RU2014552C1 - Viscous product pumping device - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: block-and-tackle system is used for balancing a pump and a flexible pressure pipeline. The pump has a funnel-shaped casing expanding down with a low inlet hole and a conical endless screw mounted in cantilever on remote bearings. The end of lower coil at the larger base of the cone is made in the form of a sharpened blade. The endless screw upper part is kinematically connected to a drive fastened outside the casing. EFFECT: improved structure. 5 cl, 2 dwg

Description

 The invention relates to the transportation of a viscous product from a cylindrical or barrel-shaped container to the consumer and can be used for pumping grease from a standard tank to its destination (blowers, dispensers).

 A device for pumping a viscous product is known, including a mechanism for installing and moving containers and a reservoir for the recovered product.

 This device has reduced the efficiency of emptying containers, since pumping can be carried out only from a smaller tank to a larger one, with the containers disconnected after pumping.

 Closest to the invention, the technical solution is a device for pumping a viscous product, including a pump with a drive, a flexible pressure pipe, a guide column with a slider, a turntable for containers with clamping cams, and a cable block system for balancing the pump and pipeline.

 The disadvantages of this solution should be recognized as insufficient pumping efficiency and increased energy intensity. This is explained by the following reasons: firstly, the design of the intake part of the plastic pump in the form of an inclined wing, which is not fenced on the sides, can not provide a reliable supply of product to the pump, since in its area of operation a large part of the product will inevitably bypass the pump, which reduces emptying efficiency; secondly, the feeding of the pump, which is turned with its intake part to the container wall, is carried out by centrifuging the viscous product towards the walls, which requires increased energy consumption, since the rotation of the container platform is carried out by a separate drive, which with grease thickened in the cold season must have significant power.

 The purpose of the invention is to increase the efficiency of emptying containers and reducing energy intensity.

 The essence of the invention lies in the fact that the pump contains a funnel-shaped casing expanding downward with a lower inlet and a conical screw mounted cantileverly mounted inside of it on remote bearing bearings, in which the end face of the lower turn at the large base of the cone is made in the form of a pointed blade, and which is kinematically connected with the fixed Outside the housing driven. Support rollers capable of contacting the inner surface of the container wall can be fixed on the outer surface of the pump housing. A segmental cut may be made at the bottom of the skirt of the pump housing. The rotary platform of the container can be installed with an eccentricity relative to the vertical axis of the pump. The rotary platform of the container can be made non-power.

 Figure 1 shows the proposed device, an axial section; figure 2 is a section aa in figure 1.

 A device for pumping a viscous product includes a pump 1 with a drive 2, which may include, for example, an electric motor and a worm gear. The pump 1 by means of a flexible pressure pipe 3 is connected to consumer units, for example, dispensers, blowers. The supporting part of the device is made in the form of a fixed guide column 4, on which a slider 5 is mounted movably in a vertical direction, but without the possibility of rotation. An output pipe of the pump 1 is pivotally attached to the slider 5 with a possibility of rotation around a horizontal axis. A horizontal rotary swivel is mounted at the base of the column 4 platform 6 for the installation of containers 7 filled with a viscous product 8. The container 7 has the shape of a body of revolution in the form of a cylinder or barrel. From the axis of the column 4, the center of the platform 6 is allocated to a distance greater than the diameter of the container 7. The platform 6 is equipped with centering clamping jaws 9, synchronously working from the built-in movement mechanism. The shank of the pad 6 is pivotally mounted in the radial bearing of the base so that its axis is offset relative to the vertical axis of the pump 1 by the amount of eccentricity e. The axial load on the pad 6 is perceived, for example, by a bulk thrust ball bearing 10. The pump 1 connected to the flexible pipe 3, attached to the eye of its outlet pipe to the cable system and balanced by a set of weights 12, the total mass of which is slightly less than the total mass of the pump 1 and pipe 3. Pump 1 contains a funnel-shaped extension a downwardly extending housing 13 with a lower inlet and a conical screw 15 mounted cantileverly mounted inside it on the outboard bearings 14. The end face of the lower turn of the screw 15 is made in the form of a pointed blade 16.

