RU196840U1 - Spray spray actuator - Google Patents

Abstract

The invention relates to a device for fixing an aerosol can on an external device, which can be, inter alia, movable (for example, a cart, a drone, a manipulator, etc.). The actuator for the aerosol can contains an attachment element to an external device, a plate having an opening for installing the can with a cut-out, for its placement and fixation, the base is fixed on the plate with support posts, on which a trigger button with a horizontal axis of rotation is mounted; the electric motor is mounted on the plate or on the support posts using the holder and through the shoulder and the connecting bracket is connected to the start key, capable of lowering the pressure on the spray head of the canister located in the cutout; the cut-out has the form of a part of a circle with a diameter corresponding to the diameter of the neck of the aerosol can; the base is located above the cutout with a gap. The technical result is an increase in the autonomy of the process of influencing the spray head of the spray can.

Description

The technical field to which the utility model relates.

The invention relates to a device for fixing an aerosol can on an external device, which can be, inter alia, movable (for example, a cart, a drone, a manipulator, etc.), and can be used to remotely affect the spray head of a spray can aerosol.

State of the art

The closest in technical essence and the achieved positive effect to the claimed mechanism - the prototype - is a device for fixing a household aerosol spray on the surface and exposure to its spray head for spraying aerosol (RF patent for the invention No. 2173585, class IPC B05B 9/04, B05B 15/60, published September 20, 2003), comprising a mounting plate for attachment to a surface, consisting of two mutually perpendicular vertical and horizontal surfaces. The horizontal surface has a notch facing the opposite side of the vertical surface and having the shape of a part of a ring corresponding to a part of the spray can ring. A plate with a cutout similar to a cutout of a horizontal surface is located above the horizontal surface with a gap equal to the thickness of the can ring to place and fix the latter between them, and attached to it. The spray head lever is pivotally mounted on a horizontal axis. The pusher is rigidly connected to this lever and is the handle for the user when spraying the aerosol.

A disadvantage of the known device is the inability to press the spray head of an aerosol can in a fully automatic mode using software and hardware.

Utility Model Disclosure

The objective of the utility model is to create a device for fixing an aerosol can and controlling pressing the spray head using hardware and software in a fully automatic mode.

The technical result is to increase the autonomy of the process of exposure to the spray head of the spray can.

The specified technical result is achieved by the fact that the actuator for spraying the aerosol from the can contains a plate with a cut-out for placement and fixation of the can, the cut-out having the form of a part of a circle with a diameter corresponding to the diameter of the neck of the can, a base fixed to the plate with support legs, on which by horizontal the rotation axis, a start key is installed with the possibility of influencing the spray head of the spray can located in the said cut-out, and the element is attached to an external device, characterized in that it is equipped with an electric motor mounted with a holder on said plate, which is connected via a shoulder and a connecting bracket to a start key, the base being located with a gap relative to the edge of the cutout of the plate.

The fastening element of the actuator to the external device can be made in the form of holes located on the plate.

The plate, base, support legs, start key, shoulder and holder of the actuator motor can be made of polymer material.

The achievement of the technical result is ensured by the fact that the executive mechanism provides for the possibility of fixing the electric motor, which allows remote and fully automatic control of aerosol spraying under the action of control signals.

Brief Description of the Drawings

In FIG. 1-2 is a perspective view of an actuator assembly with an aerosol spray can.

In FIG. 3 is a perspective view of the actuator and the top of the spray can.

In FIG. 4-5 presents the individual structural elements of the actuator.

In FIG. 6 is a view of the top of an aerosol can.

In FIG. 7-8 presents photos of a prototype actuator.

The following notation is used in the figures: 1 - base, 2 - support legs, 3 - horizontal axis of rotation, 4 - start key, 5 - electric motor holder, 6 - electric motor, 7 - electric motor arm, 8 - connecting bracket, 9 - plate, 10 - aerosol can, 11 - spray head, 12 - holes for mounting to an external device, 13 - hole for installing the can, 14 - cut-out for placement and fixation of the can, 15 - neck of the can, 16 - gap.

