RU198226U1 - MIXER - Google Patents

Abstract

The technical solution relates to mobile mixing devices of gravitational type with a drum rotating around an inclined axis. The mixer can be used to prepare building mixtures, as well as to obtain other mixtures, including for the preparation of combined feeds. EFFECT: reduction of noise level during mixer operation. The mixer comprises a frame with a flip device on which a rotating hopper is mounted. The driven gear of its rotation drive is fixed on the hopper. The gear is made with a module from 2 to 2.3.

Description

The field of technology.

The technical solution relates to mobile mixing devices of the gravitational type with a drum rotating around an inclined axis. The mixer can be used for the preparation of building mixtures, as well as for other mixtures, including for the preparation of combined feeds.

The prior art.

A mixer is known from the prior art (Modelist-Designer magazine, No. 5, 1983, pp. 36-37, article “Concrete do it yourself” by T. Myakshitsky), containing, as in the claimed technical solution, a frame on which turning fixed overturn device. An engine and a hopper with a loading and unloading hole are located on the flip device. The hopper has the ability to rotate. The driven gear of the hopper rotation drive is mounted on the hopper. In contrast to the claimed solution, the driven gear is made in the form of a ring gear from the flywheel of the GAZ-51 automobile engine.

The disadvantage of this mixer is the use as a driven gear of the crown from the flywheel of the engine of the car GAZ-51, having a module of 2.5. This leads to increased noise during mixer operation.

Disclosure of the claimed technical solution.

The technical problem, which is aimed by the claimed technical solution, is to reduce the noise level of the mixer.

The technical result provided by the claimed technical solution is to reduce the noise level during operation of the mixer.

The essence of the claimed technical solution lies in the fact that the mixer contains a frame on which a flipping device is mounted rotatably, on which a hopper is mounted rotatably, on which a driven gear of its rotation drive is fixed, which engages with the gear of the hopper rotation drive. It differs in that the driven gear is made with a module from 2 to 2.3.

The above essence is a set of essential features of the claimed technical solution, ensuring the achievement of the claimed technical result.

In special cases, it is permissible to carry out the technical solution as follows.

The hopper rotation drive gear is preferably fixed to adjust the clearance in engagement of this gear and the driven gear.

The hopper rotation drive is preferably provided with an engine with a driving link, as well as an intermediate link and a gear of the hopper rotation drive located on the same shaft. The shaft on which the intermediate link and the gear of the hopper rotation drive are located is preferably mounted with a possibility of displacement to the axis of rotation of the hopper or from this axis. It is advisable to place this shaft with the possibility of rotation about an axis parallel to it, lying, in essence, in a plane passing through the axis of this shaft and the axis of rotation of the drive link. The driving link and the intermediate link can be connected by a belt drive (for example, a V-belt, a V-ribbed belt, or a timing belt) or a chain drive.

The author of the claimed technical solution made prototypes of this solution, tests of which confirmed the achievement of the technical result.

A brief description of the drawings.

In figures 1 and 2 shows the appearance of the mixer, in fig. 3 is a view of the rotation drive of the mixer hopper, FIG. 4 is a view of a clearance adjustment mechanism in engagement of a gear of a drive for rotating a hopper and a driven gear.

Implementation of a technical solution.

The mixer contains a frame (1) with a flip device fixed in it with the possibility of rotation (Fig. 1, 2). A hopper (2) is mounted on the flip device with the possibility of rotation.

The overturning device is a traverse (6) with a drive (8). The overturning device is fixed to the frame (1), preferably in two guides (5) made in the form of sliding bearings.

In particular, the crosshead (6) may be an arm bent at an obtuse angle having horizontal and inclined sections. It is preferable to make such an arm welded from two straight pipe sections. In the plain bearings (guides (5)), a horizontal section of the beam is installed. The drive (8) of the overturning device is fixed at the end of the horizontal section of the bracket.

On the traverse (6), parts of the drive for rotating the hopper are fixed. A hopper (2) is also mounted on the traverse (6) with the possibility of rotation. The axis of the hopper can be fixedly mounted either to the hopper (2) or to the traverse (6).

If the axis of the hopper is fixedly attached to the hopper (2) (shown in Fig. 1), then on the traverse (6) the housing (9) of the bearings of the hopper (2) is rigidly fixed. The housing (9) of the hopper bearings can be made integral with the traverse (6). In the bearings located in the housing (9), the hopper axis is mounted, welded to the hopper. The hopper and its axis can have an additional connection in the form of a fixing element, as disclosed in the patent of the Russian Federation for utility model RU 155798. The fixing element can be fixed with one end on the axis of the hopper, and the other on the basis of the bottom of the hopper on the outside of the bottom. The fixing element can be made in the form of a body of revolution: a truncated dome or a truncated cone, or another body of revolution. The locking element may be made volumetric or flat. A similar locking element can be located inside the hopper or only inside the hopper. The base of the bottom can be concave. The connection of the bottom with the axis and the locking element may be detachable.

