DE10215299C1 - Dosing device, for dosing powdered or granulate materials, e.g. in laboratory, has horizontal gap between material feed and dosing plate - Google Patents

Abstract

Dosing device has a horizontal gap between a material feed (3) and a dosing plate (11). The gap is filled with the material to be dosed. The material to be dosed is moved into an outlet (9) by the eccentric movement of the material feed about the central point of the fixed dosing plate.

Description

The invention relates to a metering device for powdery and granular Substances for dosing in the laboratory, such as in sample preparation is necessary, but also for dosing processes in the manufacturing industry, for example at Multi-component dosing, or in special facilities such as automatic dosing machines. The Dosing device can be used both for continuous dosing processes and for discontinuous dosing processes are used. If necessary, would be between the automatic dosing is also possible for individual dosing processes.

Dosing screws and vibration conveyors are known for the dosing of bulk goods.

Vibration conveyors have the disadvantage that the dosing speed is above the Vibration amplitude is regulated. Especially when it comes to fine dosing arrives, the flow behavior of many substances is not with a small vibration amplitude more reproducible. This means that the dosing system is constantly recalibrated must be, if the consistency of the substance to be dosed even slightly changes.

Another disadvantage is that a possible lump in the dosing material Dosing device clogged or the dosing result unusable because it is straight leaves the dosing device shortly before reaching the setpoint and that Dosing result shoots above the setpoint.

Another disadvantage to be mentioned is the separation of the dosing material, if with one Vibration conveyor is dosed.

Screw conveyors are relatively large. The dosing material comes with a large area of moving parts in contact, which means unnecessary abrasion. In addition, the The substance to be dosed is mechanically compressed, which is the dosing behavior of many substances adversely affected. A cleaning between the dosing processes would be with Screw conveyor very complex.

The metering device for powdery substances is known from US Pat. No. 4,712,716 is a system where the material to be dosed collects in a gap and periodically by the dosing device, driven by a toothed disk, via a Outlet opening is metered.

The invention is therefore based on the object of a metering device for to develop powdery or granular substances that are used in the dosing system (e.g. Dosing device, scale and dosing controller) provides reproducible dosing results. The dosing quantity should also be exactly proportional to that in the area of fine dosing Angle of rotation of the drive. Slight deviations in the consistency of the dosed Substance should not significantly affect the dosing result. Light caked lumps must be crushed during the fine dosing and must not seriously disrupt the dosing process.

The substance to be dosed should have as little area of the active parts as possible Touch the dosing device so that the abrasion is kept negligibly small can.

For manual cleaning, the dosing device must be quick and easy disassemble. But there must also be an automatic cleaning option exist if z. B. different substances can be dosed in succession.

Despite very precise fine dosing, the rough dosing should be exceptionally quick can be done.

The dosing device is to be kept compact, so that a close alignment for one Multi-component dosing is possible. The structure of the dosing device is inexpensive to design.

This object is achieved by the features of PA 1 .

With a maximum gap (for fine dosing), the diameter of the metering disc should be chosen so large that the pouring cone that forms does not automatically trickle over the edge of the metering disc ( 11 ) when the substance supply ( 3 ) is at a standstill.

The circular area of the outlet bore of the substance supply ( 3 ) and the circular area of the metering disc ( 11 ), which together form the horizontal gap, contain sawtooth-shaped recesses which are intended to promote the safe transport of the substance ( 25 ) to be metered to the edge of the metering disc ( 11 ) , In addition, the sharp-edged punctures chop up any lumps of cake in the dosing material.

The metering disc carrier ( 10 ) consists of thin webs, which are ground like a blade at the top, so that the dosed substance does not remain on the webs.

Metering disc ( 11 ), metering disc carrier ( 10 ) and the substance outlet ( 9 ) form a unit. The substance outlet ( 9 ) has a movement thread (e.g. metric trapezoidal thread), an upper fixed stop ( 4 ) for coarse dosing and a lower adjustable stop ( 13 ) for fine dosing.

