RU2101682C1 - Device for dosing of loose materials - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: device has rotating drum with measuring chambers and radial turning partitions. To simplify construction of device, to extend dose control range and to provide for multirow delivery of dose, drum is made in the form of external and internal tubes and fitted with shell. Measuring chambers are positioned in external tube, and radial partitions are secured on internal tube which is mounted for turning and fixing with respect to external tube. EFFECT: improved dosing process. 2 dwg

Description

 The invention relates to volumetric drum dispensers, providing regulation of the size of the dose, and can find application in the chemical-pharmaceutical, chemical, food and other industries.

 A known design of the dispenser (A.S. USSR N 1428927, class G 01 F 11/24, 1988), containing a rotating drum with a diametrical channel in which two pistons are placed, forming cells for the material to be dosed. The dispenser has a means for controlling the distance between the pistons for changing the dose size in the form of two bellows installed between the pistons, communicating with each other and with a source of adjustable pressure. The disadvantages of this design include the complexity of the means for changing the distance between the pistons, requiring a pump, two tanks and shut-off valves.

 Known piston dispenser (AS USSR N 609057, class G 01 F 11/00, 1978), containing a rotating drum with a through hole in which two pistons are placed, forming a measuring chamber. To change the dose size, the dispenser is equipped with a mechanism for regulating the distance between the pistons, made in the form of two shanks on the pistons connected to each other by an adjustable threaded connection. However, this design of dose size regulation is inconvenient to maintain, since a mechanism must be disassembled to change or adjust and adjust the dose size.

 The closest in combination to the sign and technical nature of the proposed device is a rotary feeder (AS USSR N 627016, CL B 65 B 1/10, 1978), selected for the prototype. The known device contains a rotating drum, consisting of a movable and fixed disks, equipped with radial partitions having flanging ends made in the form of circular arcs. Partitions of one disk are placed between partitions of another disk, forming measuring chambers. Between the inner surfaces of the partitions, mechanisms are installed to control the volume of the chamber by moving the radial partitions mounted on the movable disk (movable partitions). The mechanism for controlling the volume of the chambers consists of a screw pair mounted on one partition and a system of articulated levers connected to it, mounted on another partition. The disadvantage of this device is the complexity of the design of the regulation mechanism of volumetric measuring chambers and the location of this mechanism between the partitions forming the chamber, which reduces the range of dose size regulation. The design of the partitions equipped with flanges directed towards each other also limits the possibility of moving the partitions and the possibility of obtaining the maximum dose. In addition, the design of the device does not allow for multi-row delivery of doses of material on one shaft.

 The main objective of the invention is to ensure the movement of radial partitions within the entire dosing chamber and using simple and compact means. The solution to this problem will simplify the design of the device, increase the range of regulation of the size of the dose and ensure multi-order delivery of doses of the material. To solve this problem, in a known device containing a rotating drum with measuring chambers and radial rotary partitions, the drum is made in the form of an outer and inner pipe and is provided with a shell, the measuring chambers are placed in the outer pipe, and the radial partitions are fixed on the inner pipe, which is installed with the possibility turning and fixing relative to the outer pipe.

 New in the device is the design of the drum in the form of the outer and inner pipes and the presence of a shell, the implementation of measuring chambers in the outer pipe and the fixing of radial partitions on the inner pipe, which is mounted with the possibility of rotation and fixation relative to the outer pipe.

 This embodiment of the drum and the measuring chambers, as well as fixing the radial partitions on the inner pipe, mounted with the possibility of rotation and fixing relative to the outer pipe, provides the ability to move the radial partitions to the maximum extent from one wall of the measuring chamber to another, which increases the range of dose size adjustment. The radial partitions are moved by simply turning the inner pipe by its flange and fixing it with a screw, which makes the design simple and convenient to operate. In addition, the design of the device allows for the possibility of performing along the drive shaft two or more rows of measuring chambers, which expands the possibilities of using the device in packaging technology.

 Figure 1 presents a General view of the device in section; in Fig.2 a section along aa in Fig. one.

 The device for dispensing bulk materials contains a drum 1 mounted in a cutout in the vertical wall of the hopper 2 on the drive shaft 3. The drum 1 consists of an outer pipe 4 with a flange 5 mounted on a key on the shaft 3, an inner pipe 6 with a flange 7 mounted freely on the shaft 3 inside the outer pipe 4, and the shell 8, mounted on the outer pipe 4. In the outer pipe 4 is made measuring chambers 9, bounded by the shell 8 and the inner pipe 4 and having a cross-sectional shape in cross section. In this case, two or more rows of measuring chambers can be made in the drum. In each row, in order to provide the widest range of dose size adjustment and increase device productivity, it is optimal to perform two chambers. In each of the chambers 9, radial partitions 10 are installed, which are fixed on the inner pipe 6 by screws 11. The inner pipe 6 is fixed with a screw 12 relative to the outer pipe 4, and a circular groove 13 for the screw 12 is made in the flange 7. The holes 14 are made in the casing 8 communicating with the measuring chambers 9 (one hole in each chamber), and the hole in the casing is located at the side wall of the chamber 9 for the entire length of the chamber, and the width of the hole ensures that it is blocked by a partition 10 with a minimum dose. A scraper 15 is mounted on the wall of the hopper 2, designed to clean the outer surface of the drum 1. Under the drum 1 are funnels 16 through which the dosed material is fed into the filled containers. To control the dose size on the shell 8, there is a risk 17, and on the flange 7 of the inner pipe 6, a scale 18 is made, the position of risks 17 relative to which indicates the dose size.

 The device operates as follows.

 To set a specific dose size, loosen the screw 12 and turn the inner tube 6 relative to the outer tube 4 behind the flange 7. At the same time, the radial partitions 10 mounted on the inner tube 6 move in the measuring chambers 9, changing (decreasing or increasing) the volume of the chamber. The position of the partition 10 in the chamber 9, corresponding to a certain dose, is determined by the position of the risks 17 relative to the scale 18. After setting the required dose, fix the position of the inner pipe 6 with the screw 12 relative to the outer pipe 4. The minimum dose corresponds to the position of the radial partitions 10 in close proximity to the side wall of the chamber 9 , which has a hole 14, and the maximum dose when the partition 10 is located close to the opposite wall of the chamber 9.

 To ensure the issuance of the dose, the drum 1 receives rotation from the drive shaft 3. Through the hole 14, which is in the upper position, the material from the hopper 2 enters the measuring chamber 9 and fills in it the space bounded by the radial partition 10, forming a dose. When the hole 14 of the filled measuring chamber is in the lower position and exits the hopper 2, the material filling the chamber 9, under the influence of its own weight, is discharged into the funnel 16. At this time, the hole 14 of the other measuring chamber 9 is located in the hopper 2 in the upper position, and the camera will be filled with dosed material from the hopper.

Claims (1)

 A device for dispensing bulk materials containing a rotating drum with measuring chambers and radial rotary partitions, characterized in that the drum is made in the form of an outer and inner pipe and provided with a shell, measuring chambers are located in the outer pipe, and the radial partitions are mounted on the inner pipe, which is installed with the possibility of rotation and fixing relative to the outer pipe.

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