DE102006034115A1 - Device for dosing powder - Google Patents

Abstract

The invention relates to a device for metering powder (5) with a storage vessel (3), wherein the storage vessel (3) comprises an outlet channel (7) via which the powder (5) can be supplied to a collecting device (9). The storage vessel (3) is connected to a vibration exciter (11), wherein at least a part of the storage vessel (3) with vibrations which are generated by the vibration exciter (11), is applied.

Description

State of the art

The The invention relates to a device for metering powder according to the preamble of claim 1.

In The flexible laboratory analysis (High Troughput Experimentation) requires powder in a large volume range be dosed. The amount of powder to be dosed can be in the range from less than 1 mg to more than 10 g.

The Powder dosing takes place, for example, with the help of vibrating troughs. However, there is a problem that a continuous supply of one in the reservoir of the delivery system is difficult to achieve. In addition, the discharge amount from the vibrating trough, among other things depending on the discharge amount of the delivery system. Also, the entire vibrating trough becomes powdered contaminated, so this vibrating trough only for a single Powder can be used. Once several different powders To be metered, for this reason, also several vibrating troughs needed. Another disadvantage of the vibrating trough is that the powder after the end of the metering open in the ambient air located. Disadvantage of the vibrating trough is also that a safe Dosage of powder quantities smaller than 1 mg is not possible. In addition, the discharge rate is from an external delivery system dependent. Also is a relatively large one Construction for the dosage of a powder required. There are two actors needed one as the drive of the delivery system and a second for the drive of the vibrating trough.

Further Dosing systems known from the prior art are, for example Dosing screws, belt feeders, rotary valves, chamber feeders and piston dispensers. Disadvantage of these different metering systems In each case, it also means that dosing quantities of less than 1 mg can not be achieved.

Disclosure of the invention

Advantages of the invention

A formed according to the invention Device for metering powder comprises a storage vessel, which an outlet channel comprises which the powder can be supplied to a collecting vessel. The storage vessel is with connected to a vibration exciter, wherein at least a portion of the storage vessel with Vibrations generated by the vibrator, applied becomes. By applying at least a portion of the storage vessel with Vibrations become a uniform powder outflow achieved from the storage vessel. The vibrations furthermore prevent the formation of solid bridges in the storage vessel, which clog the outlet channel and so a further dosage of the Prevent powder.

In a preferred embodiment is the vibration that is generated by the vibration exciter, a square wave. Surprisingly has been shown that in a square wave differently than in other forms of vibration achieved a more uniform flow of powder becomes. Also, less solid bridges are formed in square waves and thus blockages avoided. Alternatively, it is also possible that the Vibration generator generates a triangle vibration. In difference to the square wave can be lower with a triangle wave Flow rates realize.

Next the type of vibration applied to at least part of the storage vessel, is also the cross section of the outlet channel a relevant Size for the powder flow. So flows at a smaller cross-section of the outlet channel a smaller Amount of powder from the reservoir than with a larger cross-section. Thus lets At a smaller diameter, the amount of powder dosed finer.

The Elimination of blockages in the storage vessel or in the outlet channel and a continuous flow of powder from the opening of the outlet channel is according to the invention thereby achieved that the vibration exciter preferably formed is that the amplitude is less than 150 microns and the frequency greater than 300 Hz, preferably in the range of 400 to 1000 Hz.

Around with the vibration exciter to be able to achieve a square wave includes this preferably a piezoelectric element. By the piezo element is achieved a rapid expansion or contraction, which almost a square wave is created. Under square wave in the sense The present invention is understood to mean any vibration an amplitude change is at most 3/10 of a period.

In a preferred embodiment the vibration exciter is connected to the outlet channel of the storage vessel, so that the exhaust duct with the vibration generated by the vibrator Vibration is applied. As a result, the outlet channel in Vibrations offset so that form in the outlet channel no powder bridges can and so the clogging of the outlet channel is prevented.

In one embodiment, the Vor Council vessel a closure device with which the outlet channel is closed. The closure device prevents powder from flowing out of the storage vessel after the metering process has ended. The closure device preferably comprises a conical sealing plug. If a closure device is provided, it is alternatively possible, instead of the outlet channel, to set the closure device in vibration by the vibration exciter. In this case, the sealing plug is preferably caused to vibrate by the vibration exciter. In a first embodiment, the closure plug is connected to the vibration exciter in such a way that the closure stopper is vibrated in such a way that it oscillates in the axial direction with respect to the outlet passage. It is also possible that the closure plug is vibrated so that it vibrates in the radial direction, relative to the outlet channel. In order to avoid the formation of powder bridges in the outlet channel by vibrations of the sealing plug, the sealing plug is preferably connected to a rod, which is accommodated in the outlet channel. As soon as the sealing plug is vibrated, the rod is also subjected to vibrations, so that there is a vibrating element in the region of the outlet channel, by means of which the formation of the powder bridges is prevented. It is also possible to apply the vibration to the rod, which also causes the closure device, the sealing plug and the rod to vibrate.

