NL9201147A - DOSING DEVICE AND DOSING METHOD. - Google Patents

Description

Title: Doser and dosing method.

The invention relates to a dosing device with which, optionally, a large number of different substances can deliver one or a few of those substances to an object. More particularly, although not exclusively, the invention relates to a metering device for optionally applying substances to a patch for dermatological or contact allergy testing. The invention also relates to a dosing method.

To determine which substances a patient is allergic to, the application of various substances to the patient's skin often takes place, and the skin reaction to one or more of those substances is awaited. Nowadays, a special plaster, the size of, for example, a hand, is provided with these substances in separate areas and then glued to the patient's skin with the side on which those substances are applied, usually the back. A plaster of this type is known, for example, from Dutch patent application 9001667, also in the name of. applicant. This patch contains ten separate areas in two parallel rows of five into which ten different test substances can be placed.

A skin doctor has about three hundred substances from which can be selected to determine the substance or group of substances to which a patient is allergic. These substances are, as is customary in laboratories, stored separately in plastic syringes of, for example, 5 ml each, and in series of twenty containers with different substances collected in a tray, which trays must be taken several times daily by an assistant from a refrigerator, for preparing the patches. This preparation of the patches is done entirely manually, with the assistant, seated at a table, selecting ten of each from the various trays with containers filled with the approximately three hundred different substances and applying them to the corresponding areas on the patch. A list keeps track of which substance has been applied to the patch in which place. Also, replacement of the individual syringes is necessary from time to time, and it will be appreciated that this is quite time consuming. Furthermore, in addition to preparing the plasters, the administration also takes place completely manually, with a correspondingly high risk of making mistakes.

The object of the invention is to provide a dosing device with which it is possible, for example, to prepare plasters for allergic tests. With such an apparatus, manual work can be eliminated as much as possible, so that patches can be prepared more cost-effectively and errors, both in the preparation of the patch and in the administration of the data, can be minimized.

According to the invention there is provided for this purpose a dosing device comprising a large number of containers with different substances, from which containers can optionally be delivered substance to an object to be connected to the device, such as a patch for dermatological tests, the containers each having a dispensing opening with the aid of which a substance can be applied to the object from a holder, and wherein the holders and the object are mutually movable to optionally position the dispensing opening of a holder relative to that object. In this way, the selection and delivery of the substances can take place fully automatically, with a minimum of errors and with minimal intervention of an "expensive" assistant. Since the container with the substance to be dispensed is movable relative to the object with the dosing device, the device can be designed efficiently so that it can be rendered insensitive to interference. Because the device can both be selected and dosed, it is possible, with the aid of a microprocessor, to determine the remaining stock of dust in each container, so that the refilling of a container can be greatly facilitated. For example, a warning signal is issued by means of the microprocessor when a container is almost empty, while at the same time it is indicated to which container the warning signal relates and where that container is located.

According to an embodiment of the invention, with the dosing device, the container with the selected substance is brought into the dispensing position, after which the assistant controls the dispensing of that substance. For example, the assistant sucks up a little dust from the relevant container with a pipette. Preferably, the dosing device performs fully automatically both the bringing into the dispensing position of the container and the dispensing itself. However, most of the errors are already eliminated with a device that brings a container with the selected substance into the dispensing position and the administration of the data about the prepared patches can already take place fully automatically. When the dosing device also performs the dispensing of the substance, the dosing can take place very accurately, the monitoring of the preparation of a plaster is best guaranteed, as well as the monitoring of the remaining amount of substance in each container, in addition to a considerable cost saving on personnel.

In the following, the invention will be further elucidated on the basis of a non-limiting exemplary embodiment, taken in conjunction with the attached drawings. Thereby shows:

Fig. 1 is a schematic perspective view of a dosing device according to the present invention;

Fig. 2 is a partially broken away cross-sectional view of the dosing apparatus of FIG. 1 taken along line II-II;

Fig. 3 is a perspective view of a detail of the dosing device of FIG. 1.

