RU9065U1 - DEVICE FOR DOSAGE OF VISCOUS PRODUCTS - Google Patents

Abstract

A device for dispensing viscous products, comprising a dispensing chamber with a piston disposed therein connected to the drive, a transport channel provided with an inlet and outlet nozzles and connected to the dispensing chamber, a cylindrical spool provided with a drive, a dose control mechanism for the viscous product and a container monitoring device, characterized in that the spool and piston drives are made in the form of pneumatic cylinders connected to the control unit, the spool is placed perpendicular to the metering chamber and the transport to on the side of the spool, there are rectangular grooves displaced axially relative to each other and arranged to alternately connect the metering chamber with the inlet and outlet nozzles, the dose adjustment mechanism of the viscous product is made in the form of an adjustment nut located on the thread in the upper part the rod connecting the piston to the pneumatic cylinder and at least one split washer installed in the lower part of the rod, and the device for monitoring the presence of containers is made in the form vetodioda and phototransistor connected to the control unit.

Description

DEVICE FOR DOSING OF VISCOUS HERODIETS

The inventive utility model relates to food equipment, in particular, to dispensers of volume type and can be used for dosing viscous and pasty products, for example, sour cream.

A study of the prior art allowed us to establish the following.

A device for dispensing viscous products is known, comprising a dispensing chamber, in which there is an ejection pump driven by a two-way power cylinder, and a transport channel equipped with inlet and outlet valves rigidly connected with spring return means (1).

A disadvantage of the known device for dispensing viscous products is the low productivity due to the presence of spring valves in the area of loading and discharging a viscous product.

Widespread among volumetric type dispensers are piston dispensers with spool distribution elements.

As a prototype of the claimed utility model, a device for dispensing viscous products is selected, comprising a dispensing chamber with a piston located in it, a transport channel equipped with an inlet and outlet nozzles and connected to a dispensing chamber, a rotary spool-type distributor located in the transport channel, a volume control mechanism doses and a container control unit made in the form of a mechanical probe (2). The piston and spool are equipped with mechanical drives; the piston is reciprocated by means of a roller interacting with a stationary copier, and the spool shutoff is controlled by the interaction of the spool shaft with a fixed stop and a probe. The volume of the dosed product is regulated by changing the angle of inclination of the copier, leading to an increase or decrease in the stroke of the piston.

viscous product. At that moment, the spool shutter shaft occupies a position in which it connects the metering chamber to the supply tank and cuts it off from the outlet pipe. After filling the dosing chamber with a viscous product, the probe controls the presence of the container and, if there is one, interacts with the slide valve, as a result of which the slide valve rotates 90 °, connecting the metering chamber with the outlet pipe and simultaneously cutting it off from the loading area. The piston moves down and squeezes the viscous product into the container. After the piston has reached its lowest position, the spool shutter returns to its previous position and duty cycle

repeated.

A known device for dispensing viscous products is characterized by the following disadvantages. A large number of mechanical components, the complexity of the kinematic links that control the movement of the piston and spool, determine the low reliability of the device and, accordingly, reduce its service life. The implementation of the mechanism for regulating the volume of the dose of the product in the form of a mechanical unit reduces both the reliability of the device as a whole and the accuracy of dosing.

The use of a rotary slide valve, which alternately connects a metering chamber through a curved hole with either a supply tank or an outlet, causes increased wear of the contacting surfaces (heat is generated on the lateral surface of the valve and the inner surface of the transport channel, the structure of the material changes, scratches occur increases the friction force), which also reduces the reliability of the device and its service life.

The task solved by the utility model is to increase the reliability of the work and the accuracy of the dosage.

This problem is solved in that in a device for dispensing viscous products containing a dispensing chamber with a pit located in it, connected to the drive, a transport channel equipped with inlet and outlet nozzles and connected to the dispensing chamber, a cylindrical spool equipped with a drive, a viscous dose adjustment mechanism product and device for monitoring the presence of containers, piston and spool drives are made in the form of pneumatic cylinders connected to the control unit; the spool is placed perpendicular to the metering chamber and the transport channel, while rectangular grooves are placed on the side surface of the spool, axially displaced relative to each other and configured to alternately connect the chamber

dosing with inlet and outlet nozzles; the mechanism for regulating the dose of a viscous product is made in the form of an adjusting nut located on the thread in the upper part of the rod connecting the piston to the pneumatic cylinder, and at least one split washer installed in the lower part of the rod, and the container control device is made in the form of an LED and phototransistor connected to the control unit.

