SU248578A1 - DEVICE FOR HYDRAULIC UNLOADING OF CAPACITIES FILLED WITH SOLID SUBSTANCES OR FOOD PRODUCTS - Google Patents

Description

The invention relates to devices for the hydraulic discharge of solids or food products, preferably fish, from tanks using single or multi-stage water jet pumps. Water jet pumps are powered by water pumps through working water pipelines and are equipped with diffusers, the waste water of which is used again as working water. The fish are unloaded from the tank, in particular from cargo holds, through a suction hose lowered from above to the hold.

To form a mixture, the waste water of the diffusers is fed back along flexible pipes to the hold where the fish is located.

First, the return flow of the wastewater takes place in the immediate vicinity of the intake funnel of the suction hose and results in the formation of a local mixture, primarily within the limits of suction. Upon further unloading, the amount of water in the cargo hold increases, and the flexible hoses through which the waste water is fed are used to flush fish from all corners and from the walls of the hold to the all-out funnel. At the same time, the suction and flushing hoses must be moved in the horizontal and vertical directions in such a way as to achieve the most complete discharge.

The disadvantage of the existing discharge devices is the high maintenance costs and the difficult working conditions with water-filled flexible suction and flushing hoses. Special mechanical lifting means are required to operate with a particularly heavy suction hose reinforced with wire spirals. During unloading, the suction funnel is continuously supplied to the zone of optimum fish concentration. In addition, the penetration of air into the suction hose must be avoided. This causes great difficulties before the end of unloading. When moving flexible hoses in a mixture of water and fish, it is damaged.

If the air enters the water jet pump, the performance is reduced and the amount of damaged fish increases. When the suction funnel is too close to the walls, it is firmly sucked in, and the discharge is stopped.

When supplying water from the diffuser to the cargo hold, a good effect of flushing to the side of the suction port of the pipe for unloading fish is not achieved, although a lot of physical effort has to be expended.

A sufficiently large amount of self-inflow to the suction inlet.

A large feed height of jet pumps with a small amount of damaged fish can only be obtained with a multistage pump unit. In addition, it is not possible to eliminate the blockage by large fish during operation quickly and without significant physical force.

In order to facilitate the work of unloading fish from tanks, complete and continuous pumping out of tanks and eliminate air penetration into the suction transport pipeline, in the pre-installed device, water-jet pumps are connected to the outlet ports of the reservoirs, and working water pipelines and pipelines The wastewater from the diffusers is connected to the flushing system, which is rigidly built into the tank, and the compressed air pipeline is connected to the discharge transport pipeline.

The pipeline of wastewater diffusers directly connected to the pipeline of working water.

The water jet pump of the first stage is connected by a connecting pipe to the waste water pipe of the second stage diffuser and forms a vicious circle of pyrulation with it.

Instead of a water jet pump of the first step in a simplified version of the device, there is a connecting pipe in front of the water jet pump connected to the working water pipeline and the diffuser waste water pipe.

Between the water-jet pumps there is a diffuser, the waste water of which is brought out to the outer side.

The pressure transport pipeline is equipped with a gate valve.

A shut-off valve is installed in the suction side of the transport pipeline in front of the first stage water jet pump. At the end of the injection transport pipeline, the transfer or filling nozzle is attached to fasten or fill the transfer tank.

The filling fitting is made in the form of a water separator.

The transfer nipple is connected by interconnecting piping with an integrated tank cleaning system and a nerve stage water jet pump.

FIG. 1 shows the described device with two containers with an open water circulation cycle and a flushing system; in fig. 2 - the same, with a closed water circulation cycle and a flushing and filling pump; in fig. 3 - the same, with a diffuser for pre-separation of water directly behind the water pump of the first stage.

In a device with two tanks (cM, Fig. 1), to tanks 1 and 2 are connected by one installation of water-jet pumps. Installation of water-jet pumps consists of water-jet pumps 3 and 4 of the first stage of pumps 5 and b of the second stage and diffusers 7 and S with water separation. Between the tank / and the pump 3 there is a shut-off valve 9, and between the tank 2 and the pump 4 there is a shut-off valve.

knockout 10. Pumps 3, 5 and diffuser 7 are connected through bolted valves 11, 12 and 13 to a common pipeline 14 of working water, and pumps 4, 6, and diffuser 8 through shut-off valves 15, 16 and 17. Common pipeline 14

connected through gate valves 18 tl 19 with water pumps 20, driven by separate engines 21. Directly behind the valves 18 and 19 in the pipeline M there is a high-speed valve 22.

