DE1966363C3 - Program-controlled fraction collector with a distributor head. Eliminated from: 1914701 - Google Patents

Description

The invention relates to a program-controlled fraction collector with a distributor head along it guided a certain path over collecting vessels arranged underneath and each over the Collecting vessels is stopped to dispense a certain amount of liquid.

A known fraction collector of this type (see US Pat. No. 3,168,124) has a distributor head on, which sits longitudinally displaceable in a carrier. This carrier is perpendicular to the longitudinal displacement direction of the distributor head movable and guided on corresponding rails. In the carrier there is a motor that drives the distributor head along a spindle via mechanical gear elements moved in the carrier. At the same time, the motor ensures the lateral movement of the wearer when the Witeilerkopf has traveled through a longitudinal row of collecting vessels. .

Such a device is very expensive both in terms of construction and cost, since it requires precise guides and several drive or control elements. This increases the susceptibility of the collector to failure at the same time. Exchanging individual elements is very cumbersome and ..- requires the dismantling of the entire transport device. . UC-

The object of the invention is to provide a drive for the distributor head of a fraction collector of the initially to create described type, which is structurally simple and as compact as possible and at the same time a precise sequence of movements is guaranteed.

This object is achieved according to the invention in that the distributor head has an electric motor by means of which it is self-propelled and can be moved along a current-carrying rail via a drive wheel acting on the rail. Distributor head and drive thus form a single element, whereby a simpler and smaller design is achieved and no drive elements extending over long distances are required. This leads to a cheaper production as well as advantages in terms of exchangeability, since practically only a complete part needs to be exchanged. Furthermore, only a single guide element is required, which also serves as a feed for the kinetic energy.

In order to carry out programming in an advantageous manner and practically through the dwell times To determine the path traversed by the distributor head itself should, according to a further development of the invention over the length of the current-carrying rail at the intervals between the collecting vessels Interrupts distributed at least on one side of the rail in the form of electrically non-conductive Be arranged parts that interrupt the power supply to the electric motor.

The power supply from the rail to the electric motor is expediently carried out in that on the distributor head a guide wheel cooperating with the current-carrying rail is provided, which the Establishes electrical connection of the rail with the electric motor.

To after the interruption by the non-conductive Parts on the track after a certain period of time in which the submission of the fraction takes place, The electric motor can preferably be used to set the distributor head back in motion precisely with one essentially from a control relay, from one the dwell time of the distributor head determining pulse counter with time generator as well as consisting of a delay relay Be connected to program control.

The movement of the distributor head over a large number of collecting vessels can be particularly advantageous accomplish away when the current-carrying rail is formed serpenlinen. Here can preferably at least one end of the current-carrying rail connected to a buzzer Off switch can be provided, whereby the entire device is switched off and avoided, that after filling the last collecting vessel the program control is started again will. The buzzer also enables perfect

Free acoustic display or perception of the end of the fraction process.

The invention is explained below with reference to the exemplary embodiments shown in the schematic drawing explained in more detail. It shows

F i g. 1 is a plan view of a fraction collector according to the invention,

F i g. 2 is an elevation of FIG. 1,

3 shows a detailed view of the distributor head with line and pump,

F i g. 4 shows in detail a partially sectioned side view of the distributor head,

F i g. 5 is a plan view as in FIG. 1 with different holding positions of the distributor head,

F i g. 6 shows in detail a side view corresponding to FIG. 2 with modified collecting vessels and modified Rail, and

F i g. 7 a circuit diagram for the fraction collector.

A fraction collector 11 comprises a direction-determining device in the form of a current-carrying device Rail 12. A multiplicity of holders 13 are provided for fastening this rail 12. Along of the rail 12 are a plurality of electrical ones at a distance from one another and as part of the directional guidance non-conductive parts or circuit breakers

14 arranged.

The collector advantageously has reversing switches at each end of the rails, which, however, are made of For the sake of simplicity and clarity, they have not been shown in the drawing.

