RU2059545C1 - Dosing apparatus - Google Patents

Abstract

FIELD: food-processing industry. SUBSTANCE: under the action of lower piston 12 the product fills measuring cylinders 7. The remaining part of product passes along branch pipe 4 into accumulative reservoir 5. Depending on motion regulation of pusher 14 the lower piston can either lean against block of measuring cylinders 7 or stop at preset distance from it providing for complete filling of measuring cylinders with product. After lower piston 12 stops mechanism 21 ensures movement of hollow rod 13 and upper piston 11 with displacing cylinders. EFFECT: enhanced accuracy of apparatus operation. 3 dwg

Description

 The invention relates to a dosing technique and can be used for filling liquid, pasta and jelly-like products.

 Known dispensers consisting of a flow tank with a flat bottom having drain holes mounted therein on a common base of a graduated cylinder block, a control unit and nozzles located in the tank lid for supplying a product and air outlet.

 The prototype of the proposed dispenser can be, as the closest in technical essence and the achieved effect, dispenser, consisting of a collection tank, a supply tank with nozzles for supplying the product and mounted with the possibility of reciprocating movement horizontally of the flat bottom with drain holes, block measuring cylinders with drain holes in the bottoms, mounted in a supply tank with the possibility of periodic communication with drain holes, a bottom drive mechanism with a pusher and a ka management.

 In a known dispenser, productivity is limited by the rate of outflow of the product, determined by the pressure of the compressed air supplied to the tank. In addition, in the known dispenser it is not possible to pack pasto and jelly-like products, since these products do not fill the measuring cylinders.

 The aim of the invention is to increase the performance of the dispenser by accelerating the expiration of the product and expanding the range of dosed products.

 This goal is achieved by the fact that the known dispenser, consisting of a collection tank, a supply tank with nozzles for supplying the product and mounted with the possibility of reciprocating horizontal movement of the flat bottom with holes for draining the graduated cylinder block with drain holes in the bottoms, mounted in the flow tank with the possibility of periodic communication with drain holes, a bottom drive mechanism with a pusher and a control unit, it is equipped with one under the other coaxially mounted in the tank pistons with actuators, the upper of which is made in the form of a hollow rod, and the lower one is in the form of a pusher coaxially fixed in the last, while holes are formed in the lower piston that are coaxial and equal in diameter to the openings of the measuring cylinders; mounted with the possibility of movement in the holes of the lower piston, and on the pusher the limiter located above the upper piston is fixed.

 In FIG. 1 shows a dispenser, General view, section aa in figure 2; figure 2 section BB in figure 1; figure 3 the process of extrusion of the product.

 The dispenser consists of a supply tank 1 with a flat bottom 2 mounted with the possibility of reciprocating movement horizontally and having holes 3 for draining the product, and a pipe 4 for supplying the product from the collection tank 5, equipped with a movable cover-piston 6.

 A block of graduated cylinders 7 with drain holes 8 in the bottoms mounted on a flat bottom 2 in a flow tank 1 is mounted in the flow tank 1 with the possibility of periodic communication with drain holes 3 in its flat bottom 2.

 The flat bottom 2 has a drive mechanism 9 with a pusher 10, which ensures its reciprocating movement horizontally.

 The consumable tank 1 is equipped with upper 11 and lower 12 pistons coaxially mounted in it one above the other, with drives, the upper of which is made in the form of a hollow rod 13, and the lower one in the form of a pusher coaxially mounted in it 14. The hollow rod 13 is rigidly fixed in the upper piston 11 with a fastener 15, and the pusher 14 is fixed in the lower piston 12 with a fastener 16. A stop 17 is mounted on the push rod 14, located above the upper piston 11, restricting its upward movement.

 Openings 18 are formed in the lower piston 12, which are coaxial and equal in diameter to the openings of the graduated cylinders 7.

 On the lower surface of the upper piston 11, displacement cylinders 19 with seals 20 are mounted, which are mounted to move in the holes 18 of the lower piston 12.

 To set in motion and adjust the stroke of the upper 11 and lower 12 pistons, a mechanism 21 is used, with which the hollow rod 13 and the pusher 14 are connected. The product is packed in a container 22.

