RU216107U1 - Vane whisk - Google Patents

Abstract

The utility model relates to construction and can be used for preparing cement mortars, ready-made putties, mixing paints and other fluid solutions. The technical result of the utility model is to minimize aeration while obtaining a homogeneous texture of the solution with a fluid consistency. The claimed technical result is achieved due to the fact that the rim is bladed, made with the possibility of bringing into rotation, containing a drive shaft coinciding with the axis of rotation of the rim, and a bladed impeller, while the bladed impeller is made of radially located and mounted on the shaft at an angle β, which is in the range from 10° to 18° to the axis of rotation, flat Z-shaped blades made of sheet material with X-shaped slots, and the end faces of the Z-shaped blade relative to its plane are bent at an angle of 125°.

Description

The utility model relates to construction and can be used for preparing cement mortars, ready-made putties, mixing paints and other fluid solutions.

From the prior art, patent No. 2097119 (RU) with priority from 04.04.1996 IPC B01F 11/00 (1995.01) B28C 5/16 (1995.01), a device for mixing the mixture is known, containing a housing placed in it a vertical shaft with blades at the end and a driven wheel kinematically connected to the engine, while the blades of the vertical shaft are installed with the possibility of rotation around two mutually perpendicular axes, one of them is the axis of the vertical shaft and the other of them is perpendicular to the axis of the vertical shaft and placed on it, the blades are made with protrusions for the possibility contact with a spring-loaded ring mounted in the housing with the possibility of translational movement and contact with the limit switch, and the housing is mounted with the possibility of rotation relative to the frame by a lever system mounted on the frame and kinematically connected to the spring-loaded ring, and the blades of the vertical shaft are mounted with the possibility of movement in the guides, placed on a vertical shaft.

But this device is bulky and expensive and does not allow to quickly obtain a uniform texture of the solution with a fluid consistency with a minimum air content.

From the prior art, patent (RU) No. 2532802 with priority dated 06/26/2009 IPC A47J 43/07 (2006.01) Convention priority: 07/01/2008 EP 08159382.4, a whisk for whipping and a mixing device with a whisk for whipping are known. A whisk for whipping, configured to be attached to a drive motor for imparting rotation, and comprising: a whisk head; a drive shaft having a first end capable of being connected to a driving motor and a second end capable of being connected to a whisk head; and connecting means for releasably attaching the whisk head to the drive shaft so that the whisk head can be attached in at least two different positions relative to the drive shaft to change the overall length of the whisk, wherein the head of the finish is configured to be attached to the drive shaft in a first position, in which the finish head essentially extends from the second distal end of the drive shaft towards the first distal end of the drive shaft, and in a second position, in which the finish head essentially extends from the second distal end drive shaft away from the first distal end. This makes it possible to create a whisk which allows the use of bowls or containers of different sizes, in particular of different heights.

But this device is intended for whipping food products, and if this whisk is used for mortars, then it aerates the solution much more, which significantly reduces its survivability, in addition, it is energy intensive and more time is required for mixing due to the small area of the blades themselves, resulting in solution movement.

From the prior art, patent (RU) No. 2497431 with conventional priority dated 06/11/2008 EP 08158002.9 IPC A47J 43/07 (2006.01), a rotary nozzle and a kitchen appliance for use with a rotary nozzle are known. Rotary nozzle for grinding, mixing, mixing or whipping food products, contains a drive shaft, made with the possibility of connection with the drive device and forming a longitudinal axis around which the nozzle rotates. The nozzle has a nozzle body containing a wire frame connected to the drive shaft, extending from the drive shaft in the direction of the longitudinal axis and returning back to the drive shaft. The wire frame includes a first section and a second section containing two upper segments and two lower segments. Each upper segment is connected to the first section, as well as the corresponding lower segment of the second section. The wire frame additionally contains a third section for connecting the lower segments of the second section. The mutually connected upper and lower segments of the second section form a plane that is essentially parallel to the longitudinal axis. The upper segments of the second section are inclined relative to the longitudinal axis by an angle β, which is in the range from 15° to 35°. The technical result of the invention is to enhance the effect of aeration, reducing the time required to process the material.

As can be seen from the description, this device contributes to the aeration of the solution and longer mixing due to the small area of \u200b\u200bthe wire that is in direct contact with the solution.