If the axis of the hopper is fixed to the traverse, the housing of the bearings of the hopper is located at the bottom of the hopper. The hopper axis is preferably removably mounted in a holder on the crosshead. The bunker axis can be welded to the traverse.

The axis of rotation of the hopper may be oriented not intersecting with the axis of rotation of the overturning device. Examples of specific performance of such a mixer are disclosed in the patent of the Russian Federation for the invention RU 2652200.

The drive (8) of the overturning device is made manual in the form of a steering wheel mounted on the axis of rotation of the overturning device. Instead of the helm, it is permissible to use one or more straight levers equipped with handles. The drive of the flip device can be equipped with a gearbox consisting of a kinematic pair in which the driven gear is fixed in the guide of the flip device, and the pinion gear is connected to the manual drive of the flip device and secured in the cylindrical guide of the manual drive, ensuring the kinematic pair is engaged. Kinematic pair can be made in the form of a worm gear. Examples of the implementation of such a flip drive actuator are disclosed in the RF patent for utility model RU 150767.

The overturning device can be equipped with a brake device to restrain the rotation of the hopper during unloading until the overturning device is completely blocked.

The drive of rotation of the hopper comprises a motor (15) fixed to the flipping device, mainly electric, and a mechanical transmission. The drive rotation of the hopper is made with the possibility of reverse rotation. The mechanical transmission is made in the form of:

- leading link (16) mounted on the motor shaft (Fig. 3),

- one or more intermediate links (17) (the figure shows one intermediate link);

- gears (18);

- driven gear (14) connected motionlessly to the bottom of the hopper. The torque from the engine (15) to the intermediate link (17) is transmitted, preferably, by a flexible belt drive (20) (preferably flat V-ribbed or toothed belt), but can also be transmitted by a chain drive or a V-belt. To provide the possibility of adjusting the tension of the belt or the transmission chain, the motor housing (15) is mounted on the traverse (6) with the possibility of its rotation about an axis parallel to the axis of rotation of the motor shaft. For safety, a flexible belt or chain drive is covered by a protective casing (21).

A gear (18) is mounted on one shaft with an intermediate link (17). The housing (19) of the bearings of the shaft of the intermediate link (17) and gear (18) can be rigidly fixed to the beam (6), preferably, regardless of the mounting of the engine (15) in another place of the beam. Details of such a mounting are disclosed in the patent of the Russian Federation for utility model RU 179814.

However, it is desirable to fasten the housing (19) to the traverse (6) with the possibility of adjusting the clearance in the engagement of the gear (18) of the drive for rotating the hopper and the driven gear (14). This is due to the fact that due to the decrease in the “module” parameter of the driven gear, it may be necessary to quickly adjust the aforementioned gap. In this case, the intermediate link shaft (17) is mounted with the possibility of displacement to the axis of rotation of the hopper or from this axis. For this purpose, the housing (19) of the shaft bearings of the intermediate link (17) is fixed to the traverse (6) with the possibility of rotation about an axis parallel to this shaft, lying essentially in a plane passing through the axis of this shaft and the axis of rotation of the drive link mounted on the shaft engine (15) (Fig. 4). In this case, the housing (19) is rigidly connected to the cylindrical sleeve (22) mounted on the rolling axis (23) with the possibility of clamping between two cheeks (24), rigidly fixed to the traverse (6). In order to reduce the dimensions, the rolling axis (23) is preferably located between the housing (19) and the engine (15), as shown in FIG. 4. But it is possible to locate the rolling axis behind the housing (19) (so that the housing (19) is between the rolling axis (23) and the engine (15)). Placing the rolling axis (23), essentially in the same plane as the axis of the intermediate link shaft (17) and the axis of the driving link (16), allows minimizing bending loads on the sleeve (22). This leads to a simplification of the clearance adjustment mechanism in the engagement of the gear (18) and the gear (14), which reduces the complexity and complexity of adjusting the specified gap. This reduction helps to extend the life of the mixer using a driven gear with a reduced module value, that is, less noisy in the mixer.

The driven gear (14) is a steel ring, on the outer surface of which teeth are made. In order to reduce noise and ensure sufficient strength, the gear has a module from 2 to 2.3. The use of a gear with a smaller module is impractical, since it does not provide sufficient reliability of the gear when using a mixer for the preparation of mortars. The use of a gear transmission with a large module increases the noise level of the mixer. The gear wheel engages with the gear (18) of the hopper rotation drive. It is preferable to use a gear wheel widely used in industry with a 2.1166 module. Such a gear wheel is used as the crown of the flywheel of VAZ cars.

The gear wheel can be detachably fixed to the bottom (not shown) from the outside coaxially with the axis of rotation of the hopper (2), as disclosed in the patent of the Russian Federation for utility model RU 121772. The gear can be welded to the bottom from the outside, coaxially with the axis of rotation of the hopper (2 ) Additionally, the gear wheel can be partially or fully worn on the bottom to center it relative to the axis of rotation of the hopper (2). To ensure the possibility of replacing the gear wheel, it is not welded to the bottom along the entire circumference, but selectively fragmented in several places, as disclosed in the RF patent for utility model RU 164051.

