility model relates to the field of instrumentation for controlling the alignment of the holes of an object and can be used, in particular, in spectral analysis for tuning spectral equipment. The device comprises a spray nozzle spraying the needle of an ultrasonic atomizer. The device further comprises a carriage for moving the ultrasonic atomizer up and down with carriage movement screws, a carriage for moving the ultrasonic atomizer back and forth with a ball joint, a node for spatial adjustment of the atomizer position, which includes a ball joint control rod, a screw for changing the vertical angle of the atomizing nozzle and a vertical screw the angle of the spray nozzle horizontally, while at the base of the device contains a node for its attachment to the burner body. EFFECT: high accuracy of positioning the spraying needle of the ultrasonic sprayer relative to the optical axis of the polychromator and the excitation source of the spectrum due to the possibility of moving the spraying needle of the ultrasonic sprayer in all planes and changing the spatial angles of spraying. 2 ill.

Description

The utility model relates to the field of instrumentation for controlling the alignment of the holes of an object and can be used, in particular, in spectral analysis for tuning spectral equipment. The utility model can be used to fine-tune and position liquid sample sprays in atomic emission and atomic absorption analysis.

A known installation for laser processing of materials (RF Patent for utility model No. 94892, B23K 06/26/2010). The apparatus for laser processing of products includes a laser radiation source, along the optical axis of which there is a scanning device containing optical wedges mounted for rotation around the optical axis, a focusing lens and a working table, characterized in that the scanning device is placed between the focusing lens and the working table. Moreover, the scanning device is installed with the possibility of longitudinal movement along the optical axis and is configured to change the distance between the optical wedges. This technical solution allows to increase the accuracy of beam positioning on the surface of the workpiece and to provide the specified accuracy of the workpiece.

The disadvantage of this analog device is that it cannot be used for positioning liquid sample sprays in spectral analysis, where it is necessary to adjust the position of the spray needle relative to the optical axis of the polychromator and the spectrum excitation source.

A device for positioning a spray system in a scintillation spectrometer is known (RF Patent for Utility Model No. 167838, G01J 3/443, B05B 15/08, 2016), including a spectrum excitation source and a polychromator, characterized in that it further comprises a laser device, a spacer with a hole installed in the exhaust pipe of the burner - the source of excitation of the spectrum. The spacer is designed to accurately position the exhaust pipe relative to the plasma. If the tube alignment deviates by more than 0.5 mm, the shape of the plasma torch is distorted and the entry of particles into the plasma sharply worsens. First, a laser device is mounted on the optical axis of the polychromator and it is checked that the laser beam passes into the slit of the polychromator without interference, then the burner is brought out onto the optical axis so that the beam gives a spot of maximum brightness on the slots of the polychromator, then a spacer with a small hole is inserted using screws, regulating the position of the exhaust pipe of the burner, achieve the obtained brightness of the laser spot. Then they put the atomizing needle of the ultrasonic atomizer and, changing its position, achieve maximum illumination of the center of the slit cover of the polychromator. After adjustment, all devices are tightened and fixed. The device allows to achieve that all components (a source of spectrum excitation, an ultrasonic atomizer needle) are located on the optical axis of the polychromator and are strictly aligned.

This device on the set of essential features selected as a prototype. The disadvantage of the prototype device is the insufficient accuracy of positioning due to the fact that the spraying needle of the ultrasonic atomizer in this device cannot move if necessary in all planes and cannot change the spatial angles of spraying.

The objective of the utility model is to create a device that eliminates the disadvantage of the prototype.

EFFECT: high positioning accuracy of a spraying needle of an ultrasonic sprayer relative to the optical axis of a polychromator and a source of spectrum excitation due to the possibility of moving the spraying needle of an ultrasonic sprayer in all planes and changes in spatial spray angles.

