RU2060650C1 - Concentrated food meter - Google Patents

Abstract

FIELD: agricultural engineering; food meters. SUBSTANCE: when meter stops opposite to feeding place, signal is sent to receiver of food meter control unit 10 to discharge definite portion of food. Order is sent by control unit 10 to set into operation drive mechanism 3 of screw conveyor 2 which delivers concentrated food into weighing mechanism container 12. With food getting into container 12, torque arises which acts on spiral springs through shaft 11 of container 12, bushing and rollers of cross, overcoming resistance of springs. As a result, container 12 with shaft 11 turns on cross rollers. Simultaneously variable resistor slider turns, changing supply voltage to make it equal to voltage across input of unit 10 through comparator of control unit 10. Voltage across input of unit 10 corresponds to mass of discharged portion of food. When voltages become equal to each other, zero signal formed at comparator output is delivered to unit 10. Then order is sent by unit 10 to switch off drive 3 and energize electromagnet which turns shaft 11 by axle in plane perpendicular to plane of cross turning, and food is discharged from container 12 into trough. Spiral springs 8 return cross into initial position, and unit 10 sends signal to de-energize electromagnet. Spiral spring of resetting mechanism returns shaft 11 with container 12 in initial position. EFFECT: enlarged operating capabilities. 4 cl, 4 dwg

Description

 The invention relates to the mechanization of labor-intensive processes in animal husbandry, in particular to the dosed distribution of concentrated feed, and can be effectively used on farms for the production of milk.

 Concentrated feed dispensers are known, including a hopper with an unloading window located above the bypass chamber, in which there is a plate mounted on the drive shaft with feed blades, a metering tank with lever weights, a leveling chamber with an outlet window with a plate located in it, which is mounted on the drive shaft and equipped with a comb with gouge-shaped teeth (see, for example, A.S. USSR N 1380696, class A 01 K 5/02, 1988).

 The disadvantages of these dispensers is the design complexity. Due to the presence of lever scales, which are sensitive to distortions and shocks, it is almost impossible to use them on mobile dispensers of concentrated feed. In addition, due to the adjustment of doses by a mobile counterweight, the operation of such a dispenser is difficult to automate. And this means that in conditions of limited time for distributing concentrated feed to animals, the performance of such a dispenser will be very low.

 As a prototype, a feed concentrator closest in technical essence was adopted, containing a hopper with a screw conveyor installed in its lower part and connected to its drive mechanism, a feed delivery control unit located under the discharge window of the screw conveyor of the dispensed portion weighing mechanism and means for setting the weighing mechanism (see USSR AS N 1515066, class G 01 G 11/00, 1989).

 The disadvantage of this dispenser is the design complexity. The weighing mechanism of this dispenser is also sensitive to distortions and shocks, which virtually eliminates the use of such a dispenser on mobile dispensers of concentrated feed.

 In addition, when the specified dispenser is operating, a decrease in productivity and reliability is possible. And finally, such a dispenser does not provide batch delivery of materials, in particular concentrated feed.

 The objective of the invention is to increase the accuracy of dosing, technical reliability and simplification of design.

 This problem is solved in that in a concentrated feed dispenser containing a hopper with a screw conveyor installed in its lower part and connected to its drive mechanism, a feed delivery control unit, a weighing mechanism for the dispensed portion and a means for setting the weighing mechanism, a mechanism, are located under the discharge window of the screw conveyor weighing of the given portion of the feed is made in the form of a cross, containing a sleeve with its end coaxially mounted on its side surface and located in the plane perpendicular to the plane of placement of the longitudinal axis of the sleeve by cylindrical rollers, as well as in the form of a shaft mounted with the possibility of axial rotation of the shaft with a container fixed at one end thereof, the means for setting the weighing mechanism is made in the form of a set of strips, each of which is fixed with its upper end to the walls of the hopper and in the lower free ends with the possibility of axial rotation pivotally mounted crosses with their rollers, while the tank shaft is equipped with an axial rotation drive and a return means and it is in its original position, and the crosspiece is equipped with a balancing device and a variable resistor, which is connected to the feed control unit.

 In addition, the drive axial rotation of the shaft of the tank can be made in the form of an electromagnet mounted on the sleeve of the spider, as well as in the form of an axis mounted on the end of the free end of the shaft of the tank and pivotally connected to the core of the electromagnet. The mechanism for returning the shaft of the tank to its original position can be made in the form of a spiral spring, and a balancing device in the form of spiral springs mounted on the free ends of the rollers of the cross.