The closest in its technical essence is a device for preparing food ingredients described in patent No. 2701617 (RU) with conventional priority dated July 20, 2015 IPC A47J 43/07 (2006.01) A47J 43/046 (2006.01) CN PCT/CN 2015/084453; 12/09/2015 EP 15198569, containing a container (5) for receiving food ingredients and an auxiliary device (6), made with the possibility of rotation in the container (5) around the vertical axis (X). The auxiliary device (6) comprises a central body (7) extending along the vertical axis (X), at least one blunt knife (8a, 8b) extending radially from the central body (7), and the first blade (9a) and the second blade (9b) located opposite each other around the central body (7). Moreover, the first blade and at least one blade (9a, 9) extending radially from the central body (7). At least one blade (9a, 9b) is inclined downward in the direction of the tangent (D) to the rotational movement of the auxiliary device (6). At least one hole (14, 14a, 14b) of the given blade from said at least one blade (9a, 9b) occupies an area in the range of 30-50% of the total area of said given blade. It contains a free end (15) opposite the central body (7), and at least one blade (9a, 9b) passes until it reaches the inner surface (16) of the container.

But this device is not intended for mortars. does not allow you to create a powerful forward flow for crushing lumps and does not allow you to reduce the aeration of the solution.

The technical result of the utility model is to minimize aeration while obtaining a homogeneous texture of the solution with a fluid consistency.

The claimed technical result is achieved due to the fact that the rim is bladed, made with the possibility of bringing into rotation, containing a drive shaft coinciding with the axis of rotation of the rim, and a paddle impeller, while the paddle impeller is made of radially located and mounted on the shaft at an angle β in the range from 10 ° to 18 ° to the axis of rotation, flat Z-shaped blades made of sheet material with X-shaped slots, and the end faces of the Z-shaped blade relative to its plane are bent at an angle of 125°. When mixing loose materials with water or a solvent, as well as ready-made mortars with a fluid consistency, it is necessary to obtain a homogeneous texture of the solution with a minimum amount of air bubbles, since this affects its quality and duration, its “life”, i.e. the suitability of the solution for use. It has been experimentally established that the location of the blades at an angle β in the range from 10° to 18° to the axis of rotation is the most optimal, since an increase in the angle of more than 18° leads to a breakdown of the mixed flow, and a decrease in the angle of inclination of the blade less than 10° leads to an increase in mixing time, resulting in an increase in the aeration of the solution. The Z-shaped geometry of the blades due to the bent end faces at an angle of 125° and the location of the blades at an angle β to the axis of rotation allows each blade, as an inclined surface, to penetrate the leading edge into the mass of the solution with a fluid consistency and move it at a certain speed along the axis of rotation, and also provides for the lifting of solid particles from the bottom of the tank, providing mixing of the solution and creating a directed flow, as a result of which the flow enters the X-shaped slots, where the lumps are intensively broken on the edges, which accelerates the process of obtaining a uniform texture of the solution. At the same time, the efficiency of mixing the solution is increased due to the exclusion of flow swirling when moving along the surface of the blade having an X-shaped slot. X-shaped slots, by increasing the number of faces, contribute to the accelerated breaking of lumps in a solution with a fluid consistency, which minimizes mixing time and, in turn, minimizes aeration while obtaining a uniform texture of the solution, and also helps to reduce the load on the rotation mechanism. As is known from the prior art, the longer the process of mixing the solution with a fluid consistency, the more it aerates.

The essence of the technical solution is illustrated by drawings, where

in fig. 1 - general view of the vane corolla;

in fig. 2 - bladed corolla side view.

In FIG. 1 and FIG. 2 shows a shaft 1, a Z-shaped blade 2, an X-shaped slot 3, end faces 4.

Vane beater works as follows.

To carry out the mixing of bulk materials with water or solvent, as well as ready-made mortars, for example, ready-made putties of a semi-liquid or greasy consistency or paint in order to achieve a uniform and necessary consistency, the paddle impeller of the whisk is made of at least two radially arranged flat Z-shaped blades 2 from sheet material. Shaft 1 of the whisk is attached to a motorized rotation device, such as a mixer (not shown in the figure). Next, the whisk is lowered into the container with the solution in such a way that the impeller was completely immersed in the mixed solution. When the impeller rotates, the blades 2 with end faces 4 ensure the capture of the solution, creating a directed flow, preventing the solution from splashing. The directed flow enters the X-shaped slots 3, where there is an intensive breaking of lumps on its face.

Claims (1)

blade whisk, made with the possibility of bringing into rotation, containing a drive shaft coinciding with the axis of rotation of the rim, and a paddle impeller, characterized in that the paddle impeller is made of radially located and mounted on the shaft at an angle β, ranging from 10 ° to 18 ° to the axis of rotation, flat Z-shaped blades from sheet material with X-shaped slots, and the end faces of the Z-shaped blade relative to its plane are bent at an angle of 125°.

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