SU1682810A1 - Dosage meter - Google Patents

Abstract

The invention relates to instrumentation, in particular, to devices for volumetric dosing of liquid media and can be used in the food, chemical, pharmaceutical and other industries. The purpose of the invention is to improve the dosing accuracy by dropping the dose and expanding the range of dosing liquids. The scoops (H) 3, placed on the inner cylindrical surface of the drum (B) 1 connected to the rotation drive, scoop the liquid in their lower position and then pour it onto the receiving collector in Type A 12 13. 15 as a tray (L) 8, installed with the possibility of changing its angle of inclination, with longitudinal grooves (PB) of a triangular profile parallel to the base B1. The drain edge 11 PB lies in the vertical longitudinal plane of symmetry B 1, their receiving edge 12 lies on the generatrix of the cylindrical surface concentric B 1, with a radius smaller than the radius of the circle on which the drain edges 43 are placed. Moreover, the width L 8 is equal to the generatrix of cylindrical B 1, and the drain edges 43 are made with a profile corresponding to the profile PB 8 8. The L 8 is set at such an angle that the liquid flows according to PB and filled the receiving containers with drops, which improves the accuracy of the dose set. When changing the metered liquid medium, the angle of inclination L 8 is changed so that the dose set again occurs by the drops. The transport mechanism of the receiving tanks is passed through the through axial hole B 1 parallel to its axis of rotation, 4 sludge. CO S about 00 y 00 about Fig 2

Description

The invention relates to the field of instrumentation, in particular, to devices for volumetric dosing of liquid compositions, and can be used in mechanical engineering, food, chemical, pharmaceutical and other industries.

The aim of the invention is to improve the accuracy of dosing by dropping the dose and expanding the range of dosing liquids

Figure 1 shows the metering device, the incision; Fig; 2 is a view A in Fig. 1 with a tray and scoops; on fig.Z - section bb in fig, 2 (a tray with a profile); in fig. 4 - swivel tray.

The metering device includes a housing made in the form of a cylindrical drum 1 connected to a 2 rotation drive, buckets 3 placed along the perimeter of the inner cylindrical surface 4 of drum 1, the transport containers 5 receiving tanks b, made in the form of a vibratory flow mounted console in the central hole 7 drum 1, inside drum 1, along its entire width, is located tray 8, bonded to the fixed element 9 of drum 1, mounted with the possibility of changing its angle of inclination to the transport mechanism grinding and made with longitudinal grooves 10 triangular profile parallel to the base of the cylindrical drum 1, while draining the edge of the longitudinal grooves 10 of the tray 8 lies in the vertical longitudinal plane symmetry of the cylindrical drum 1, and their receiving edge 12 lies on forming a cylindrical surface concentric to the cylindrical drum 1, with a radius smaller than the radius of the circle on which the drain edges of the scoops are placed, made with a profile identical to the profile 10 of the tray 8, and the tray 8 may be nen turning and is mounted on two spherical hinges 16 placed on a fixed base member 9 of the drum 1, containing a liquid 17.

The dosing device operates as follows.

The rotation actuator 2 is turned on, the drum 1 is set in motion, the scoops 3 pass through the lower position of the drum 1 filled 1/5 with liquid 17, scoop the liquid 17 and raise the ecgr. At an angle of more than 60 ° relative to the horizontal surface of the drum 1, the liquid 17 flows through the drain edges of the grates 15 from the scoops 3 and falls on the receiving edge 12 of the grooves 10 of the tray 8 and so on.

the queues from each scoop 3, the liquid 17 flows in separate portions (portions) into the receiving edge of 12 grooves 10. Under its own weight, the liquid 17 flows

 along the grooves 10 of the tray 8 to the drain edge 11 and in the form of drops from the drain edge of the grooves 10 of the tray 8 drips and fills the volume of the receiving tank 6, which is located on the transport mechanism 5, made in the form of a vibrating channel, mounted console in the central hole 7 of the drum 1 The receiving tanks 6 with the dialed dose are moved along the mechanism 5 by means of a vibrating device.

5 transportation to the receiving table. The receiving table is removed to the container.

The proposed metering device as a result of the droplet dose set improves the accuracy by the absence of air bubbles, since the filling of the volume of the receiving tank occurs gradually in the form of a drop set of liquid as a result of the scoops and profile, the identical profile of the grooves of the tray, no empty volumes. liquid in the receiving tank, there is no excessive flow of fluid into the volumes of the receiving tanks, constant mixing of the liquid,

0 as the scoops during the rotation inside the drum pass through the lower position, draw the liquid and mix the liquid, as well as the absence of splashing due to the slow distribution of the liquid at a slow speed, as the liquid is transferred from the scoop by drop method to the receiving edge of the groove of the tray, along which flows to the drain edge of the tray, and then a drop dose (portion)

0 drips into the receiving tank.

Claims (1)

The dosing device allows you to expand the range of dosing liquids by changing the angle of the tray, allowing the composition of the liquid to change in density and viscosity, for which the tray is made of a swivel mounted on two spherical hinges placed on a stationary element of the drum, and also due to the simultaneous dosing but different liquids, as the tray is made across the entire width of the drum and the drum can be divided into several zones. Claims of Dispensing Device 5 a supply container, a unit with scoops and a receiving collector rotatably mounted on a horizontal axis, characterized in that, in order to improve dosing accuracy due to drip dose set and expanding the range of dosing liquids, it is equipped with a mechanism for transporting receiving containers, with a scoop unit in the form of a cylindrical drum with a through axial bore, with scoops placed on the inner cylindrical surface of the drum, the receiving manifold is installed with the possibility of measuring Its inclination angle to the transport mechanism is made in the form of a tray with longitudinal grooves of a triangular profile parallel to the base of the cylindrical drum, while the drain edge of the longitudinal grooves of the tray lies in the vertical longitudinal plane of symmetry of the cylindrical drum, their receiving edge lies on the forming cylindrical surface concentric cylindrical drum with a radius the smaller radius of the circle on which the drain edges of the scoops are located, the width of the tray is equal to the length of the cylindrical drum, the drain edges of the scoops are made with the profile corresponding to the profile of the grooves of the tray, and the transport mechanism of the receiving containers passes through the through axial opening of the cylindrical drum parallel to its axis of rotation. eight r ///// s // V //// & / - -z / -II- 1 fig.Z FIG.