 In FIG. 1 schematically shows a General view of the dispenser of concentrated feed; in FIG. 2 is a view along arrow B in FIG. 1; in FIG. 3, section AA in FIG. 1; in FIG. 4 electric control circuit.

 The concentrated feed dispenser contains a hopper 1 with a screw conveyor 2 installed in its lower part and connected to its drive mechanism 3. The dispenser also contains a weighing mechanism for the dispensed portion and means for setting the weighing mechanism. The means for setting the weighing mechanism is made in the form of a set of slats 4, each of which with its upper end is fixed to the walls of the hopper 1. The weighing mechanism of the feed portion fed is made in the form of a cross 5 containing a cylindrical sleeve 6 and cylindrical rollers 7. Cylindrical rollers 7 are aligned with one end fixed on the side surface of the sleeve 6 and are located in a plane perpendicular to the plane of placement of the longitudinal axis of the sleeve 6. The cross 5 with its rollers 7 is pivotally mounted in the lower free ends straps 4 with the possibility of axial rotation. The crosspiece 5 is also equipped with a balancing device, which is made in the form of spiral springs 8 mounted on the free ends of the rollers 7 and a variable resistor 9. The inner ends of the spiral springs 8 are rigidly fixed to the free ends of the rollers 7, and the outer to vertically mounted strips 4. The housing of the variable resistor 9 is rigidly connected to one of the vertical slats, and the engine is coaxially and rigidly with the end face of one of the rollers 7. The variable resistor 9 is connected to the feed control unit 10.

 In the sleeve 6 of the crosspiece 5 of the weighing mechanism, the shaft 11 is fixed with the possibility of axial rotation with a capacity 12 fixed at one end thereof. The shaft 11 is also provided with an axial rotation drive and a means of returning to the initial position. The axial rotation drive of the shaft 11 is made in the form of an end 13 of an axis 13 pivotally mounted on the end face of its free (shaft 11) axis pivotally connected to the core of the electromagnet 14, which (electromagnet 14) is rigidly fixed to the sleeve 6 of the spider 5.

 The mechanism (means) of the return of the shaft 11 of the tank 12 to its original position is made in the form of a spiral spring 15, the inner end of which is rigidly fixed to the shaft 11, and the outer one on the sleeve 6.

 The dispenser of concentrated feed is as follows.

When the dispenser stops in front of the feed station from the transmitter (transponder), a signal is sent to the receiver of the feed control unit 10 to issue a certain mass (portion) of feed to the feeder. After that, a command is issued from the feed control unit 10 to turn on the electric motor of the drive mechanism 3 of the screw conveyor 2. Concentrated feed from the hopper 1 enters the screw conveyor 2 which is transported to the tank 12 of the weighing mechanism of the delivered portion of feed installed under the conveyor 2. Upon receipt of concentrated feed a torque occurs in the container 12, which acts on the coil springs 8 through the shaft 11 of the tank 12, the sleeve 6 and the rollers 7 of the crosspiece 5. Overcoming the resistance of the spiral springs 8 yn container 12 with the shaft 11 is rotated around the axes of the rollers 7 cross 5. Together with the rotation of the spider 5 is rotated and the engine variable resistor 9 which is coaxially and rigidly attached to the end of one of the rollers 7. The rotation of the variable resistor engine 9 applied voltage U ₁ changes to U ₂ and through the comparator DA1 of the control unit 10 is compared with the voltage at its (control unit) input U _I , which corresponds to the mass of the issued portion of the feed. Upon occurrence of equality of voltages U ₂ and U _Rin at the output of comparator DA1 formed zero signal U _O, which is stabilized by Zener diode VD1 and fed to the control unit 10. When the issuance of the feed entering the zero signal U _O to the control unit 10 takes the last trip command mechanism motor drive 3 of the screw conveyor 2 and to turn on the electromagnet 14. After turning off the electric motor of the drive mechanism 3, the concentrated feed into the tank 12 stops, and the electromagnet 14 through the core and the axis 13 p overcoming resistance of the coil spring 15 of the return mechanism rotates the shaft 11 in a plane perpendicular to the plane of rotation of the cross 5. In this case, the concentrated feed located in the tank 12 is poured into the feeder. After the concentrated feed is poured out of the tank 12, the coil springs 8 return the spider 5 to its original position, and the feed control unit 10 sends a signal to turn off the electromagnet 14. At the same time, the coil spring 15 of the return mechanism sets the shaft 11 with the tank 12 also to its original position.

 After moving the dispenser to the next feed place in the control unit for the issuance of feed 10 receives a new signal for the issuance of a certain portion of the feed, the process is repeated.