Around to allow an accurate dosage is the collecting vessel for the powder preferably connected to a scale. About a control loop, which the Libra connects with the vibration exciter, so can be a precise amount of powder metered. As soon as the balance measures the amount of powder to be dispensed, a signal is sent to the vibration exciter and, if necessary, to the Sealing plug sent so that the vibrator stops, a Part of the storage vessel in vibrations and at the same time, if present, the stopper the outlet opening the outlet channel closes. This is possible Powder in an amount of less than 1 mg with accuracy of 0.1 mg.

Brief description of the drawings

embodiments The invention is illustrated in the drawings and in the following Description closer explained.

It demonstrate

1 a device according to the invention for metering powder in a first embodiment,

2 a detail of the device 1 .

3 an inventively designed device in a second embodiment,

4 a closure device with conical sealing plug,

5 a storage vessel with the closure device according to 4 .

6 an enlarged view of the outlet channel with closure device according to 5 .

7 a device designed according to the invention in a third embodiment,

8th an enlarged view of the connection of the vibration exciter with the sealing plug,

9 a holder of the storage vessel 7 and

10 an inventively designed device in a fourth embodiment.

In In the following figures, the same reference numerals mean the same Elements.

1 shows a device designed according to the invention for metering powder in a first embodiment.

A dosing device 1 includes a storage vessel 3 , in which metered powder 5 is included. The storage vessel 3 is with an exhaust duct 7 equipped, through which the powder 5 from the storage vessel 3 in a collecting vessel 9 , which is designed here as a shell, flows. The storage vessel 3 with the associated outlet channel 7 according to the invention is oriented so that the powder is transported solely by gravity. Due to the adhesion forces between the individual powder grains, powder bridges can form, which form the outlet channel 7 clog. To destroy these powder bridges is the outlet channel 7 in the in 1 illustrated embodiment with a vibration exciter 11 connected. The vibration generator 11 includes a piezo element 13 with which a square wave frequency can be generated. Next to the piezo element 13 however, it is also any other vibration exciter known to the person skilled in the art 11 can be used to generate a square wave frequency.

The of the vibration exciter 11 generated vibration preferably has an amplitude of maximum 150 μm. The frequency of the oscillation is preferably greater than 300 Hz. With a vibration exciter 11 that is a piezoelectric element 13 it is possible to generate a vibration with a frequency of up to 3000 Hz. Another advantage of a piezo element 13 is that when a vibration stop the vibration movement is set immediately. A ringing does not occur. In addition, there is the expansion of piezo elements 13 in the range up to about 100 microns. Thus can be with a piezoelectric element 13 realize a sufficient amplitude without additional translation.

To the exact amount of powder to be dispensed 5 to determine is the collection vessel 9 with a balance 15 connected. The measuring accuracy with which the powder enters the collecting vessel 9 can be metered, is thereby of the measuring accuracy of the balance 15 dependent. The greater the accuracy of the balance 15 is, the more accurate the amount of powder can be added.

In the embodiment shown here is the storage vessel 3 with a holder 16 held. In addition to the illustrated embodiment, wherein the outlet channel 7 pointing vertically downwards, it is also possible that the storage vessel 3 with the outlet channel 7 is arranged inclined. The inclination is preferably chosen so that the powder due to gravity in the storage vessel 3 and the outlet channel 7 is encouraged.

To at least part of the storage vessel 3 with the vibration exciter 11 To apply generated vibrations is the vibration generator 11 in the embodiment shown here with a rod 17 with the outlet channel 7 connected. The rod 17 is with the exhaust duct 7 , as in 2 represented with a ring eyelet 19 coupled. The ring eyelet 19 is on the staff 17 attached and on the other hand encloses the outlet channel 7 which has a circular cross-section in the embodiment shown here. As soon as the vibrator begins to vibrate, these vibrations are on the rod 17 and then by means of the eyelet 19 continue to the outlet channel 7 transfer. The outlet channel 7 begins to vibrate at the same frequency and amplitude as the rod 17 , This is the ring eyelet 19 preferably with exact fit with the outlet channel 7 connected. Once a game between the ring eyelet 19 and the outlet channel 7 is formed, the amplitude with which the exhaust duct 7 swings around the game diminished.