Referring to Figures 1 and 2, an apparatus 1 according to the present invention is shown. It comprises an annular body 2 in which the containers 3 'and the various materials are placed (in Fig. 1 the tops of the containers are only shown in a limited area and are shown very schematically). The holders 3 are arranged in the annular body 2 in five concentric rings. As can be seen in Fig. 1, the holders 3 of the different rings are aligned in radial direction. The annular body 2 is rotatable about its center. For the drive in rotation of the annular body 2, a circumferential toothing 4 is arranged on the outside thereof. A driving gear 5 engages (fig. 2), which is housed in the central control housing 6 in a manner which is not shown, and which is coupled to an electric stepper motor (not shown). Also shown in Fig. 2 is how the annular body 2 is rotatably supported by a roller 7. Three of these are provided, each of which is arranged at an angle of 120 ° distributed over the circumference of the annular body 2. Due to the inclined position of the roller 7, the shape of the chamber 8 in the annular body 2 into which this roller 7 projects and the edge 9 projecting in the chamber 8, an accurate roller guidance for the annular body 2 is achieved. A confinement of the roller 7i and thus of the ring 2 is also realized with the edge 9, whereby the ring 2 is fixed in the axial direction. The edge 9 protruding from the side wall of the chamber 8 is interrupted in three places along the circumference of the annular body, each displaced mutually 120 "along the circumference. Fig. 2 shows the position of the annular body.

such an interruption in the projecting edge 9 being exactly at each roller 7. In that position, the roller 7 cannot prevent the annular body 2 from being taken out of the device 1 in its axial direction.

The device 1 further comprises a console 11. This comprises the movable support plate 12 for a plaster 131 to be prepared as well as the dosing means 14. The construction and operation of the support plate 12 will be further elucidated with reference to Fig. 3. see in Fig. 1, the dosing means 14 are radially aligned and for each ring of containers 3 there is one dosing means. Furthermore, the dosing means 14 are mounted on a bridge 15, which partly covers the annular body 2 in the position of use of the dosing device 1. As can be seen in Fig. 2, this bridge 15. together with the dosing means 14 can be folded up around hinge 16 from the lowered position shown in solid lines, in which the dosing device 1 is ready for use, to a position shown by dashed lines (partial view ).

By rotating the annular body 2, a container 3 can optionally be placed in each concentric ring below the corresponding dosing medium 14, after which the substance can be delivered from such a container 3 to the plaster 13.

As can be seen in Fig. 1, the plaster 13 contains two columns of five dispensing locations 18 each, where a substance can be applied from a container 3. Since the plaster 13 is movable in radial direction with respect to the annular body 2, as well as the dosing means 14, while the plaster 13 can also be moved laterally (as it were tangentially) with respect to the row of dosing means 14, each of the ten individual places are optionally placed under one of the five dosing means 14, so that in such a place any desired substance can be applied from the holders 3 into the annular body 2.

Fig. 2 shows in more detail the operation of the dosing device 1 during dosing. As can be seen, each container has an elongated cylindrical shape. Each container 3 is received in a bore in the annular body 2. The lower end of each container 3 seen in the drawing has an extension 17 with a reduced diameter. The open end thereof forms the dispensing opening of the holder 3. The end is slightly chamfered to prevent dust from the holder 3 from sticking to the extension 17. This substance is usually mixed in petroleum jelly and is therefore liquefied. The containers 3 under the dosing means 14a, d and e are shown in the retracted position. In that position, the free end of the extension 17 is well spaced from the patch 13, which is shown in solid lines in Figure 2 in a position in which each of the dispensing locations 18 (Figures 1; 3) is directly below brought a holder 3. In the drawing to the left and right, the left and right respectively are schematically shown. right edge of the patch with dashed lines shown as two alternative extreme positions. In the far left position in the drawing, the most right-hand dispensing location 18 will lie under the dosing means 14a. In the most right-hand position of the plaster 13 in the drawing, the most left-hand dispensing location 18 will be located below the dosing means 14e. Thus, each dispensing location 18 can be placed in a row under each dosing means 14a, and thus under each holder 3.