Water pumps 20 are located in the engine room of a fishing trawler. The containers / and 2 are connected to the common pipe 14 via gate valves 23 and 24. For flushing the tanks 1 to 2, they are equipped with pipes 25 and 26 (to flush the bottom of the tank) and pipes 27 and 28 (to flush the grooves to the intake port). In the supply lines to the flushing lines 27 and 25

or, respectively, 28 and 26, throttle valves 29 and 30 or throttles 31 and 32 are located.The water is separated; in the diffuser 7 or 8, on one side it flows through a connecting pipe 33 and 34 into the water jet pumps

5 or 4, and on the other hand - into the tank washing system / or 2. Shut-off valves 35 or 36, 37 or 38 respectively are installed in the water supply pipelines to the washing system and in the connecting pipes to the water pumps of the first stage. overboard, for which a diversion 39 is made in the diffuser 7 and a outlet 40 in the diffuser 8. In the outlets 39 and 40 there are shut-off valves 41 and 42. Pressure pipes 43 or 44 are connected to water-jet pumps with diffusers 7 or 8, in which serves compressed air. For this purpose, pipelines of air 45 or 46 are provided, which are closed by valves 47 or 48. Before discharge points 49 and 50 there are shut-off valves: pipes 51 and 52, which serve to eliminate the blockage of pipelines, are located in pressure pipelines 43 and 44.

The installation works as follows.

When storing the fish in a dry form, the containers are filled with water through pumps 20 before unloading. Both of these units are already in working position. The shut-off valves 13 and 17 are closed, with the result that both pumping units receive only half the required amount of water for a nominal supply. With the appropriate geodetic head of the installation, the feed of the otfits 5 and 5 or the pumps 4 and b fills the tanks / or 2.

After filling the tanks, unloading is started by switching the supply of all working water to the pumping unit, for example, by shutting off the shut-off valves 24, 16 and 15.

All valves are remotely operated from the central control of the zero control, with a corresponding switching program, such as switching on for filling and switching for feeding, is carried out automatically. In capacitance x / or 2 there is one level indicator with an automatic alarm and safety device.

When the critical level of the liquid in the tanks is reached, an optical or acoustic signal is first supplied to the personnel by means of a signal unit, and as the level of the liquid further increases, for example, when the switch to unloading is delayed, the quick-acting valve is automatically activated.

When the tanks are full, it is possible to begin pumping out the contents of the containers with the help of pumping units. If it is necessary to unload the container /, the gate valves 24, 16 and 15 are closed. When unloading the container 2 closes the gate valves 12, 11 and 23, and the valves 24, 16 and 15 open.

During the unloading of one tank serves water. It passes through the bottom of the tank through the throttle valves 29 and 30 or 32 in such a way that flushing is performed at the same time. In this case, the contents of the container are fed to the suction inlet. Flushing is performed using water pumps 20 when taking an appropriate amount of water through conduit 53 or 54 from a water pump 20 or in a closed flushing cycle using waste water from a diffuser 7 or 8, for which purpose flushing pipelines 55 and 56 are intended. it is used in the case when the water-jet pump 5 or in has to overcome a large feed height and is required for maximum performance.

The kinematic energy of the waste water and diffusers 7 or 8 is also used to drive pumps 3 or 4 through pipelines 33 or 34. This primarily results in an increase in the quantity of mixture entering the water-jet pump 5 or 6, as well as a decrease in the differential velocity at water jet on the fish. IF pump 3 or 4 is driven by waste water from diffusers 7 or 8, gate valves 12 or 16 are closed, with the result that all the water is used to supply pump 5 or 6.

Excess wastewater can be discharged through outlets 39 or 40. The output of the 40 orts 39 is located at the lowest

point, resulting in improved performance. To increase the pressure in the pipeline 43 or 44 serves compressed air. For this purpose, there is a pipeline 45 or 46, equipped with a valve 47 or 48, an insert 57 or 58 at the beginning of the pressure pipeline 43 or 44.

In order to avoid premature air ingress into the pumping unit and for

0 to ensure the removal of residues from the tank, the suction transport pipeline is connected to the tank in the lower part through a water seal. Shutting off valves 9 or 10 and shutting off the water supply to the pump 5 and 5 after unloading the tank prevent the water from flowing back into the tank remaining in the pump piping 43 or 44. A two-tank installation is most suitable for fishing trawlers. In this case, it is possible, in accordance with the requirements, to vary the installation by removing or adding individual elements of the installation or pumping systems, or to perform it for a greater or lesser number of containers.

To increase the efficiency and to improve the operation of the pump unit between the first-stage pump 3 and the second-stage pump 5, a diffuser 59 separating the water after the first-stage pump (see Fig. 3). This is first of all necessary in those cases when with large wallows and correspondingly low suction heights of the installation, pump 3 operates

5 from the diffuser 7, not via conduit 14, but through connecting conduit 33. The diffuser 59 has a wastewater conduit 60, which is shut off by a stop valve 61.

