RU194516U1 - Installation for the preparation of two-component compositions in the form of a reversible piston pump - Google Patents

Abstract

Installation for the preparation of two-component compositions in the form of a reversible piston pump contains pump cylinders with pistons for components, check valves, a drive cylinder with a piston and a piston speed controller. The reversible piston pump is arranged in a Y-shaped opposed arrangement, so that the pump cylinders are located on one side and the pistons of the pump are rigidly interconnected. 7 cp f-ly, 1 Fig.

Description

The utility model relates to mechanical engineering, in particular to devices for the preparation and application of two-component compositions and can be used to create equipment for the preparation of two-component silicone, polyester and other compositions, as well as to create equipment for LCM and RTM processes, preparation and application of two-component paints, glues and other materials, mainly with high viscosity.

Currently, a significant number of devices for the preparation of two-component compositions are known.

For example, a known installation for the preparation of two-component glue, which contains a frame, tanks for adhesive materials, a metering system, a mixer, an adhesive system, an adhesive tube and a flushing system.

The dosing system is made in the form of two twin piston pumps with valve distribution and controlled linear drives. Each twin piston pump is made in the form of two piston cylinders in which the piston cavities are connected to valve distributors and the rod cavities are connected to the flushing system (see patent RU 2503536 according to class B27G 11/00, 2012).

In the known device to ensure a continuous and uniform supply of the mixed components, two twin piston pumps are used, which operate alternately, this design significantly increases the cost and complicates the device.

Partially indicated problem is solved in another known device - installation of pressure two-component dispensing for preparing polymer composite coatings with reversible pneumatic drive or hydraulic drive of displacers for pump component hydroblocks, containers for metered components, device for controlling the flow rate of components (see patent RU 2342202 according to class B05B 7 / 26, 2006).

The known installation is characterized in that the reversible drive is made horizontal with rods extending along its axis on both sides, each of which is kinematically connected with a displacer of only one of the two component hydroblocks, both hydroblocks are equipped with differential displacers with the possibility of feeding components to the mixer in equal volumes at the movement of the actuator rods in one direction or the other.

In the known device due to the use of a reversible drive, it is possible to continuously and evenly supply components with one piston pump, however, horizontal execution of the drive with placement of hydroblocks on both sides significantly increases the overall dimensions and weight of the installation, and its cost, reduces ease of use.

The use of through rods in displacers and the drive leads to a decrease in the installation performance related to the diameter of the displacer and the drive or to the weight of the installation, which also increases the weight and cost of the installation.

The tasks solved by the proposed utility model are: simplification of the design, reduction of manufacturing costs and costs during operation of the device, improving the usability of the device while maintaining high quality mixing of the components.

The technical result in the proposed utility model is achieved by creating an installation for the preparation of two-component compositions in the form of a reversible piston pump containing pump cylinders with pistons for components, check valves for suction and discharge of components, a drive cylinder with a piston and a piston speed controller, in which the reversible the piston pump is arranged in a Y-shaped opposed pattern, so that the pump cylinders are located on one side, the pistons of the pump are rigidly interconnected, at the same time, the following relations are satisfied:

S _{p is} greater than 1.2 × (S _a + S _b ); S _p less than 3.5 × (S _a + S _b ); More than 1.2 S _w × (S + S _{shb sha);} S _w is less than 3.5 × (S + S _{shb sha)}

where S _a is the piston area of the pump cylinder for component A,

S _b - the area of the piston of the pump cylinder for component B,

S _Sha - the piston area of the pump cylinder for component A from the side of the rod mounting,

S _Шb - the area of the piston of the pump cylinder for component B from the side of the rod, S _p - the area of the piston of the drive cylinder,

S _W - the piston area of the drive cylinder from the side of the rod.

In this case, the absolute values of the areas of the pistons of the pump and drive cylinders are selected depending on the required flow of components, their viscosity and design features of the installation. The installation, made according to the proposed utility model, can be equipped with both an analog control system, for example, pneumatic, and an CNC system.

When using the inventive device, a technical result is achieved due to the fact that the reversible piston pump is arranged according to a Y-shaped opposed circuit, so that the pump cylinders A and B are located on one side, which reduces the overall dimensions of the installation by at least an amount equal to the sum of the length and stroke pump cylinder, reduces its mass and cost.

Performing relations: 1,2 × (S _a + S _b) <S _n <3,5 × (S _a + S _b) and 1,2 × (S + S _{shb sha)} <S _w <3,5 × ( S _ша + S _шb ) allows to ensure equal mass consumption of components during movement of the drive cylinder, in one direction or the other, regardless of whether the component is delivered by the piston or rod cavity of the pump cylinder, due to the proportional change in the force created by the drive cylinder, and ensuring the same pressure at the outlet of the pumping cylinders, which ensures an increase in the productivity of the installation related to the diameter of the displacer and actuator installation or weight, as compared with the installation in which the two cavities have stock.

In addition to the above ratios, in order to achieve the goals of the utility model, the following relation can also be fulfilled: S _p / S _w = (0.9 ... 1.1) × S _a / S _sha = (0.9 ... 1.1) × S _b / S _bb .

The performance of the proposed device, characterized in that a pneumatic cylinder is used as a drive cylinder, allows the use of compressed air as an energy source and installation without the need to connect it to the mains, which increases ease of use.