3 shows a device designed according to the invention in a second embodiment.

At the in 3 In contrast to the embodiment shown in FIG 2 illustrated embodiment, the collecting vessel 9 with a higher edge 21 educated. By the higher edge 21 of the collecting vessel 9 is it possible that the exhaust duct 7 into the collecting vessel 9 protrudes. This will avoid that powder as dust from the receptacle 9 escapes. In the embodiment shown here, the vibration exciter preferably acts within the rim 21 of the collecting vessel 9 on the exhaust duct 7 , This is due to the vibration exciter 11 a curved bar 23 taken from the vibrator 11 generated vibrations to the exhaust duct 7 transfers. The connection of the curved bar 23 with the outlet channel 7 takes place in the embodiment shown here preferably, as well as in 2 represented by the eyelet 19 , The curvature of the curved rod 23 is designed so that the eyelet within the collecting vessel 9 is located while the curved rod 23 over the edge 21 of the collecting vessel 9 protrudes and with the vibration exciter 11 connected is.

4 shows a closure device with which the outlet channel 7 can be closed. In the 4 Shutter device shown 25 includes a conical sealing plug 27 that with a wand 29 connected, the rod 29 is in the axial direction in the outlet channel 7 taken, so that the stopper 27 into the outlet opening of the outlet channel 7 pull and so the exhaust duct 7 closes. For this purpose, the diameter D _{1 is} greater than the inner diameter of the outlet channel 7 , The diameter D _{2 of} the rod 29 is chosen so that the powder flow through the rod 29 not hindered.

In 5 is a storage vessel 3 with a closure device 25 shown. The movement of the rod 29 is by a double arrow 31 shown. The direction of movement is axial to the outlet channel 7 , During a movement of the sealing plug 27 from the outlet channel 7 out becomes the outlet channel 7 opened and powder can from the storage vessel 3 flow out. As soon as the powder dosing is finished, the sealing plug becomes 27 in the outlet channel 7 moves in and thus closes the outlet opening of the outlet channel 7 ,

The outlet channel 7 with sealing plugs 27 in a position that powder from the exhaust duct 7 can flow out is in 6 shown enlarged. Because of the bar 29 , on which the conical sealing plug 27 is fastened, forms at the outlet channel 7 an annular opening cross section through which the powder can flow. By a movement of the sealing plug 27 in the direction of the outlet channel 7 this is closed. Another advantage of the conical sealing plug 27 is that so that the opening cross-section can be adjusted. The further the conical sealing plug 27 from the outlet channel 7 protrudes, the larger the opening cross-section. Accordingly, the opening cross section is reduced, the farther the conical sealing plug 27 in the outlet channel 7 is involved.

7 shows an inventively constructed device of a third embodiment.

At the in 7 illustrated embodiment is the vibration exciter 11 with the wand 29 the closure device 27 connected. This will be the vibration of the exciter 11 generated vibration to the rod 29 transfer. The direction of the oscillation is with the double arrow 33 shown. The direction of vibration is thus perpendicular to the axial direction of the rod 29 , The rod 29 thus moves radially to the outlet channel 7 , About the staff 29 the vibration is up to the stopper 27 transfer. So the staff 29 and the stopper 27 relative to the outlet channel 7 move and so the powder bridges, which may be in the exhaust duct 7 form, be destroyed, is the exhaust duct with a bracket 35 fixed. The connection of the rod 29 with the vibration exciter 11 done via the staff 17 and the eyelet 19 , This connection is enlarged in 8th shown. So the staff 29 free of play with the eyelet 19 is connected, the eyelet is preferably on the rod 29 pressed. This ensures that the amplitude with which the rod 29 is swinging, the same is over the bar 17 from the vibration generator 11 to the staff 29 is transmitted.

The holder of the outlet channel 7 is in an enlarged form in 9 shown. The outlet channel 7 is this in a ring eyelet 37 held. However, it is also any other known in the art attachment of the outlet channel 7 possible. The attachment is to be carried out in each case such that a movement of the outlet channel 7 is suppressed, so that the rod 29 and the stopper 27 relative to the outlet channel 7 move.