At one end of the rail 12 is an off switch

15 is provided, which is connected to a buzzer 41.

A collecting vessel 16 is provided below each of the circuit breakers 14. This Collecting vessels 16 can have different shapes depending on the intended use, as can be seen from the Drawings recognizes: The vessels 16 of FIG. 1 and 2 relatively flat, while F i g. 6 vessels

16 shows α , which are relatively high, but have a smaller opening.

A liquid distributor head 17 is provided for the liquid which runs along the rail 12 is movable. This distributor head 17 (Fig. 4) comprises a carrier 18 with a downwardly extending one Support part 19. The upper part of the support 18 carries an electric motor 20, during the Carrier part 19 carries an electromagnet 21. This electromagnet 21 has a downwardly protruding Arm 22, which extends through a cranked stop 23 of the carrier 18 and carries a lock 24. A liquid feed line 25, which has an outflow opening 26, extends through this lock 24. the Motor 20 has a shaft 28 on which a drive wheel 27 is seated. This drive wheel 27 lies against one side the rail 12.

A freely rotating stator 29 is connected to a shaft 30 and in turn lies against the the side of the rail 12 opposite the drive wheel 27. Stator 29 and shaft 30 are electrical conductive and control the work flow of the motor 20 and the electromagnet 21, as from the following will emerge in more detail.

A liquid storage container 31 (Fig. 3), which consists of a bottle or a similar container, is connected to one end of the line 25. Between the container 31 and the line 25 is a pump 32 is arranged to ensure a constant and controlled delivery of the liquid from the line 25 through the opening 26 to enable. The flow through the line 25 and the size of the drops 50 is dimensioned so that no liquid escapes from the line 25 while the distributor head 17 moved from one resting or holding position to the next.

From Fig. 7 give more details about the electrical circuit and control. the

ίο Device is via wires 70, 71 to a 110 Völt alternating current network connected. A main switch 40 for switching the device on and off is located between these wires 70, 71. Further lies a branch nozzle 72 between the wires 70, 71.

Wires 73, 74 emanating from this junction box 72 are connected to the buzzer 41. The current flows through these wires 73, 74 when the off switch 15 is operated, causing the buzzer 41 to Sounding is brought. Also with the branch

Connected to socket 72 are wires 75, 76, which in turn are connected to a time generator 46. Wires 77, 78 connect the junction box 72 to an energy source 79, which is used to generate 12- or 24 volt direct current is determined. In wires

The 80.81 is 24 volt DC and these wires are connected to a control relay 43. 24-volt direct current also flows in wires 82, 83; these are connected to a pulse counter 47. The pulse counter 47 is in turn connected to a start switch 48 which closes when the pulse counter goes to zero. Wires 84 and 84 α are connected to a delay relay 49 which is also connected to the start switch 48 via wires 85, 86. The delay relay is also connected to the control relay 43 by wires 87,88. The control relay 43 is connected to a manually operated switch 44 via wires 89, 90. The control relay 43 is also connected to a manually operated reversing switch 45 by wires 81, 82 which is connected to the electric motor 20 by wires 93, 94. A wire 96 connects the control relay 43 to the current-carrying rail 12, while a wire 95 is connected to the motor 20. Wires 97, 98 connect the junction box 72 to the switch 15. Wires 98, 99 in turn control the buzzer 41 when the liquid distributor 17 reaches the switch 15. In wires 100, 101, 12 volt direct current flows from the power source 79 to the delay relay 49. In the

so wires 80, 81, 82 and 83 flow 24 volt DC.

The mode of operation of the device is as follows:

The liquid to be fractionated is located in the storage container 31. The liquid feed line 25 is connected, with the outflow opening 26 is guided into the correct position. The pump 32 is then started.

You can use a conventional clamp to

6u close the line 25 using a drain to avoid the liquid before starting the distributor head 17. The distributor head 17 is mounted on the rail 12 in front of the first collecting vessel 16.