Utility Model Implementation

The actuator for spraying the aerosol from the can contains an attachment element to an external device, a plate 9 having an opening 13 for installing the can with a cut-out 14, for its placement and fixation, the base 1 is fixed to the plate 9 with support posts 2 on which the start button 4 is mounted having a horizontal axis of rotation 3; the electric motor 6 is mounted on the plate 9 or on the support posts 2 by means of the holder 5, and through the shoulder 7 and the connecting bracket 8 is connected to the start key 4, capable of lowering the pressure on the spray head 11 of the spray can 10 located in the cutout 14.

Cutout 14 has the form of a part of a circle with a diameter corresponding to the diameter of the neck 15 of the aerosol can 10.

The base 1 is located with a gap 16 relative to the edge of the cutout of platinum 9 for a more reliable fixation of the can 10.

The fastening element of the actuator to an external device (drone, manipulator, trolley, etc.) can be made in the form of holes 12 on the plate 9.

The plate 9, the base 1, the support legs 2, the start key 4, the holder of the electric motor 5 and the shoulder of the electric motor 7 of the actuator can be made of polymer materials.

The actuator for spraying the aerosol from the can is used as follows.

The actuator, the electric motor 6 of which is pre-connected to the control device and the power source, is fixed to the external device using fasteners. The fastening element to the external device (drone, manipulator, trolley, etc.) can be made in the form of holes 12 on the plate 9. The fastening elements can also be made in the form of brackets, clamps or joints using adhesive materials.

Then the aerosol can 10 is inserted through the hole 13, is advanced to the stop and is thus fixed in the cutout 14. The device is ready for operation.

Under the influence of control signals, the motor 6 rotates the shoulder 7, which, through the connecting bracket 8, lowers the start key 4. The key 4 is lowered and presses the spray head 11 of the can 10. The contents of the can are sprayed onto a surface intended for processing, for example, painting.

Implementation example

Several prototypes were manufactured and tested; a photo of one of them is presented in FIG. 7-8. As a result of use, it was found that the actuator provides increased autonomy of the process of exposure to the spray head of the can.

The advantages of the proposed technical solution:

1. Increasing the autonomy of the process of exposure to the spray head of an aerosol can;

2. Simplification of the design due to the use of a relatively small number of parts and assembly units;

3. The ability to simply and conveniently mount and remove the actuator on an external device, as well as quickly fix and remove the aerosol can without the use of special tools and equipment;

4. Expanding the functionality of the mechanism due to the possibility of mounting the actuator on a moving external device;

5. Convenience of fastening and reliable fixation of the aerosol can due to the design of the cutout and gap;

6. The possibility of using aerosol cans of various types of construction;

7. Small dimensions and weight due to the use of polymeric materials (plastic, etc.) for the manufacture of device elements;

8. Manufacturability, due to the possibility of using 3D-printing, stamping, casting, milling, etc. for manufacturing the mechanism.

9. Reproducibility for the manufacture of small and large series.

Thus, the claimed design provides increased autonomy of the process of exposure to the spray head of the can.

A comparative analysis of the claimed utility model showed that the set of essential features of the claimed device is not known from the prior art and therefore corresponds to the patentability condition “Novelty”.

The above information confirms the possibility of using the claimed device for fixing a household aerosol can on an external device and remote exposure of its spray head to spray aerosol, and therefore meets the patentability condition "Industrial applicability".

Claims (3)

1. An actuator for spraying aerosol from a spray can containing a plate with a cutout for placement and fixation of the spray can, the cut-out having the form of a part of a circle with a diameter corresponding to the diameter of the neck of the spray can, the base is fixed on the plate with support posts on which the launch is mounted via a horizontal rotation axis a key with the possibility of influencing the spray head of the canister located in the aforementioned cutout, and an attachment element to an external device, characterized in that it equipped with an electric motor mounted by means of a holder on said plate, which is connected via a shoulder and a connecting bracket to a start key, the base being located with a gap relative to the edge of the cutout of the plate. 2. The actuator according to claim 1, characterized in that the fastening element to the external device is made in the form of holes located on the plate. 3. The actuator according to claim 1, characterized in that said plate, base, support legs, start key, shoulder and motor holder are made of polymer material.

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