The utility model is illustrated by drawings. In FIG. 1 shows the inventive device for dispensing viscous products, front view, in FIG. 2 is a plan view.

A device for dispensing viscous products includes a housing 1, in which a transport channel 2 is made and a cylindrical spool 3 is placed, the axis of which is perpendicular to the axis of the channel 2. The housing 1 is equipped with an inlet 4 and an outlet 5 nozzles. A metering chamber 6 is connected to the housing 1, in which a piston 7 is placed, connected via a rod 8 to the pneumatic cylinder 9. Two rectangular grooves 10 and 11 are made in the body of the spool 3 at a certain distance from each other. The spool 3 is moved by means of a pneumatic cylinder 12 spool 3 by a rod 13. The mechanism for regulating the dose of a viscous product is made in the form of an adjusting nut 14 located on the thread in the upper part of the rod 8 and at least one split washer

15 installed in the lower part of the rod 8. The presence of containers under the outlet 5 is controlled by an optoelectronic device including an LED 16 and a phototransistor 17, connected, like the pneumatic cylinders 9 and 12, to the control unit 18.

A device for dispensing viscous products works as follows.

According to the command received from the control unit 18, the pneumatic cylinder 12 moves the spool 3 to the position in which the groove 10 connects the cavity of the metering chamber 6 with the inlet pipe 4, simultaneously cutting it off from the exhaust pipe 5. The pneumatic cylinder 9 moves the piston 7 to its lowest position and viscous the product from the supply tank (not shown in FIG.) is sucked into the metering chamber under the influence of the pressure difference 6. Then, the optoelectronic device monitors the presence of containers (for example, a plastic cup) under the outlet 5. The signal produced by the LED

16, is reflected from the surface of the plastic cup and is recorded by the phototransistor 17 (in the absence of packaging, the signal of the phototransistor 17 is zero and the spool 3 remains in the same position). After that, on command from the control unit 18, the pneumatic cylinder 12 moves the spool 3 to a position in which the groove 11 connects the metering chamber 6 to the outlet pipe 5 and simultaneously cuts it off from the loading area (from the inlet

branch pipe 4). The pneumatic cylinder 9 moves the piston 7 up and the product is squeezed out into the container through the outlet 5. The stepwise regulation of the dose volume of the viscous product is carried out by placing a split washer 15 in the lower part of the flap 8, which reduces the piston 7 stroke and, accordingly, reduces the volume of product sucked into the chamber 6 ( in the initial position, the piston 7 is limited by the upper end of the pneumatic cylinder 9). To further reduce the stroke of the piston 7 and, accordingly, further reduce the dose of the product, the number of split washers can be increased. Exact regulation of the dose volume is achieved by moving up or down the thread of the rod 8 of the adjusting nut 14.

The use of the inventive device for dispensing viscous products allows to increase its service life by increasing the reliability of the work and reducing unproductive consumption of the product by increasing the accuracy of dispensing. This is the useful effect of using the claimed utility model.

1.France patent N 2 299 628, cl. G01F 11/02, 1976

2. The author's certificate of the USSR N 160 096, cl. G01F 11/04, 1964 (prototype).

LITERATURE

Claims (1)

A device for dispensing viscous products, comprising a dispensing chamber with a piston disposed therein connected to the drive, a transport channel provided with an inlet and outlet nozzles and connected to the dispensing chamber, a cylindrical spool provided with a drive, a dose control mechanism for the viscous product and a container monitoring device, characterized in that the spool and piston drives are made in the form of pneumatic cylinders connected to the control unit, the spool is placed perpendicular to the metering chamber and the transport to on the side of the spool, there are rectangular grooves displaced axially relative to each other and arranged to alternately connect the metering chamber with the inlet and outlet nozzles, the dose adjustment mechanism of the viscous product is made in the form of an adjustment nut located on the thread in the upper part the rod connecting the piston to the pneumatic cylinder and at least one split washer installed in the lower part of the rod, and the device for monitoring the presence of containers is made in the form vetodioda and phototransistor connected to the control unit.