The complete unit, as described above, has an anti-rotation device ( 14 ) and is held in a nut ( 8 ), which also has a movement thread. The nut ( 8 ) hangs in a slip clutch ( 7 ) which is connected to the slide bearing ( 5 ) which receives the substance supply ( 3 ). The torque is transmitted from the plain bearing ( 5 ) to the nut ( 8 ) by means of a pressure piece ( 6 ). If the substance feed ( 3 ) is now driven counterclockwise, the substance outlet ( 9 ) with the metering disc ( 11 ) lowers against the upper stop ( 4 ) (with normal right-hand thread). The maximum gap between the eccentric ( 3 ) and the metering disc ( 11 ) has been reached and the rough dosing takes place. If the metered quantity approaches the setpoint, the direction of rotation of the drive ( 19 ) is changed and the substance outlet ( 9 ) rises together with the metering disc ( 11 ) against the lower preset stop ( 13 ). The gap between the eccentric ( 3 ) and the metering disc ( 11 ) is reduced to the preset value for the fine metering that now takes place. Until the setpoint is reached, the fine dosing is continuously regulated via the speed.

The drive ( 19 ) preferably consists of a stepper motor. By using a stepper motor, the expensive gear is not necessary anymore and on the other hand a defined dosing quantity can be assigned to each step. The dosing system, e.g. B. consisting of dosing device, scales and dosing controller, can independently take over this assignment and constantly update it. Shortly before the setpoint is reached, the system calculates the number of steps required to quickly approach the setpoint. The torque of the drive ( 19 ) is by means of belt drive ( 15 ), for. B. through an O-ring, transferred to the slide bearing ( 5 ). The plain bearing ( 5 ) has an eccentric bore in which the upper dosing piece, the substance feed ( 3 ), is rotatably mounted. The connection between the circulating substance supply ( 3 ) and the fixed connection ( 1 ) is realized by a flexible supply hose ( 2 ) (preferably by a silicone hose). The connection ( 1 ) to a dosing container or to a feed hopper is secured against rotation. This anti-rotation device ( 20 ) is transferred through the supply hose ( 2 ) to the substance supply ( 3 ). As a result, the substance feed ( 3 ) can move around the center of the metering disc ( 11 ), but does not rotate about its axis. In addition, the flexing work of the feed hose ( 2 ) has an advantageous effect on the flow behavior of the dosing material.

The dosing device is designed so that it can be quickly dismantled for manual cleaning. After removing the cap ( 18 ), the three screws can be loosened from the slip clutch ( 7 ), which holds the nut ( 8 ) with the metering tube ( 9 ). Then the dosing tube ( 9 ) together with the dosing disc ( 11 ) can be pulled out for cleaning.

For automatic cleaning, a suction device must be connected to the substance outlet ( 9 ), which draws the residual material out of the gap between the substance supply ( 3 ) and the metering disc ( 11 ). To support cleaning, pulsating compressed air is blown in at the connecting piece ( 1 ).

Basically, the dosing device described above for powdered and Granular substances, depending on the size, from small to large Dosage quantities can be used. An embodiment for rather small dosing quantities, like it is frequently encountered in sample preparation for analytical purposes Drawings explained in more detail. Show it:

Fig. 1 shows the complete compilation of the dosing device

Fig. 2 is an enlarged view of the active dosing components for better understanding.

As already described above, the centerpiece of the metering device is the substance feed ( 3 ) together with the slide bearing ( 5 ) and the metering disc ( 11 ) together with the metering disc carrier ( 10 ), the substance outlet ( 9 ), the nut ( 8 ) Slip clutch ( 7 ) with the pressure piece ( 6 ), the upper stop ( 4 ) for the rough dosing and the lower stop ( 13 ) for the fine dosing. In the exemplary embodiment, the metering disc ( 11 ) has a diameter of 14 mm, the substance feed ( 3 ) has a diameter of 12 mm, and the outlet bore of the substance feed ( 3 ) has a diameter of 6 mm. The gap between the substance supply ( 3 ) and the metering disc ( 11 ) for fine metering should be at least three times the grain size of the substance to be metered. In the exemplary embodiment, the gap was chosen to be adjustable between 1 mm and 2 mm. A gap of 3 mm was specified for the gap during rough dosing. The gap for rough dosing should be chosen so that the pouring cone protrudes beyond the edge of the metering disc ( 11 ). In the exemplary embodiment, the substance feed ( 3 ) moves 2 mm eccentrically around the center of the metering disc. The substance outlet ( 9 ) has an outer diameter of 22 mm. The feed hose ( 2 ) has an inner diameter of 12 mm and is made of silicone. All other individual parts that come into contact with the substance to be dosed are made of stainless steel. The metering disc ( 11 ) and substance supply ( 3 ) are made of nitrided stainless steel.

