SE460395B - DEVICE FOR MIXING AND EXHAUSTING SCREWS - Google Patents

Description

460 395 10 15 20 25 30 _ 2 _ the manifold of a distribution valve, arranged to vary the flow to the discharge line continuously between 0% a 100%. ' in a third embodiment, the branching device is constituted of a 3-way valve, arranged to set the flow to the output line to 0% or 100%.

In a fourth embodiment is in the outlet line of the tank arranged a non-return valve to prevent flow through the outlet the race line into the tank.

In a fifth embodiment, a control device is arranged to receive signals from a volume meter and in dependence of the signals control control valves, which regulate the supply the supply of additives.

In a sixth embodiment, a control device is provided to receive signals from: ¶1distors for traveled dis- in the direction of work and in dependence on said signals control the amount of liquid mixture spread per unit area In a seventh embodiment, liquid volumes have been provided. meter with a mechanical shaft, the angle of rotation of which is one function of flow of liquid, and at least one with shaft connected dosing pump for additives.

In an eighth embodiment, there is one in the outlet line arranged 3-wave valve, adjustable in two positions, of which one allows free passage of base fluid from the tank to the connection point while the other mode connects the with a supply line from a rinsing liquid tank ka, for example water, for flushing the pipe loop and the discharge line with spreading means and control valve smiles- The invention will now be described in more detail in connection to the accompanying drawings, there Fig. 1 schematically shows the construction of the device and its various parts under operating conditions, Fig. 2 shows a partially modified embodiment, and Fig. 3 shows the device in a mechanized embodiment. 10 l5 25 30 w IN IN DJ 1 460 595 In Fig. 1, 1 denotes a tank for base liquid 2 and 3 denotes an outlet for the base liquid. In the outlet line 3, a valve 4 as well as a sensor 5 is arranged for shut-off. measurement and volume measurement of the outflow from the tank 1 the base fluid. 6 denotes a non-return valve which obstructs liquid to flow backwards into the tank.The tank comes thus always to contain pure base liquid, i.e. without additives.

The base liquid 2 is led to a connection point 7 in a pipe circuit, comprises a line part 8 connected to one line 9, to which all the outlet pipes for batches are connected. Base liquid 2 and additives are added together through a line 10 to a pump 12, whose outlet or pressure line 11 opens at a branch device 13. From the manifold 13, the liquid mixture can be divided led through a return line 14 back to the connection point 7 and partly via a discharge line 16 to the side arranged spreading means 17, 18 and 19 via regulating valves 20, 21 and 22, respectively.

The manifold 13 in the embodiment shown has a flap 13 "pivotally suspended at its upper end, whose angle setting is controlled by the controller 30. At the shown the position is the flap slightly flared to the right. The bigger one the amount of liquid mixture is therefore passed to the discharge line. 16 while a smaller portion is returned through the return line. a 14 to the connection point 7 for base fluid.

When the flap 13 "is completely turned to the right, the return joint is ~ 14 is turned off and 100% of the liquid mixture is passed to the discharge line 16 and the spreaders 17-19. When folding is completely turned to the left, the connection to the output line 16 closed, all liquid mixture circulates in the circulation loop, 0% is led to the discharge line 16.

In the discharge line 16 is a sensor 15 in the form of a volume meter arranged for measuring the volumetric flow through line 16. Outlet pipes 24 and 26 open into line 9 460 595- 10 20 25 30 Lu Lil 4; for additives from containers 23 and 25 respectively for additives. The containers shown are those in the flow direction. seen the first and last containers for different additives. Between the tubes 24 and 26, an arbitrary -a number of outlet pipes 27 for additives are provided.

At the outlet of the additive containers 23 and 25, control valves 28 and 29, respectively, are provided, which the outflow and thus the concentration of additive means for the pump suction line 10. Valves 28 and 29 is controlled by signals from a controller 30, which also controls the valve 4 and the branching device 13. The control device 30 receives signals from the volume sensors 5 and 15 and from a sensor 32, which emits signals depending on it when spreading the distance traveled. In the embodiment shown in Figure 1 the sensor 32 is connected to a wheel rolling on the ground 31 and emits signals depending on the movement in the direction. IN By means of the control device 30, it is possible with the aid of the signals from the sensors S, 15 and 32 spread a desired amount of liquid mixture per unit area of land. during operation, the device in Figure 1 operates as follows way. The pump 12 generates a negative pressure in the lines 8, 9 and 10 with the valve 15 closed. valve 4 determines the amount of base fluid flowing to the connection point 7 and the sensor 5 measures this amount and sends a corresponding one signal to the controller 30. Through setting means 34, The concentration of the various additives is adjusted and the controller 30 emits corresponding signals to the valves 28, 29 so that the correct amount of additive is discharged into the en 9. Here base fluid and additive are mixed] and when the mixture passes the pump 12, it becomes very homogeneous.

The liquid mixture is pumped to the manifold 13 a part being led out into the discharge line 16 for discharge spread while another part of the liquid stream via return line 14 returns to connection point 7. Medium * r LII lO 15 20 25 30 460 595 w _5 .. setting of the valves 20-22 you can control the spread of the liquid mixture through the spreading means 17 ~ 19 and possibly switch off one or more of these completely or partly.

