SU724107A2 - Elastic pipe washing apparatus - Google Patents

Description

The invention relates to equipment for agricultural production, in particular to equipment for washing and disinfecting hoses of milking units.

In the invention by ed. St. No. 559683 describes a device for washing elastic pipelines, including 'inlet, outlet, and outlet manifolds installed on the base and in communication with the pump and reservoir for washing liquid and a pipeline tensioning mechanism made in the form of power cylinders connected to the base, while the inlet manifold is installed based on the possibility of moving the means of power cylinders, the piston cavities of which are communicated through the check valve with the cavity of the inlet manifold, and the rods are pivotally connected to the base.

The device provides for cleaning the hoses by circulation washing under tension and due to the equalization of the hydraulic resistance. Such a device is effective in cleaning the internal surfaces of hoses from mechanical and fresh fat deposits. But in the case when fat deposits are oxidized by air, a hard crust forms on the inner surface of the hoses, which cannot be removed when exposed to a fluid flow. The crust is removed after repeated exposure to a circulating fluid flow, i.e. with an increase in flushing time.

The purpose of the invention. - improving the quality of cleaning and intensification of the process.

The goal is achieved by the fact that the nozzles of the drain manifold are equipped with valve gates, and the inlet nozzles are equipped with ribbed rods, while the latter interact with the valve gates.

In FIG. 1 schematically shows a device; in FIG. 2 - top view; in FIG. 3 is a section AA in FIG. 2; in FIG. 4 is a view B in FIG. 2.

The device comprises a washing table 1 with an outlet 2 and an inlet 3 of a collector3 72mi, on the nozzles of which a flushable elastic pipe 4 is fixed, in the nozzles of the inlet 3 of the collector freely adjustable adjustable ribbed rods 5 with valve gates 6 freely enter (the control device is not shown in the drawing ), the output 2 collector is rigidly connected to the table 1 and connected by a pipe 7 to the reservoirs 8 and 9, inside which the heaters 10 and 11 are installed, the input 3 collector by means of the rods 12 of the hydraulic cylinders 13 is articulated with a washing table 1 and through a flexible pipe 14 is connected to the pressure cavity of the pump 15, the suction cavity of which through the electromagnetic valve 16 is connected to the reservoirs 8 and 9 through the pipe 17, the hydraulic cylinders 13 are connected with the piston cavities to the pipe 14 and through the check valves 18 with the internal inlet cavity 3 collectors and are equipped with springs 19 installed in stock cavities, in addition, the input manifold is connected via a gear rack 20 and wheel 21 to a shaft 22 mounted rotationally movably on the washing table 1 having a handwheel

23. The output 2 collector has a pipe 24, and the input 3 has a pipe 25.

The device operates as follows.

The input '3 collector by means of the handwheel 23, wheels 21. And gear rack 20 is diverted to the leftmost position and is fixed by a latch (not shown in the drawing). In this position, the springs 19 are compressed, and the valve gates are located from the nozzles 24 of the output 2 of the collector at a distance sufficient to put on elastic pipelines and strengthen them on the nozzles of the input 3 and output 2 collectors, after which the input 3 collector returns to its original position.

The input 3 collector with the pump 15 turned off, under the influence of the springs 19, is in the extreme right position,. as a result, the valve gates tightly overlap the nozzles 24 of the output 2 of the collector. When the pump 15 is turned on, the pressure in the inlet 3 of the manifold, the cavities of the hydraulic cylinders 13 and inside the flushed elastic pipes 4 increases to a value corresponding to the force of the springs 19 of the hydraulic cylinders 13, after which the inlet 3 collector U07 is exceeded. ' ₄ torus _? overcoming the resistance of the mentioned springs 19, it will begin to move to the left, thereby opening the nozzles of the output 2 of the collector and stretching the elastic 5 pipelines 4..

Due to the large pressure drop between the inlet and outlet manifolds at the time of opening of the valve gates 6, the liquid begins to move 10 through the elastic pipes 4 with great acceleration, allowing for a short time to move the fluid flow from laminar to turbulent mode. Therefore, when the inlet collector reaches its leftmost position, the fluid flow rate reaches its maximum value and then, due to the increased hydraulic resistance of the ribbed rods 5, the already unstable equilibrium of the inlet manifold is destroyed, as a result of which the latter rapidly returns to its original position, and the valve gates 6 again overlap the nozzles of the ²⁵ outlet 2 collector. Since the pump 15 continues to work, the hydrostatic pressure created by it at the moment of closing the nozzles of the outlet 2 collector increases sharply and the inlet 3 count ³⁰ lecturer again overcoming the resistance of the springs 19 starts to move to the left, thereby opening the mentioned nozzles, as a result of which the whole cycle repeats.

³⁵ Such a reciprocating movement of the inlet 3 of the manifold, and with it the valve shutters 6, causes hydraulic shocks at the moment of closing the nozzles; non-intense turbulent ⁴⁰ movement of the liquid at the moment of opening. them. The ribbed rods 5, through which the valve gates are connected to the manifold, not only contribute to the flow turbulence, but also create the phenomenon of cavitation in the cavities of the washed hoses. The alternation of cavitation with water hammer is intense. destruction of grease films and other mechanical impurities on the inner Surfaces of ⁵⁰ washed elastic pipelines, as a result of which a significant— is achieved. a new increase in washing efficiency.