 The installation of the mechanism for weighing the dispensed portion of the feed increases the accuracy of dosing, i.e. the issuance of concentrated feed strictly in accordance with the productivity and physiological condition of the animals. The location of the weighing mechanism of the dispensed portion of feed under the screw conveyor 2 allows you to receive feed from the screw conveyor 2 and to control its operation in accordance with the issuance of the required mass of feed, thereby increasing the accuracy of dosing.

 The implementation of the weighing mechanism of the issued portion of the feed in the form of a cross 5, containing a sleeve 6 with coaxially fixed one end on its side surface and located in a plane perpendicular to the plane of the longitudinal axis of the sleeve 6 with cylindrical rollers 7, installation in the sleeve 6 with the possibility of axial rotation of the shaft 11 with a capacity of 12 fixed at one end thereof, as well as the implementation of the installation of the weighing mechanism in the form of a set of strips 4, each of which is fixed on the walls of the bunk with its upper end and 1, installation in the lower free ends of the strips 4 with the possibility of axial rotation pivotally with their rollers 7 of the cross 5, supplying the shaft 11 of the tank 12 with a drive for its axial rotation and means for returning it to its original position, supplying the cross 5 with a balancing device and a variable resistor 9, which is connected to the feed control unit 10 avoids the disadvantages of weight batchers such as the presence of prisms, rockers and other parts that are sensitive to shocks and distortions (which is especially important when distributing centered feed for animals indoors). Thus, this embodiment of the mechanism for weighing the dispensed portion of the feed and means for its installation allows us to simplify the design and increase the technical reliability of the dispenser. The presence of a variable resistor 9, the hinged installation of the cross 5 with its rollers 7 in the lower free ends of the slats 4 with the possibility of axial rotation of the cross 5 in the plane perpendicular to the plane of rotation of the shaft 11 of the tank 12, as well as the connection of the variable resistor 9 to the feed control unit 10 allows timely delivery commands to turn off the electric motor of the drive mechanism 3 of the screw conveyor 2 after issuing the necessary mass of feed to the tank 12, and also give a command and pour the feed from the tank to the feed ku.

 The drive axial rotation of the shaft 11 of the tank 12 in the form of an electromagnet 14, mounted on the sleeve 6 of the spider 5, and also in the form of an axis 13 mounted on the end of the free end of the shaft 11 of the tank 12 and pivotally connected to the core of the electromagnet 14 contributes to a clear and quick unloading of feed from capacity 12 in the feeder, provides increased productivity and reliability of the dispenser.

 The implementation of the mechanism for returning the shaft 11 of the tank 12 to its original position in the form of a spiral spring 15 provides a quick installation of the tank 12 in position for receiving the next portion of concentrated feed, high technological reliability, increases the performance of the feed.

 The implementation of the balancing device in the form of spiral springs 8 installed on the free ends of the rollers 7 of the spider 5 and the hinged installation of the rollers 7 in the lower free ends of the slats 4 allows you to provide “soft” operation of the weighing mechanism, to get rid of sharp fluctuations when feeding the feed into the tank 12, than to ensure increase in dosing accuracy.

Claims (4)

 1. A concentrated feed dispenser, comprising a hopper with a screw conveyor installed in its lower part and connected to a drive mechanism thereof, a feed control unit located under the discharge window of the screw conveyor, a weighing mechanism for a dispensed portion of feed, means for setting a weighing mechanism, characterized in that the mechanism weighing of the given portion of the feed consists of a cross, containing a sleeve with coaxially fixed one ends on its lateral surface and located in a plane perpendicular the plane of placement of the longitudinal axis of the sleeve, cylindrical rollers, and also mounted in the sleeve with the possibility of axial rotation of the shaft with a container fixed at one end thereof, the means for installing the weighing mechanism is made in the form of a set of strips, each of which is fixed with its upper end to the walls of the hopper, and a crosspiece is mounted pivotally with its rollers at their lower free ends, while the tank shaft is provided with an axial rotation drive and means for returning it to the original polo ix, and provided with a cross balancing device and a variable resistor, which is connected to the control unit issuing feed.  2. The dispenser according to claim 1, characterized in that the axial rotation drive of the container shaft consists of an electromagnet mounted on the spider sleeve and an axis mounted on the end of the free end of the container shaft and pivotally connected to the core of the electromagnet.  3. Dispenser 1 and 2, characterized in that the means for returning the shaft of the tank to its original position is made in the form of a spiral spring.  4. Dispenser 1 to 3, characterized in that the balancing device is made in the form of spiral springs mounted on the free ends of the rollers of the cross.

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