SU1425462A1 - Apparatus for metering piece products - Google Patents

Abstract

The invention relates to a measurement technique and allows to simplify the design of the device and reduce the metal consumption. The dosed piece product from the vibratory feeders 5 is fed into the shell 24, containing the rear and vertical, passing into inclined, side walls, forming a longitudinal groove between them. When the product reaches the sensing element 17 of the sensor 16, the level of its supply to the shell 24 is stopped. The product from the shell 24 moves through the channel formed by its inclined walls and the initial section of the fine metering vibrating channel 11 into the coarse metering tray 8 rigidly connected with the shell 24, the product dose is formed in the receiving bucket 14 and, upon command of the control system 34, is discharged into the package. 2 Il. i cl

Description

Phage

The invention relates to metering devices and can be used for discrete weighting of bulk products in the food, chemical and other industries.

The purpose of the invention is to simplify the design of the metering device and reduce metal consumption.

Fig. 1 shows a metering device for piece products, side view; in fig. 2 is a section A-A in FIG. one.

The device contains a frame t on which vibrating feeder 5 with electromagnetic drive 6, vibrating feeder 7 with vibrating channel 8 coarse metering and electromagnetically driven 9, vibrating feeder 10 with vibrating channel t1 of thin metering and electromotive 5-pin drive 12, Vibrating channel 11 are fixed with the help of shock absorbers 2-4. Fine metering is a .V-shaped tray, the design and dimensions of which ensure the location of only one-flow of the piece product, and is installed above the vibrating channel 8 coarse metering.

A weight meter 13 with a receiving bucket 14 and a bracket 15 are mounted on the base 1, on which a product level sensor 16 with a sensitive element 17, a damper 18 with a drive 19 for cutting off the coarse dosing flow and a .iToiiiiiKa 20 with a drive 21 for cutting off the flow of thin doses 1st,

A rough section 24, which has a back wall 25, vertical side walls 26 and 27, inclined box walls 28 and 29 and is located with a gap above the inlet section of the vibrating tray 11 of the furnace dosing, is rigidly connected to the initial section of the vibrating channel 8 of coarse metering.

The angle of inclination of the sidewalls 28 and 29 is significantly greater than the angle of repose of the piece product.

The shell 24 is connected to the vibratory flow 8 of coarse metering through the lines 30 and 31 of the mating vertical 26 and 27 and the inclined 28 and 29 side walls with the help of brackets 22 and 23.

The receiving bucket 14 is provided with a folding bottom 32 with a drive 33.

The dosing unit has a control system 34 which is associated with electromagnetic actuators 6, 9 and 1.

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cables 35 - 37, with a weight meter 13, a cable 38, with a drive 33 of the folding bottom 32 of the receiving bucket 14, a cable 39, with a sensor 16 of the product level with a cable 40 with a drive 19 of the shutter 18 for cutting off the coarse dosing flow with a cable 41 with a drive 21 for cutting off traps 20 fine metering flow and cable 42,

At the outlet of the shell 24, a sensor 16 of the product level is installed, the sensitive element 17 of which is located above the vibrating channel 11 of the thin dosing.

The device works as follows.

The product is loaded into the vibrating feeder 5. When the device is started up, the electromagnetic actuators 6, 9 and 12 of the vibratory feeders 5, 7 and 10 are turned on, and the product from the vibratory feeder 5 is fed into the shell 24. Ilpi reaching the product 16 of the sensing element 17 of the product level sensor 16 receives a signal through the cable 40 to the control system 34, from where, via cable 35, a command is issued to unplug the electromagnetic drive 6 of the vibration control device 5.

When the vibrating feeder 5 is stopped, the supply of the product to the shell 24 is stopped. The product is located on the inclined side walls 28 and 29 of the shell 24 and the inlet section of the vibrating channel 11 of thin dosing. Since the shell 24 is rigidly connected to the vibrating tray 8 of coarse dosing, the product moves from it when the vibrating feeder 7 is on. The included vibratory feeders 7 and 10 move the product from the shell 24 in the longitudinal direction with a common flow through the channel formed by the initial section of the vibrating fine flow meter 11 and inclined lateral walls 28 and 29. The overall performance of the vibrating feeders 7 and 10 is much lower, the performance of the vibrating feeder 5, so the latter operates discretely at the command of the sensor 16 level prod ukta

When leaving the shell 24, a part of the product remains in the vibrating channel 11 of the thin dosing as a single-flow stream, the rest of the product spills onto the vibrating channel 8 of the rough dosing, where the product is distributed in an even layer along the bottom. From vibrorails coarse 8 and ten o 11 dosing pro-

The product is fed to the receiving bucket 14 of the measuring device 13. The probe is set to two thresholds for triggering the mass of the dose: coarse dosing and fine dosing.

When the coarse dosing threshold is reached (by mass of the product) the weight meter 13, a cable 38 is given a signal to the control system 34, from where cables 36 and 41 send signals to turn off the electromagnetic drive 9 of the vibrating feeder 7 with the vibrating tray 8 of the coarse dosing and sidewall 24 and turning on the actuator 19 of the shutter 18 to shut off the coarse dosing flow. The product flow from the vibrating chute 8 of the coarse dosing is cut off by the gate 18 and its delivery to the receiving bucket 14 is stopped.

The vibrating feeder 10 with the vibrating flow 11 of the thin dosing continues to feed the product with a single gash THEN 1 into the receiving bucket 14 of the weight measuring device 13 up to the threshold of triggered by the thin dosing. At this time, the product in the shell 24 is moved along the inclined side walls 28 and 29 only in the transverse direction to fill the layer above the initial portion of the operating vibrating channel 11 of the thin dosing.

When the layer drops below the sensing element 17 of the product level sensor 16, cable 40 sends a signal to control system 34, from where cable 35 sends the command to energize electromagnetic drive 6 of vibrator feeder 5. With vibrator feeder 5, the required amount of product enters shell 24, and the product level The fine metering shaker 11 is kept constant. Upon reaching the fine dosing threshold (by weight of the product), the weight

The meter 13 via the cable 38 sends a signal to the control system 34, where from the cables 37 and 42 commands are issued to turn off the electromagnetic actuator 12 of the vibrating feeder 10 with the vibrating roller 11 of the fine metering and to turn on the drive 21 of the trap 20 to cut off the fine metering flow. The product flow from the vibrating channel 11 of the thin dosing is cut off by the trap 20, and its feed to the receiving tank 14 is stopped.

When a discharge command is received, the drive 33 of the folding Day 32 of the receiving bucket 14 is triggered and the dose is discharged into the package (not shown). After unloading the receiving bucket 14, the dose setting process is repeated.

Claims (1)

Invention Formula A metering device for piece products, containing a frame with a stabilizing intermediate vibrating tray fixed on it, a rough vibrolock and a fine metering located above it, associated with a control system, characterized in that, in order to simplify the design and reduce metal consumption, the intermediate vibrating channel is stabilized. the form of a shell rigidly connected to the vibratory flow of coarse dosing and containing the back and vertical, passing into inclined side walls forming between This is a longitudinal groove under which a fine metering vibrating channel is located with a gap with a side fixed on it from the opposite side of the back wall of the shell on the frame inserted into the device by a level sensor connected to the control system. 2  , Compiled by S.Plakhov Editor V.Petrash Tehred L.Oliynyk Proofreader M.Demchik Order 4757/36 Tiralch 7 1 7 VPIIPI USSR State Committee for inventions and discoveries 13035, Moscow, Zh-35, Raushsk nab., 4/5 Subscription