Intermediate links in a mechanical transmission reduce the noise level of the mixer and increase its reliability. This is due to the fact that the belt or chain transmission compensates for the uneven rotation of the hopper and thus reduces the negative impact on the engine.

The hopper (2) is made in the form of a drum containing a bottom and one or more conical and / or cylindrical shells - walls. The figures show the hopper (2) with the upper conical, cylindrical and lower conical walls. The edge of the upper conical wall, located opposite the bottom, forms a loading and unloading hole (12). The edge of the loading and unloading hole of the hopper is provided with a metal edging of a solid or hollow section along the contour, as disclosed in the RF patents for utility models RU 146967 and RU 160270. Instead of the edging, the edge of the loading and unloading hole of the hopper can be adequately flanged along the contour.

The connection of the components of the hopper and the connection of the edges of the sheets with the formation of the shell walls can be overlapped, as disclosed in the patent of the Russian Federation for utility model RU 181992.

The slave link of the mechanical transmission fixed to the bottom can be closed by a safety ring fixed to the bottom or to the lower conical shell, as disclosed in the RF patent for utility model RU 179022.

Outside, in the lower part, the hopper around the entire circumference is equipped with a visor made of sheet material, as disclosed in the patent of the Russian Federation for utility model RU 179022.

The blades are fixed inside the hopper:

The bottom can be made flat, as well as convex or concave. The convex or concave bottom may have, for example, a spherical, elliptical, parabolic shape.

The frame of the mixer may contain two racks, which can be made telescopic. Each stand is made in the form of two pieces of pipe of different diameters inserted one into another, between which a screw jack is fixed. Specific examples of such a mixer are disclosed in the patent of the Russian Federation for the invention RU 2652200.

The frame can be equipped with wheels installed with the ability to completely move the weight of the mixer from the base of its frame, on which it rests during operation, to the wheels when changing the angle of the mixer for transportation, as disclosed in the patent for utility model RU 145319.

The mixer is equipped with an automatic device to maintain the mixture in working condition.

The procedure for using a technical solution.

If the mixer is made with the possibility of adjusting the gap in engagement of the gear (18) of the drive for rotating the hopper and the driven gear (14), then before starting work, check the specified gap. To do this, loosen the nut on the rolling axis (23), the clamping sleeve (22) to the cheeks (24), move the housing (19) of the intermediate shaft bearings (17) and gears (18) to the driven gear (14). Then tighten the aforementioned nut, fixing the position of the housing (19).

Then, component components of the concrete (or other) mixture are loaded into the hopper (2), the engine is turned on, which transmits torque through a mechanical transmission to the driven gear mounted on the hopper. The hopper rotates, mixing occurs with the help of the blades due to gravitational forces.

The resulting mixture is unloaded from the hopper by turning the steering wheel (8) in the unloading position. If it is necessary to unload the finished mixture from the hopper, the reverse rotation is activated, providing a shift of the mixture towards the discharge side, which contributes to the rotation of the hopper and facilitates the process of unloading the mixture. The brake device, pre-configured for the necessary resistance to spontaneous tipping, protects against the rapid tipping of the hopper.

The mixer is equipped with an automatic device to maintain the mixture in working condition. When mixing is stopped, the mixture is prone to settling. To prevent this, the automatic engine starting device turns on the mixer for a time determined by the technological process - the mixing mode. This ensures that the mixture is in working condition and increases the efficiency of the mixer.

Industrial applicability.

The claimed technical solution is implemented using industrially produced devices and materials, can be manufactured at any machine-building enterprise and will be widely used in the field of construction and other areas where preparation of mixtures is required.

Claims (7)

1. A mixer comprising a frame on which a flipping device is mounted rotatably, on which a hopper is mounted rotatably, on which a driven gear wheel of a drive for rotating it is fixed, engaged with a gear drive of rotation of a hopper, characterized in that the driven gear performed with a module from 2 to 2.3. 2. The mixer according to claim 1, characterized in that the gear of the hopper rotation drive is fixed with the possibility of adjusting the clearance in engagement of this gear and the driven gear. 3. The mixer according to claim 1 or 2, characterized in that the hopper rotation drive is equipped with an engine with a drive link, as well as an intermediate link and a hopper rotation drive gear located on the same shaft. 4. The mixer according to claim 3, characterized in that the shaft on which the intermediate link and the gear of the hopper rotation drive are located is mounted with the possibility of displacement to or from the axis of rotation of the hopper. 5. The mixer according to claim 4, characterized in that the shaft on which the intermediate link and the gear of the hopper rotation drive are located is rotatably arranged relative to an axis parallel to it, lying essentially in a plane passing through the axis of this shaft and the axis of rotation leading link. 6. The mixer according to any one of paragraphs. 3-5, characterized in that the driving link and the intermediate link are connected by a belt drive or chain transmission. 7. The mixer according to claim 6, characterized in that the driving link and the intermediate link are connected by a wedge-shaped, multi-V-ribbed or timing belt.

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