The terminal is then opened and the switch 40 is switched on. Now the engine 20 is above that Idler wheel 29 in contact with a conductive part of the rail 12. Current flows into the control relay 43

and closes this, whereby energy can flow into the motor 20 and the electromagnet 21. the The solenoid is thus held in the energized upper position and the motor 20 drives the drive wheel 27, which moves the distributor head along the rail 12 until one of the circuit breakers 14 reaches will. At this point, no more current flows through the stator 29. As a result, it opens Control relay 43, whereby no more energy reaches the motor 20 and the electromagnet 21. the The armature of the magnet and thus the arm 22 fall into their de-energized lower position; the motor 20 comes to a standstill. Now see the distributor head 17 in its standstill position, and the liquid flows through the drain opening 26 into the collecting vessels 16 or 16 ″. The diameter of the line 25 is dimensioned so that the liquid is not continuous, but flows out in the form of drops 50 (see Fig. 4).

The time generator 46 operates the pulse counter 47. When the pulse counter has run to zero. which occurs after a short period of time, which is determined by the setting of the pulse counter 47 the start switch 48 is closed causing a surge of current through wires 85, 86 into the Delay relay 49 occurs. Likewise, the pulse output by the pulse counter 47 is through the delay relay via wires 87, 88 into the control relay. 43 entered, making this relay is closed and the motor 20 recovers to run.

The armature of the electromagnet 21 and thus the arm 22 move into the upper excited position. Since the diameter of the liquid supply line is kept relatively small 25, required for the passage of a liquid droplet amount of time is greater than the time period which is necessary to the manifold head 17 to move from a circuit breaker 14 of the rail 12 to the next circuit breaker fourteenth In addition , the current pulse for

ίο restarting the motor 20 after it has stopped, an abrupt upward movement of the electromagnet 21. In this way, any "I clot" still in the line 25 is removed.

The control relay 43 remains closed until the motor 20 is connected to the next circuit breaker 14 of the Rail 12 is stopped, whereupon the process runs again. While the current pulse through the Wires 85, 86 ir. The delay relay 49 is running, it happens at the same time the wires 84, 84 a and brings the pulse counter 47 in its starting position so that it can operate again as described above is. At this point in time, the arm 22 is in the lower, de-energized position of the electromagnet 21. He remains in this position until the next operation of the device.

When the distributor head 17 reaches a point near the end of the rail 12, it actuates the cut-off switch 15. This actuation activates the buzzer 41 by ihcrscits over the wires 97, 98 and cuts off the power supply to the motor JLO , thereby shutting down the aesamlc device .

1 sheet of drawings

Claims (6)

Patent claims: 1. Program-controlled fraction collector with a distribution head that runs along a certain Track passed over collecting vessels arranged underneath and in each case over the collecting vessels is stopped to dispense a certain amount of liquid, characterized in that that the distributor head (17) has an electric motor (20) by which it is self-propelled along a current-carrying rail (12) via a drive wheel acting on the rail (27) is movable. 2. Fraction collector according to claim 1, characterized in that over the length of the current-carrying rail (12) at the intervals of the collecting vessels (16, 16 a) corresponding intervals distributed little siens on a cable of the rail circuit breaker (14) in the form of electrically non-conductive parts are that interrupt the power supply to the electric motor (20). 3. Fraction collector according to claim 1 and 2, characterized in that on the distributor head (17) a guide wheel (29) cooperating with the current-carrying rail (12) is provided is that establishes the electrical connection of the rail with the electric motor (20). 4. Fraction collector according to one of claims 1 to 3, characterized in that the Electric motor (20) with one essentially consisting of a control relay (43), one of which is the dwell time of the distributor head (17) determining the pulse counter (47) with time generator (46) and from a delay relay (49) existing program control for restarting the Distributor head movement is connected. 5. fraction collector according to one of claims 1 to 4, characterized in that the current-carrying rail (12) is designed in a serpentine manner. 6. fraction collector according to claim 5, characterized in that at least one At the end of the current-carrying rail (12) there is an off switch connected to a buzzer (41) 1.15) is provided.