 This design of the housing 13 and the screw 15 provides high pumping efficiency due to the fact that the intake part of the pump 1 in the form of a larger base of the cone of the housing 13 has a significant area and is perpendicular to the direction of absorption, and the blade 16 is able to cut the product layer 8 at almost any degree of thickening .

 The screw 15 kinematically, for example, by means of a bevel gear 17 mounted inside the housing 13, is connected to the output shaft of the gearbox of the drive 2. In the wall of the housing 13, this shaft is sealed with an elastic seal. At least two support rollers 18 with vertical axes, which are capable of contacting the inner surface of the container wall 7, are fixed on the outer surface of the housing 13 of the pump 1.

 The base of the pump 1 in the container 7 with the help of rollers 18 with its articulated suspension on the slider 5 creates the possibility of unloading the container 7 with various shape sizes (height, barrel-shaped) that fluctuate in some limits.

 In the lower part of the skirt of the housing 13, a segmental cutout 19 is made, which is designed to clean the bottom of the container 7 with the pump 1. In the middle part of the column 4, an emphasis 20 of the garage position 21 of the pump 1 is installed at a height exceeding the height of the container 7.

 The device for pumping a viscous product is as follows.

 When resting on the stop 20, the pump 1 provides the installation of containers 7 with the product 8 on the turntable 6. Center and fix with cams 9 using the built-in mechanism for moving the container 7. Raising the pump 1 slightly, move the stop 20 to the side and lower pump 1 to the surface of the product 8 making contact of its rollers 18 with the walls of the container 7. The pump 1 is immersed in the product 8 under the influence of the difference in the total mass of the set of goods 12 and the total mass of the pump 1 and the pressure pipe 3. The immersion occurs until the product 8 covers the segmental cutout 19 , In this position, the pump 1 is held in equilibrium with the help of the buoyancy force of the product 8, into which it is partially immersed, and the friction forces of the rollers 18 against the walls of the container 7. Turn on the drive 2. Under the influence of the vacuum created by the screw 15 and cutting by the blade 16, the product 8 fills the housing 13 and rises from the container 7 into the pipeline 3.

 The tangential force arising from the rotation of the screw 15 by means of the adhesion forces of the viscous product 8 with the walls of the container 7 is able to set the platform 6 in motion and allows it to be made non-powered, resulting in energy saving.

 By layer-by-layer removing during the unloading process the product 8 from the rotating container 7, the pump 1 gradually falls to the bottom under the influence of gravitational forces until it reaches its final position 22. The bottom is cleaned. After the emptying of the container 7 is completed, the drive 2 is turned off, the pump 1 is lifted into the garage position 21 and the platform 20 is brought under it. The discharge cycle can be repeated several times.

Claims (5)

 1. DEVICE FOR TRANSMISSION OF A VISCOUS PRODUCT, including a pump with a drive, a flexible pressure pipe, a guide column with a slider, a rotary platform for containers with clamping cams and a cable-block system for balancing the pump and the pipeline, characterized in that the pump contains a funnel-shaped casing expanding downward with a lower inlet with a hole and a conical screw mounted inside of it on outboard bearings, which has the end face of the lower turn at the large base of the cone in the form of pointed shovels and and that its upper part is kinematically connected with a fixed outside the drive casing.  2. The device according to claim 1, characterized in that at least two support rollers with vertical rotation axes capable of contacting the inner surface of the container are fixed on the outer surface of the pump housing.  3. The device according to claim 1, characterized in that the lower inlet of the pump housing is made with a segmented cutout of the edge of its wall.  4. The device according to claim 1, characterized in that the rotary platform for containers is installed with an eccentricity relative to the vertical axis of the pump.  5. The device according to claims 1 and 4, characterized in that the turntable for the container is non-power rotatably.

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