This object is achieved by the fact that the proposed positioning device of the spraying system, including a spray nozzle, a spraying needle of an ultrasonic atomizer, which further comprises a carriage for moving the ultrasonic atomizer up and down with screws for moving the carriage, a carriage for moving the ultrasonic atomizer back and forth with a ball joint, a spatial adjustment unit the position of the sprayer, which includes the ball joint control rod, the screw for changing the angle of the spraying position th nozzle (ball joint) vertically and a screw for changing the angle of the spray nozzle (ball joint) horizontally, while the base of the device contains a node for its attachment to the burner body.

The device is illustrated by drawings: FIG. 1 is a right view, FIG. 2 - front view (frontal projection). The device consists of the following parts: 1 - carriage for moving the ultrasonic atomizer up and down; 2 - carriage for moving the ultrasonic atomizer back and forth; 3 - ball joint; 4 - node spatial adjustment of the position of the spray; 5 - spray nozzle; 6 - spraying needle of an ultrasonic atomizer; 7 - screw to move the carriage 1 up and down; 8 - screw to move the carriage 1 to the right and left; 9 - screw for changing the angle of the spray nozzle (ball joint) vertically; 10 - screw for changing the angle of the spray nozzle (ball joint) horizontally; 11 - control rod ball joint; 12 - the unit of attachment of the device to the burner body (base).

The attachment to the burner body (base) 12 is provided with a threaded hole for attachment to the burner flange. On the other hand (opposite from the burner flange), the burner cap is screwed into the same threaded hole. Vertical guides are pressed into the base 12, on which the carriage 1 is installed. Carriages 1 are pressed into the carriage 1, on which the carriage 2 is installed. The carriage 2 is made with the possibility of free movement (sliding) along the guides, which allows you to adjust the depth of introduction of the spraying needle of the ultrasonic atomizer 6 into the burner . In FIG. 1 shows how a spray needle 6 is inserted into a burner hood.

The device operates as follows.

The device is mounted on the burner flange using the attachment unit to the burner body (base) 12. The back and forth carriage 2 with the ball joint 3 is mounted on the guides. An ultrasonic atomizer with a spray nozzle 5 is installed in the collet of the ball joint 3 and is fixed by turning the rod 11 about its axis. To install the sprayer needle 6 on the optical axis of the polychromator, rotate the screws 7 and 8 to adjust the position of the carriage 1. The carriage 2 is manually advanced along the guides, thereby injecting the sprayer needle 6 into the burner. The position of the spraying needle 6 in the burner is controlled using the node for spatial adjustment of the position of the sprayer 4. The assembly 4 includes a control rod for the ball joint 11, a screw for changing the angle of the spray nozzle (ball joint) vertically 9, and a screw for changing the angle of the position of the spray nozzle (ball joint) ) horizontally 10. Screws 9 and 10 allow you to change the angle of the ultrasonic atomizer with the spray nozzle 5 indirectly - by changing the position of the ball joint 3. Screws 7, 8, 9 and 10 allow you to lock and fix the achieved position of the spray needle 6. In addition, the device allows you to move the carriage 2 back and forth and even remove it from the rails without changing the settings for the position of the spray needle 6.

The positioning device of the atomizing system allows you to fine-tune and position the atomizing needle of the ultrasonic atomizer relative to the optical axis of the polychromator and the spectrum excitation source:

- due to the movement of the ultrasonic atomizer with the spray nozzle 5 and the spray needle 6 in all directions (by adjusting the position of the carriage 1 - up and down with the screw 7, left and right with the screw 8);

- by changing the spatial angle of spraying (by changing the angle of the ultrasonic atomizer with the spray nozzle 5 and the spray needle 6 using screws 9 and 10, regulating the position of the ball joint 3).

Claims (1)

A device for positioning a spraying system, comprising a spraying nozzle, a spraying needle of an ultrasonic atomizer, characterized in that it further comprises a carriage for moving the ultrasonic atomizer up and down with screws for moving the carriage, a carriage for moving the ultrasonic atomizer back and forth with a ball joint, a node for spatial adjustment of the atomizer position, which includes the ball joint control rod, the screw for changing the vertical angle of the spray nozzle, and the screw I position the spray nozzle angle horizontally, wherein the base unit comprises its attachment point to the body of the burner.

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