The substance feed ( 3 ) is mounted with the slide bearing ( 5 ) by means of a sealed deep groove ball bearing. The plain bearing ( 5 ) is received by the split bearing plate ( 16 ). The torque is transmitted from the stepper motor ( 19 ) to the slide bearing ( 5 ) by means of the O-ring ( 15 ). Slide bearings ( 5 ) and nuts ( 8 ) are made of self-lubricating plastic. The base body ( 17 ) is made of an aluminum alloy.

The connector ( 1 ) is used to hold a hose that comes from a dosing container or from a funnel. The connector ( 1 ) is held by an elastic ring which is mounted with the cap ( 18 ).

A tripod is required to accommodate the dosing device. With multi-component dosing, several dosing devices can be installed in a row. The vessel ( 21 ) is then moved together with the balance ( 22 ) under the metering devices in order to meter the individual components into the vessel.

LIST OF REFERENCE NUMBERS

1

Connection for a dosing container or a funnel

2

Feed hose (flexible material e.g. silicone hose)

3

Substance supply (rotatably mounted)

4

Upper stop for rough dosing and clamping piece for the metering disc holder

5

Slide bearing with an eccentric bore

6

Thrust piece for the slip clutch

7

slip clutch

8th

Moving thread nut

9

Substance outlet with moving thread

10

Dosierscheibenträger

11

Metering disc (lower metering piece, fixed)

13

Lower stop for fine dosing

14

Anti-twist device for the substance outlet

15

Driving belt (e.g. O-ring)

16

Bearing plate (divided)

17

body

18

Dosing device cap

19

Drive (preferably stepper motor)

20

Anti-twist device for the connection

21

Vessel (e.g. a melting pot)

22

Libra

25

Substance to be dosed

Claims (11)

1.Dosing device for dosing powdered or granular substances in the laboratory area, but also for dosing processes in the manufacturing industry or special devices such as automatic dosing devices, the substance ( 25 ) to be dosed filling and passing through a horizontal gap between a substance feed ( 3 ) and a dosing disc ( 11 ) the eccentric movement of the substance feed ( 3 ) around the center of the fixed dosing disc ( 11 ) pushes the substance to be dosed, depending on the angle of rotation, over its circular edge into a substance outlet ( 9 ). 2. Dosing device according to claim 1, characterized in that the circular area of the outlet bore of the substance feed ( 3 ) and the circular area of the metering disc ( 11 ), which together form the horizontal gap, contain sawtooth-shaped punctures which effect the safe transport of the substance to be dosed and crush any lumps of substance. 3. Dosing device according to claim 1 or 2, characterized in that the metering disc is attached to a metering disc carrier ( 10 ), which consists of thin webs which are designed like blades upwards so that the metered substance does not remain on the webs. 4. Metering device according to claim 3, characterized in that the metering disc ( 11 ), the metering disc carrier ( 10 ) and the substance outlet ( 9 ) form a unit. 5. Dosing device according to claim 4, characterized in that the substance outlet ( 9 ) is provided with a movement thread, and has an anti-rotation device ( 14 ), an upper stop ( 4 ) for coarse dosing and a lower stop ( 13 ) for fine dosing. 6. Dosing device according to claim 4 or 5, characterized in that the substance outlet ( 9 ) is held by a rotatably mounted nut with a movement thread ( 8 ). 7. Dosing device according to claim 6, characterized in that on the nut ( 8 ) a torque from the slide bearing ( 5 ) by means of a slip clutch ( 7 ) and resilient pressure piece ( 6 ) is transmitted. 8. Dosing device according to claim 5 to 7, characterized in that depending on the direction of rotation of the slide bearing ( 5 ) the substance outlet ( 9 ) up to the lower stop for fine metering ( 13 ) raised or lowered to the upper stop for coarse metering ( 4 ) becomes. 9. Dosing device according to claim 1 to 8, characterized in that the substance supply ( 3 ) and the connecting piece ( 1 ) with a supply hose ( 2 ) made of flexible material, for. B. silicone hose are connected. 10. Dosing device according to claim 1 to 9, characterized in that the substance supply ( 3 ) has an anti-rotation device ( 20 ). 11. Dosing device according to claim 1 to 10, characterized in that the drive ( 19 ) of the substance supply ( 3 ) consists of a stepper motor, and thus the dosing amount is proportional to the number of steps of the drive.