The essence of the proposed utility model is illustrated by the following description and drawing in FIG. 1, which shows a General view of the installation for the preparation of two-component compositions.

Installation for the preparation of two-component compositions, in the form of a reversible piston pump, contains pump cylinders 1 and 2 with pistons for components, check valves 3 for suction and discharge of components, a drive cylinder 4 with a piston and a piston speed controller 5. At the same time, the reversible piston pump is arranged according to Y-shaped boxer arrangement, so that the pump cylinders are located on one side, and the pump pistons are rigidly interconnected. In the extreme positions of the reversible piston pump, limit switches 6 can be installed that automatically change the direction of movement of the drive cylinder when it reaches the extreme positions.

The installation for the preparation of two-component compositions works as follows: components A and B from the tanks or any other container are fed through the suction lines through the check valves 3 to the piston or rod cavities of the pump cylinders 1 and 2 and then along the component discharge lines through the check valves 3 are fed to the mixer spray gun, or any other device for further use of the mixture. The pistons of the pump cylinders 1 and 2 are driven by the drive cylinder 4, and the fulfillment of the ratios 1.2 × (S _a + S _b ) <S _p <3.5 × (S _a + S _b ) and 1.2 × (S _{sh shb} + S) <S _w <3,5 × (S + S _{shb sha)} secures with sufficient accuracy equal mass flows components at their pitch, as a piston and cylinder rod pumping cavity due force generated in proportion to changes in the driving cylinder, and ensuring the same pressure at the outlet of the pump cylinders.

The operation of the installation was tested on a SM-2 machine, intended for the preparation of a two-component composition based on silicone.

The SM-2 machine was made with the following cylinder parameters:

S _a = 0,0019625 m ² - the piston area of the pump cylinder for component A, while the diameter of the piston of the pump cylinder for component A was 0.05 m;

S _b = 0.0019625 m ² - the piston area of the pump cylinder for component B, while the diameter of the piston of the pump cylinder for component B was 0.05 m;

S _ша = S _шb = 0.0016485 m ² - the area of the pistons of the pump cylinders for components A and B from the side of the rod, while the diameters of the rods of the pump cylinders A and B are 0.02 m;

S _p = 0,00785 m ² - the area of the piston of the drive cylinder, while the diameter of the piston of the drive cylinder was 0.1 m;

S _W = 0,00736 m ² - the area of the piston of the drive cylinder from the side of the rod, the diameter of the rod of the drive cylinder was 0.025 m

Such geometric parameters of the cylinders ensure the fulfillment of the relations:

1.2 × (S _a + S _b ) <S _n <3.5 × (S _a + S _b ) and 1.2 × (S _sh + S _bb ) <S _w <3.5 × (S _sh + _shb S) and S _n / S _w = (0,9 ... 1,1) × S a / S _wa = (0,9 ... 1,1) × S b / S _shb.

The design of the installation with geometrical parameters ensuring the fulfillment of the above ratios also guarantees the operability of the cylinders, eliminates the possibility of distortions and jamming of the pistons, ensures long-term operation without breakdowns and repairs, which increases the quality of the installation and reduces costs during its operation.

The proposed installation can be used for the preparation of two-component silicone compositions, in the manufacture of reusable vacuum bags for vacuum infusion, spraying silicone, filling silicone cases and other processes, the installation can be used for the preparation of two-component polyester and other compositions used in the manufacture of composite materials, for example, fiberglass or carbon fiber, as well as when creating equipment for LCM and RTM processes, preparation and application of two-component paints, adhesives and other materials, mainly with high viscosity.

Thus, the claimed device retains the ability to supply components with equal mass flow when using a reversible piston pump, while significantly reducing the size and weight of the device and its cost.

The performance of the proposed installation for mixing and applying two-component compositions is confirmed by testing the machine SM-2. In the tests, silicone was used as components.

The proposed device is convenient in maintenance and operation.

Claims (15)

1. Installation for the preparation of two-component compositions in the form of a reversible piston pump containing pump cylinders with pistons for components, check valves for suction and discharge of components, a drive cylinder with a piston and a piston speed controller, while the reversing piston pump is arranged in a Y-shape opposite scheme, so that the pump cylinders are located on one side, and the pistons of the pump are rigidly interconnected. 2. Installation according to claim 1, in which the ratios are simultaneously satisfied 1.2 × (S _a + S _b ) <S _n <3.5 × (S _a + S _b ) and 1.2 × (S _sh + S _bb ) <S _w <3.5 × (S _sh + S _wb ), where S _a is the piston area of the pump cylinder for component A, S _b - the area of the piston of the pump cylinder for component B, S _Sha - the piston area of the pump cylinder for component A from the side of the rod mounting, S _Шb - the area of the piston of the pump cylinder for component B from the side of the rod mounting, S _p - the area of the piston of the drive cylinder, S _W - the piston area of the drive cylinder from the side of the rod. 3. Installation according to claim 1, characterized in that in the extreme position of the reversing piston pump a limit switch is installed. 4. Installation according to claim 1, characterized in that S _a = S _b and S _ша = S _шb . 5. Installation according to claim 1, characterized in that a pneumatic cylinder is used as a drive cylinder. 6. Installation according to claim 1, characterized in that the CNC system is used to control the installation. 7. Installation according to claim 1, characterized in that the two-component compositions are silicones. 8. Installation according to claim 1, characterized in that the two-component compositions are polyester compounds.

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