In the annular body 2, each container 3 with the neck of the extension 17 as transition to the extension 17 rests on a support 19, which is held up and down in the annular body. A spring 21 resting on a base plate 22 presses the support member 19 upwardly against a stop in the bore for each holder 3 · The extension 17 extends through the support member 19, the spring 21 and the retaining plate 22. The retaining plate 22 is from below screwed to the annular body 2. In the area below the dosing means 14a to 14e, the retaining plate 22 rests on a support 20 of the dosing device 1, in order to eliminate any deflection of the retaining plate 22 and thus any inaccuracy during dosing. The support 20 spans the plaster 13 in such a way that it is not hindered moving sideways, and rests on the device 1 on both sides, as shown. With the spring 21, the container 3 is forced to the position where the extension 17 is retracted relative to the patch 13. The containers 3 can be brought into an extended position, with the extension 17 close to the patch 13 to dust off it. as shown with the containers located below the dosing means 14b and 14c in Fig. 2. This protrusion of the container 3 and the subsequent dosing is illustrated with reference to the dosing means 14a to c. The dosing means 14a shows its retracted position. Visible are a hydraulic or pneumatic drive cylinder 23 under which protrudes from the piston rod 24. This drive cylinder can optionally be replaced by, for example, an electric screw-spindle drive. Around the end of said piston rod 24 a cup-shaped pressing member 25 · This pressing member 25, where the piston rod 24 protrudes through a hole in the center of the body 25 thereof, is held enclosed between the widened stamp end 26 of the piston rod 24 and a spring 27 Punch 26 and spring 27 thereby act on the body of the cup-shaped pressing member 25. In the retracted position, as shown with the dosing means 14a, the cup-shaped pressing member 25 is opposed to the action of the spring 27 by the punch end 26 of the piston rod 24 with its edge forced against a stop in the bore in the bridge 15. When the piston rod 24 is extended, under the action of the spring 27, the cup-shaped pressing member 25 will forcibly move along with the punch end 26 of the piston rod 24 and come into contact with the widened upper edge of a holder 3 · As the piston rod 24 extends, it pushes the cup-shaped pressing member 25 under the action of spring 27, the holder 3 protrudes against the action of the (slack) spring 21, in the position with the narrowed extension 17 (as with the dosing means 14b and 14c). In that position the holder 3 with the thickening at the top edge thereof rests on a stop of the annular body 2. While the piston rod 24 is extended further, the cup-shaped pressing member 25 remains stationary. Then the stamp end 26 comes into contact with a piston 28 located in the holder 3 and dust is expelled from the holder 3 while the piston rod 24 is further extended. Dosing can be done very accurately by giving the piston rod 24 a cumulative, fixed stroke. When the piston rod is retracted, the path can be followed from the dosing means 14c, via dosing means 14b to dosing means 14a as demonstrated in dosing means 14b. During that retraction stroke of the piston rod 24, the cup-shaped pressing member 25 is carried along by the stamping end 26 against the action of the spring 27 up to the stop on the bridge. The holder 3 then springs up again. This suspension and drive of each container 3 specifically shown here prevents any contact between moving and stationary parts of the dosing device during rotation of the annular body 2, while the containers 3 can easily be exchanged separately in the annular body 2 and during the dosing the dispensing opening of the container 2 is as close as possible to the patch 13 for dosing as accurately and reliably as possible.

Fig. 3 shows in detail the control of the patch, which is only partially shown here. This patch 13 is located on a support plate 12 which is movable in different directions. To this end, the support plate 12 is rollingly supported on a base plate 29, which has an inclined extension 31. The support plate 12 can be moved in the longitudinal direction of the base plate 29 and the extension 31. For this purpose, an endless belt 32 is provided, which runs around reversing discs 33 at the beginning and end of the base plate 29. One of these reversing discs 33 is mounted on a drive shaft 31. At 35, the mobile support plate 12 is connected to the string 32. For accurately positioning the support plate 12 in steps, it has a resilient cam 36 on its underside, which can snap into a well 37, a series of which are accurately positioned on the base plate 29. The support plate 12 can furthermore be mounted on the inclined extension 31, and then assume the position as shown in Fig. 1. In that position, a plaster can be placed on the support plate 12 and positioned using positioning strips 38. Due to the inclined position of extension 31, a easy to operate assured.

Furthermore, it is possible to move the base plate 29 sideways. For this purpose, the base plate 29 is mounted on two parallel sliding bars 39, which are oriented transversely of the longitudinal direction of the base plate 29. With a piston-cylinder combination 40, the base plate 29 can thus be moved sideways back and forth over the sliding bars 39. The support plate 12 then naturally moves with it so that, if desired, one of the two columns of dispensing locations 18 on the patch 13 can be aligned with the dosing means 14. The extension 31 is stationary, so that only in one position of the base plate 29 the support plate 12 is between the extension 31 and the base plate 29 can be moved.

As can be seen in Fig. 1, the central control housing 6 is connected via a connection 42 to a microprocessor, not shown in more detail. Since the annular body 2 can only be removed from the dosing device 1 in one way, the position of the holders 3 in the dosing device 1 is unambiguously fixed. This allows the microprocessor to reliably take care of the complete control of the dosing device 1. To this end, an operator enters the data concerning the desired substances (in this case 10) into the microprocessor. Subsequently, the microprocessor controls the annular body 2 in the patch 13 such that the container with the substance in question is registered with the dosing agent associated with the respective ring of containers 3, and an (empty) dispensing location 18 on the patch 13. The microprocessor then determines fully automatically which substance has been applied to which place on the plaster, as well as the amount if, for example, it deviates from a fixed standard. This alignment and dosing process is repeated until all ten dispensing positions 18 on the patch 13 are provided with the desired substance. The support plate 12 with the patch 13 thereon is then driven onto the extension 31, ready to be taken out and then applied to a patient's skin, or stored for later use, and so on. A new patch can then be placed in that position of the support site 12.