10 shows an inventive device of a fourth embodiment. Unlike the in 7 embodiment shown is in the in 10 illustrated embodiment of the vibration exciter 11 so attached that the rod 29 the closure device 25 oscillates in the axial direction. This is the vibration exciter 11 aligned so that the from the vibration exciter 11 generated vibrations parallel to the rod 29 be generated. The rod 17 with which the vibrations from the vibrator 11 to the staff 29 to be transmitted is also parallel to the rod 29 arranged. The connection of the rod 17 with the wand 29 takes place as in the other embodiments preferably also via the eyelet 19 ,

In addition to the connection of the rod shown in the figures 17 with the wand 29 by means of the eyelet 19 it is also possible the staff 17 with the wand 29 by any other non-positive or positive connection known to those skilled in the art. So can the staff 17 and the staff 29 for example, by means of a welded joint or an adhesive bond to each other. Furthermore, it is also possible on the staff 17 or at the bar 29 to form a thread on which the other rod 17 . 29 is screwed on.

Also the connection of the rod 17 or the bent rod 23 with the outlet channel 7 can instead of the connection with the eyelet 19 by any other known to the expert compound. Again, almost all positive or positive connections are suitable. So can the staff 17 or the bent rod 23 with the outlet channel 7 For example, be attached by welding, gluing, soldering or screwing together.

When connecting the rod 17 or the curved bar 23 with the wand 29 or the outlet channel 7 just make sure that the connection is backlash-free, so that the vibration exciter 11 generated vibration with its full amplitude to the rod 29 or the outlet channel 7 is transmitted.

The material from which the storage vessel 3 is made, can be freely selected depending on the powder. It is only necessary to pay attention that the material of the storage vessel 3 is inert to the powder. Also, make sure that the storage vessel 3 is not damaged by the powder. Preferred material for the storage vessel 3 is hard plastic. The storage vessel 3 However, it can also be made of any metal, glass or ceramic. As material for the outlet channel 3 Preferably, a material is selected, which can be acted upon by vibrations and which transmits the vibrations. This is preferably an elastically deformable material. When using a brittle material for the outlet channel 7 There is a risk that this breaks when acted upon by the vibrations.

In addition to the embodiments shown here, in which either the outlet channel 7 or the staff 29 the closure device 25 with the vibrational exciter 11 it is also possible to use the rod 29 and the outlet channel 7 to connect with a vibration exciter. In this embodiment, it is preferable if the amplitudes and / or the frequencies with which the outlet channel 7 or the staff 29 to be vibrated.

Claims (12)

Device for metering powder ( 5 ) with a storage vessel ( 3 ), wherein the storage vessel ( 3 ) an outlet channel ( 7 ) over which the powder ( 5 ) a collecting device ( 9 ), characterized in that the storage vessel ( 3 ) with a vibration exciter ( 11 ), wherein at least a part of the storage vessel ( 3 ) with vibrations caused by the vibration exciter ( 11 ) is applied, is applied. Apparatus according to claim 1, characterized in that the vibration generator ( 11 ) generates a square wave. Apparatus according to claim 1, characterized in that the vibration generator ( 11 ) generates a triangular wave. Device according to one of claims 1 to 3, characterized in that the vibration exciter ( 11 ) is designed so that the amplitude generated by the vibration exciter ( 11 ) is less than 150 microns and the frequency is greater than 300 Hz. Device according to one of claims 1 to 3, characterized in that the vibration exciter ( 11 ) a piezo element ( 13 ). Device according to one of claims 1 to 5, characterized in that the vibration generator ( 11 ) with the outlet channel ( 7 ), so that the outlet channel ( 7 ) with the vibration exciter ( 11 ) applied vibration is applied. Device according to one of claims 1 to 6, characterized in that the storage vessel ( 3 ) a closure device ( 25 ), with which the outlet channel ( 7 ) is closable. Apparatus according to claim 7, characterized in that the closure device ( 25 ) so with the vibration exciter ( 11 ), that the closure device ( 25 ) by the vibration exciter ( 11 ) is vibrated. Apparatus according to claim 8, characterized in that the closure device ( 25 ) a conical sealing plug ( 27 ) caused by the vibration exciter ( 11 ) is vibrated. Apparatus according to claim 9, characterized in that the sealing plug ( 27 ) is vibrated so that this in the axial direction, based on the outlet channel ( 7 ), swing. Apparatus according to claim 9, characterized in that the sealing plug ( 27 ) is vibrated so that this in the radial direction, based on the outlet channel ( 7 ), swing. Device according to one of claims 1 to 11, characterized in that the collecting device ( 9 ) with a balance ( 15 ) connected is.