 The dispenser works as follows. The collection tank 5 is filled with the product and containers 11 are installed under the holes in the bottom 2 of the supply tank 1. By the pressure of the piston cap 6, the product is transferred through the pipe 4 to the supply tank 1 between the lower piston 12 and the graduated cylinder block 7. Holes 18 in the lower piston 12 closed by displacement cylinders 19 with seals 20, and the drain holes 6 in the graduated cylinders 7 are blocked by a flat bottom 2. Moreover, the holes 3 in it are shifted relative to the drain holes 8 of the graduated cylinders 7.

 The product fills the graduated cylinders 7 under pressure completely. The liquid product fills the measuring cylinders 7 independently, and the paste-like and jelly-like products cannot be filled without pressure.

 After filling the supply tank 1 with the product, the mechanism 21 is turned on. By the mechanism 21, the pusher 14 of the lower piston 12 extends downward, lowering it, as well as the upper piston 11 and the hollow rod 13, fixed rigidly in the upper piston 11.

 Due to the fastening 16 and the stop 17 on the pusher 14, the upper piston 11 and the lower piston 12 move together at an equal distance from each other. The product under the action of the lower piston 12 fills the fully measured cylinders 7, and the remaining part of the product passes through the pipe 4 to the collection tank 5. Depending on the adjustment of the movement of the pusher 14, the lower piston 12 can reach the stop in the block of measuring cylinders 7, or stop from it a given distance, ensuring the filling of the product measuring cylinders 7 completely.

 After stopping the lower piston 12, the mechanism 21 provides the movement of the hollow rod 13 and the upper piston 11 with the displacement cylinders 19. Simultaneously with this movement, the drive mechanism 9 for moving the flat bottom 2 of the supply tank 1 with the pusher 10 moves it in the horizontal direction until the drain holes 8 in the measuring bottoms coincide cylinders 7 with holes 3 in the flat bottom 2 (figure 3). The displacement cylinders 19 with seals 20 enter the measuring cylinders 7 and squeeze the product out of them through the drain holes 8 in the bottoms of the measuring cylinders 7 and the holes 3 in the flat bottom 2 in the container 22. The displacing cylinders 19 completely squeeze the product out of the measuring cylinders 7. Switch mechanism 21 the movement of the hollow rod 13 and the pusher 14 to the opposite (up). In this case, the lower piston 12 and the upper piston 11 rise up.

 The upward movement of the upper piston 11 is limited by the stopper 17 on the pusher 14 located above the upper piston 11.

 The upward movement of the pusher 14 of the lower piston 12, and therefore the upward movement of the hollow rod 13 and the upper piston 11, is regulated by a mechanism 21 (not shown). This ensures a constant location of the displacement cylinders 19 with seals 20 in the holes 18 of the lower piston 12.

 After the displacement cylinders 19 exit from the graduated cylinders 7, the drive mechanism 9 for moving the flat bottom 2 by the pusher 10 moves it to the mismatch position of the drain holes 8 in the bottom of the graduated cylinders 7 with drain holes 3 in the bottom 2 of the supply tank 1. And again, the product from the collecting tank 5 the pipe 4 under the action of the cap-piston 6 enters the gap between the block of graduated cylinders 7 and the lower piston 12, fills the graduated cylinders 7 and the dosing cycle is repeated.

 The productivity of the dispenser in comparison with the known increases by 3-5 times and created the ability to dispense pasta and jelly products with great accuracy.

Claims (1)

 A DOSER consisting of a collection tank, a supply tank with product supply pipes and a horizontal bottom mounted with the possibility of reciprocating movement of the flat bottom with drain holes, a graduated cylinder block with drain holes in the bottoms, mounted in the flow tank with the possibility of periodic communication with holes for draining, a bottom drive mechanism with pushers and a control unit, characterized in that it is equipped with pistons with drives coaxially mounted in the tank one below the other , the upper of which is made in the form of a hollow rod, and the lower one is in the form of a pusher coaxially fixed in the latter, while holes are formed in the lower piston that are coaxial and equal in diameter to the openings of the measuring cylinders, on the lower surface of the upper piston there are fixed displacement cylinders with seals mounted with the ability to move in the holes of the lower piston, and on the pusher is fixed limiter located above the upper piston.

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