Claims (1)

The invention relates to agricultural production equipment, in particular, equipment for washing and disinfecting milking machine hoses. In the invention of auth. St. No. 559683 describes a device for flushing elastic pipelines, including inlet and outlet headers, installed on the base and communicating with the pump and reservoir for washing liquid and the tensioning mechanism of the pipelines, made in the form of base cylinders, and the inlet manifold mounted on the base with the possibility of moving the spacer of the power cylinders, the piston cavities of which are communicated through the non-return valve to the cavity of the inlet manifold, and the rods are hingedly connected to the base. The device provides for cleaning of the hoses by circulation washing under stretching and due to expiration of hydraulic resistances. Such a device is effective when cleaning the internal surfaces of hoses from mechanical and fresh fat deposits. But in the case when fat deposits are exposed to air oxidation, a hard crust forms on the inner surface of the hoses, which is not removable when exposed to fluid flow. The crust is removed after repeated circulation of the fluid flow, i.e. with increasing time for washing. The purpose of the invention is to improve the quality of cleaning and process intensification. The goal is achieved by the fact that the drain manifold nozzles are equipped with valve gates, and the input nozzles have ribbed rods, while the latter interact with the valve gates. FIG. 1 schematically shows a device; in fig. 2 - top view; pas figs. 3 is a section A-A in FIG. 2; pas figs. 4 is a view B of FIG. 2 The device contains a washing table 1 with an outlet 2 and an inlet 3 collector- 3, 7 mi, on the branch pipes of which the flushed elastic pipelines 4 are fixed, rigidly connected with it adjustable valve rods 5 are rigidly connected to the branch pipes of the input 3 collector 6 (the control device is not shown in the drawing). In turn, K 2 is rigidly connected to table 2 and connected via pipe 7 to tanks 8 and 9, inside which heaters 10 and 11 are installed, and input 3 collector through rods 12 of hydraulic cylinders 13 has a hinge connection to the washing table 1 and through flexible pipe 14 connected to the pressure cavity of the pump 15,: the suction cavity of which through the solenoid valve 16 is connected to the reservoirs 8 and 9 by means of the pipeline 17, the hydraulic cylinders 13 by the piston cavities are connected to the pipeline 14 and through the check valves 18 to the internal cavity The inlet 3 of the collector is equipped with springs 19 installed in rod spaces, besides the input 3 collector is connected via a toothed rack 20 and wheel 21 to a shaft 22 installed by a rotary piston PB on a washing table 1 and having a handwheel 23. A pin 2 collector has an adapter . ki 24, and input 3 - nozzle. and 25o. The device works as follows. The inlet 3 collector is retracted to the leftmost position by means of the handwheel 23, the wheel 21, and the plowed peft 20 and fixed with a retainer (not shown in the drawing). In this position, the springs 19 are compressed, and the valve gates are away from the nozzles 24 of the output 2 collector at a distance, it is enough to DONG up elastic pipes 4 and to strengthen the state on the nozzles of the input 3 and output 2 collectors, after which the input 3 collector returns to its original position. The inlet 3 collector with Vys1schenno Pump 15 under the influence of springs 19 nahbdytsz in the extreme right position, due to the chehehe valve gates tightly overlap the nozzles 24 of the output collector, piping 4 grows to a value corresponding to the force of the springs 19 hydrocyclic 13, n exceeding which of the input 3 shaft. overcoming the resistance of the springs 19, will begin to mix to the left, thereby opening the nozzles of the outlet 2 collector and stretching the elastic pipelines 4. Due to the large pressure difference between the input and output collectors, when the valve gates 6 open, the liquid begins to move through the elastic pipelines 4 with great acceleration, allowing for a short time the flow of fluid to move from laminar to turbulent mode of motion. Therefore, when the inlet manifold reaches the leftmost position, the flow rate of the liquid reaches a maximum value and then, due to the increased hydraulic resistance of the ribbed rods 5, the unstable equilibrium of the inlet manifold is disturbed, as a result of which the latter rapidly returns to its original position, and the valve gates 6 again overlap nozzles output 2 collector. As the pump 15 continues to operate, the hydrostatic head generated by it at the time of closing the nozzles of the output 2 collector increases sharply and the input 3 collector again overcomes the resistance of the springs 19 and begins to move to the left, thereby opening the said nozzles, resulting in the entire cycle repeating. Such reciprocating movement of the inlet manifold 3, and with it valve valves 6, causes hydraulic at the moment of closing the nozzles and intensive turbulent movement of the fluid at the moment of opening them. The finned rods 5, through which the valve closures are connected to the manifold, not only contribute to the turbulence of the flow, but also create the appearance of cavitation in the cavities of the flushed shlangch). The alternation of cavitation with hydraulic shocks causes intense. destruction of fatty films and other mechanical contaminants on the internal surfaces of the washed partial pipelines, as a result of which a significant increase in washing efficiency is achieved. The invention of the device for flushing elastic pipelines according to ed. St. X 559683, characterized in that, with g724107. jo the quality of cleaning is out of the areas, and the inlet pipes are rebrisintepsi (the Hethessos 1, the branch pipes are equipped with drainage rods, while the latter are equipped with valve gates with valve closures. sixteen 4G 18 L / (Js./ Fiyo 7 "