0 In the device shown in FIG. 2, the pump 5 and DIFFUSER 7 operate in a closed loop. The pump 5 is powered by a water pump 62 via a working water pipe 63, in which there is a shut-off valve 64. A pump

5 62 is connected to the wastewater feeder of the diffuser 7 by means of pipe 65. As a result, water is constantly circulated in the second stage of the pump installation. Water pump 62 is installed

0 in the hold loaded with fish. The auxiliary pump 66 is used to fill the tank I, and then through the pump 3 and the diffuser 55, as well as the pump 5 and the diffuser 7, the water pump 62 is started.

 During unloading, the pump 66 supplies the flushing water to the tank /, as well as the working water to the pump 3. At the same time, before the end of the discharge, the flushing water supply to the tank / bone is reduced, and the working water for boost 3 is increased.

When the discharge pipe 49 is designed as a water separator and when laying, the connecting pipe between the discharge pipe 49, the pump 5 - and the tank /

in fig. 1. It can be throttled or stopped after the start-up of the installation through the auxiliary pump 66, and the rinsing of the containers and the operation of the pump 3 can be carried out by the circulating water from the choke 49.

The most important prerequisite for flawless plant operation is the ability to quickly eliminate blockage of pipelines. Depending on the size and location of the drive, various measures can be taken.

With little clogging, it is sufficient to prevent the shutdown of the flow by throttling, shutting off or switching the working water before the water jet pumps 3 or 4 and the pumps 5 or 6.

As a result, the water in the pipe 43 or 44 is returned to the tank} and captures the accumulated unloaded fish from the narrow sections of the installation pipes. In addition, fish accumulation can be removed in another way. By closing the gate valve 9 or 10 with a constant supply of working water to the pumps 5 or 6 and 3 or 4, the static pressure is automatically increased before the place of blockage in the pipeline. Since the pressure is large enough, the fish causing the blockage is discharged, squeezed out.

By shutting off the valve 51 or 52 behind the insert 57 or 58 in the pipe 43 or 44, the fish to be unloaded, causing the blockage, is likewise squeezed back into the container with the open gate valve 9 or 10.

Depending on the position of the plug, the supply of working water in this case can be carried out via connecting pipe 67 or 68 to diffusers 7 or 59. In valve 67 or 68, there is a shut-off valve 13 or 17.

Simultaneously with the elimination of the plug, flushing of the grids or nets, as well as the drain holes of the diffusers 7, 8, 59, from fish residues is performed.

Subject invention

Claims (10)

1. A device for hydraulic unloading of containers filled with solids OR food products, mainly fish, including one or two-stage water-jet pumps connected to containers, fed from water pumps through working water pipelines and equipped with diffusers, the waste water of which is used again as working water, as well as a tank cleaning system, characterized in that it facilitates work 5 on unloading fish from tanks, fully and continuously pumping it out of tanks and eliminating air penetration into suction transport pipe, water jet pumps are connected to the exhaust 10 windows of tanks and with pipelines of wastewater diffusers, and the pipelines of working water and pipelines of wastewater diffusers are attached to the flushing system, rigidly built into the tank, 15 a compressed air piping is connected to the discharge transport piping. 2. The device according to claim 1, characterized in that the wastewater pipeline of the diffusers is directly connected to the pipeline, the water of the working water. 3. The device according to paragraphs. 1 and 2, characterized in that the water jet pump of the first stage is connected by a connecting pipe to the waste water pipe of the diffuser 5 of the second stage and forms with it a vicious circle of circulation. 4. A device according to claim 1, characterized in that before the water-jet pump there is a connecting pipe connected to the working water pipeline and the diffuser waste water pipe. 5. Device on PP. 1, 3 and 4, characterized in that a diffuser is located between the water-jet pumps, the waste water of which is discharged over the outer side. 6. The device according to paragraphs. 1-3, characterized in that the pressure transfer pipeline is provided with a stop valve. 7. The device according to paragraphs. 1, 2 and 4, characterized by the fact that a shut-off valve is installed in the suction transport pipe in front of the first stage water jet pump. 8. Device on PP. 1 and 6, characterized in that a transmitting or filling plug is installed at the end of the delivery transport pipeline to secure and extend the transfer tank. 9. Device but nn. 1, 6 and 8, characterized in that the filling shtuzer is made in 0 form of water separator. 10. Device on PP. 1, 6, 8 and 9, characterized in that the transfer nozzle is connected by connecting pipes with an integrated tank washing system and a first-stage water-jet pump. -   r -67 -13 ajh | - 55-.5 ..7 60 6 chzhn