Of course, it is also possible to register different containers successively with the same delivery point 18 on the patch 13, so that a dust mixture is eventually formed there. Other variants of the invention as described and shown here are also possible. For example, the object to be sampled may be different from a plaster. The number of places to be sampled on the object may also differ. Furthermore, of course, instead of an annular member 2, another shaped body 2 can also be used, such as a rectangular body. It is important that an apparatus is provided in which one is selected from containers arranged in a fixed pattern and then the dosing agent, that container and the delivery site are registered with each other on an object to be sampled. As such, the exemplary embodiment according to the figures will suffice with only one dosing means lk, which is movable in radial direction above the various concentric rings with holders 3 ·

Claims (21)

A dosing device comprising a plurality of containers of different substances, from which containers can be optionally delivered substance to an object to be connected to the device, such as a patch for dermatological tests, the containers each having a dispensing opening by means of which dust can be applied to the object from a holder, and wherein the holders and the object are mutually movable to optionally position the dispensing opening of a holder relative to that object. Device according to claim 1, characterized in that it contains a support for said object, wherein the position of said support is adjustable. Device as claimed in claim 1 or 2, characterized in that it is provided with at least one stationary dosing agent which can optionally be brought into engagement with a container. Apparatus according to claim 3, characterized in that the containers are arranged in two or more rows, and that one dosing agent is provided for each row. Apparatus according to claim 4, characterized in that said containers are arranged in annular concentric rows, which are rotatable jointly about the center thereof. Apparatus according to claim 4 or 5, characterized in that the dosing means are placed in a line, and that the support is adjustable in the direction transverse to that line. Device as claimed in claim 4 or 5. Optionally in combination with claim 6, characterized in that the dosing means are placed in a line, and that the support is adjustable in the direction parallel to that line. Device according to any one of the preceding claims, characterized in that the holders are easily removable therein. Device according to any one of the preceding claims, characterized in that the holders are included in a part which is easily removable. Device according to any one of the preceding claims, characterized in that the containers have an elongated, cylindrical shape, with an extension of a smaller diameter at one end thereof, which defines the dispensing opening and which is chamfered at the free end. Device as claimed in claim 10, characterized in that the holders are received in the longitudinal direction thereof and in that the holders at the end are resiliently supported with the extension and are movable from a retracted rest position against the action of a spring means active mode for delivering a substance to the object. Device according to any one of the preceding claims, characterized in that the holders comprise a body held therein which acts as a known piston. An apparatus according to claim 11 or 12, characterized in that the at least one dosing means comprises a pressing member which is movable between a position cooperating with a container and a rest position, wherein in said cooperating position the container is pressed against the action of its resilient support has been forced. Apparatus according to claim 13, characterized in that a spring means and an actuating member act on said drive member, wherein the actuating member is movable in the longitudinal direction of the holders and the pressing member against the action of the spring means from the cooperating position in the rest position to bring. Device according to claim 14, characterized in that the operating member can be inserted into a holder. Device according to any one of the preceding claims, characterized in that the containers are located between the dosing means and the support for the object, and that the dosing means are hingedly mounted, so that they can be folded away, after which the holders are freely accessible. Device according to any one of the preceding claims, characterized in that the support for the object can be brought outside the area in which the holders are located, so that a preliminary object can easily be placed thereon. Device according to any one of the preceding claims, characterized in that the support is received in an elongated base, and is movable therein in the longitudinal direction of said base, and in that said elongated base is movable transverse to the longitudinal direction thereof. Device according to claim 18, characterized in that the elongated base is extended outside the area of the containers by an extension which is immobile and inclined relative to. said base. Apparatus according to claim 18 or 19, characterized in that the support is connected to an endless flexible pulling member which runs longitudinally of the elongated base between the ends thereof and is connected to driving means for reciprocating the support . 21. A method of dispensing a substance selected from a wide variety of substances to a predetermined application site on an object using a dosing agent, each substance being in a separate container and the containers arranged in a cartridge optionally to be carried out with the device according to any one of the preceding claims, characterized in that, while maintaining the said cartridge, the container with the selected substance, the application site on the object and the dosing agent are mutually registered, after which the substance is handed in.