If the operating mode shown in Fig. 1 is desired change the concentration of any additive you change the adjusting means 34, 35, which in turn affect the steering tilerna 28, 29. Since the pipeline 9, the suction pipe 10, the pump 12, the pipe 11, the manifold 13 and the discharge line 16 has a very small volume, the transition will take place the new, desired concentration to go very fast.

Because the volume in the mentioned pipe parts is small it is also easy to clean the entire device such as e.g. shown in Figure 2. For this purpose, one has been arranged 3-way valve 36 between the valve 4 and the connection point 7. The valve 36 is connected to a line 37 for rinsing water. shall, eg water, from a tank 38.

Fig. 2 shows the device in position for cleaning through rinsing with rinsing liquid. Rinse liquid flows according to the arrows through line portion 9, suction line 10 and the pump 12, the outlet line 11 and via the 3-way valve 13 'to the discharge line 16. As noted above, the volume is in the mentioned pipes very small hence little rinsing liquid consumes while cleaning is effective.

It is obvious that the 3-way valve 13 'can only control the entire flow of the liquid mixture, i.e. 100% of this, to the discharge line 16 or also completely closed of this, i.e. 0% discharged liquid.

Figure 2 shows the 3-way valve 13 'in operating mode, i.e. when base fluid flows from the tank 1, through the loop 7, 8, 9, 10, 12 and 11 to the valve 13 and out through the discharge 16. Mixing and discharging take place continuously ligt.

Figure 3 shows another embodiment where, among other things, the valve 13 ', which is rotated 1800 in the direction of the arrow 33 in Figure 2- In this new state comes the liquid mixture that exists 460 395 '-e- l0 15 20 25 30 in loop 7-14, to circulate around in loop. Hereby the mixture becomes completely homogeneous. At the first start of the device according to the invention can be disposed of specified way to turn the valve 13 after a while opposite arrow 33 1800 to the operating mode in figure 2. You get then a homogeneous liquid mixture from the very first moment of the spread.

The invention can also be given a simpler, more mechanical one design as shown in figure 3. Here was used earlier designations each 40 denotes a volume meter with for example a rubber impeller, which is driven by the liquid flow from tank 1. 41 indicates a mechanical shaft driven by the impeller, which in turn drives small adjustable pump devices 42 and 43. These pump devices may comprise eccentrically displaceable rubber impellers, whereby discharged volume is batch means per revolution of rotation of the shaft 41 can be varied as desired. _ The device described in Figure 3 has the same principle benefits, such as the device described in Figure 1 but becomes cheaper in manufacturing. The device can also modified in such a way that the shaft 41, instead of driven by the volume meter 40, driven by the one in Figure 1 and 2, ie of the liquid mixture on the pump 12 printed pages.

The invention can also be devised by one skilled in the art on others within the stated claims. flax W

Claims (8)

10 15 20 25 30 35 460 395 PATENT REQUIREMENTS Device for mixing and discharging a liquid mixture intended for agriculture, composed of a base liquid, for example liquid fertilizer, and one or more additives, for example pesticides for weeds, characterized by a circulation loop formed by pipelines, comprising in turn and arranging a connection point (7) arranged in a pipe part (8) for an outlet pipe (3) from a tank (1) for supply of base liquid (2), a pipe portion (9), to which one or more connecting pipes (24 , 26, 27) from containers (23, 25) for additives are connected one after the other, a pump suction line (10), a pump (12), a pressure line (11) from the pump to a branch device (13), arranged with partly an outlet for guiding liquid mixture to a discharge line (16), connected to spreading means (17, 18, 19) for spreading the liquid mixture on the ground, and partly an outlet for guiding liquid mixture through a return line (14) back to the connection point (7) for the outlet line (3) so that a closed pipe loop is provided, and the manifold (13) is adjustable so that the flow to the discharge line (16) can be varied between the entire liquid flow from the pump (12) and the flow zero, ie total shutdown. Device according to claim 1, characterized in that the branching device (13) consists of a distribution valve, arranged to vary the flow to the discharge line (16) continuously between 0% and 100%. Device according to claim 1, characterized in that the branching device (13 ') consists of a 3-way valve, arranged to set the flow to the discharge line (16) to 0% or 100%. Device according to any one of the preceding claims, characterized in - in the net network drawn by a (1) outlet line (3) arranged non-return valve (6) arranged to prevent flow 460 39-5 '10 through the outlet line (3) into tanks (1). Device according to claim 1, characterized by a control device (30) arranged to receive signals from a volume measuring sensor (5; 15) and, depending on the signals, control control valves (28, 28), which regulate the supply of additives. Device according to claim 1, characterized by a control device (30), arranged to receive signals from a sensor (32) for distance traveled in the working direction and, depending on said signals, to control the amount of liquid mixture spread per unit area. Device according to claim 1, characterized by a liquid volume meter (5; 15) with a mechanical shaft, the angle of rotation of which is a function of flowed liquid volume, and at least one dosing pump (42, 43) connected to the shaft for additives. IN Device according to claim 1, characterized by a 3-way valve arranged in the outlet line (3), adjustable in two positions, one of which allows free passage of base liquid from the tank (1) to the connection point (7) while second position connects the connection point (7) to a line (37) from a tank (38) for rinsing liquid, for example water, for flushing the pipe loop (8-13) and discharge line (16) with spreading means (17-19) and control valves (20 -22). f! 19