DE1241741B - Device for continuously measuring the tobacco content in a continuous tobacco rod - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. CL:

A24c

German class: 79 b - 13/10

Number: 1 241 741

File number: H 57626 HI / 79 b

Filing date: November 9, 1965

Open date: June 1, 1967

The invention relates to a device for continuously measuring the tobacco content in a continuous Tobacco rod by absorption measurement on the tobacco rod crossed penetrating measuring beams, with a diaphragm on the circumference of the tobacco rod, the passage of which is one in the tobacco rod axis Lying cross-sectional plane leaves free, with a surface radiator on one side of the aperture and with a radiation intensity meter on the other side of the aperture.

In the manufacture of tobacco articles such as cigarettes, cigars, cheroots and the like, the first step is a continuous tobacco rod is produced, from which the tobacco articles are then separated as rod sections will. Very high demands are placed on the uniformity of the tobacco content in the tobacco rod posed. For this reason, the continuous tobacco rod is used in devices of the type mentioned at the beginning by radiation absorption continuously to its tobacco content in the unit of length or in Cross-section measured.

In a strand cigarette machine known from German Auslegeschrift 1119 159 is closed For this purpose, a strontium 90 preparation is arranged next to the path of the tobacco rod and opposite it an ionization chamber. The beta radiation then penetrates the tobacco rod perpendicular to the tobacco rod axis, and the intensity of the radiation component incident into the ionization chamber is a measure for the tobacco content in the measured tobacco section. If the radiation source is punctiform or of a very small area in relation to the cross-sectional area of the to be measured Tobacco rod is, then some measuring beams penetrate the tobacco rod cross-section secantally, they So they only cover a short distance in the tobacco rod. Other measuring beams cover a longer distance back in the tobacco rod. Districts of particularly dense or particularly thin tobacco content in the area those rays that only cover a short distance in the tobacco rod lead to one more intense measurement display than areas of the same type, which are measured by measuring beams, which the tobacco rod prevail over a longer stretch of the path, e.g. on the diameter.

In contrast, an absorption measuring device known from US Pat. No. 2,861,683 two measuring sections crossed in the tobacco rod, each with a radiation source and a radiation intensity meter intended. A special electrical device is used for each of these two measuring sections for the conversion of the measurement results upstream device for the continuous measurement of the tobacco content in a continuous tobacco rod

Applicant: -

Hauni-Werke Körber & Co, KG,
Hamburg-Bergedorf, Kampchaussee 14-18

Named as inventor:

Julius Hellmann, Hamburg;

Dieter Wellach, Hamburg-Lohbrügge

seen, and this is followed by a common electrical device in which the measurement results of the two measuring sections can be integrated. In this way the difficulties described are reduced, because they can only have a full effect on the measurement of one measuring section.

In this known device, the radiation sources are on one side of the tobacco rod and the radiation intensity meters on the other hand. As a radiation source in this device two surface emitters provided, which are flat. Since the tobacco rod has a round cross-section, can Arrange and has a flat surface radiator only parallel to a tangential plane of the tobacco rod therefore, in its individual districts, the distance to the circumference of the tobacco rod varies. If If there are not very many planar radiators, which is usually not possible for reasons of cost, then the Tobacco rod when using flat surface emitters in the cross-sectional plane unevenly of measuring beams interspersed.

The object of the invention is to provide a device of the type mentioned at the beginning in order to increase the measurement accuracy Kind to the effect that the tobacco rod is as uniform as possible from measuring beams is enforced.

The invention is characterized in that the surface radiator extends over a sector of the circumference of the tobacco rod extending coaxially to this and is arranged close to this.

The coaxial arrangement of the surface radiator to the tobacco rod circumference ensures that the surface heater is the same in all of its regions

709 588/119

Distance from the circumference of the tobacco rod, so that the measuring beams from all regions of the surface emitter are directed in the same way on the tobacco rod circumference. By the provided according to the invention Dense arrangement of the surface radiator on the tobacco rod circumference is avoided that on the way Scattered rays can branch off between the surface radiator and the circumference of the tobacco rod, which then stray and thus also impair the desired uniform measuring beam throughput would.

In the interest of the most intensive possible crossing of the measuring beams penetrating the tobacco rod the surface radiator extends over more than one circumferential quadrant. In the simplest case, you go for the surface radiator of rectangular shape, so that the surface radiator over the entire circumference extends over the same length of tobacco rod.

The diaphragm preferably extends in a mirror symmetry plane of the tobacco rod, so that to the left and right of the diaphragm each half of the tobacco rod cross-section is located. For the surface heater then almost half the circumference of the tobacco rod is available. If the surface heater does not extend over the entire free peripheral part, then it is advisable to center it on the to arrange one side of the diaphragm tobacco rod circumference half, then the diaphragm is perpendicular to the optical axis of the measuring beams.

A particularly simple, preferred embodiment of a device according to the invention is characterized by a radiator support with a continuous, open channel of semicircular shape Cross-section that is designed with the surface radiator and is coaxial with a tube for the tobacco rod to this channel between the aperture. In such a case, the radiator carrier is expedient the side facing the tube. If the screen is then on the one facing the radiator carrier If the side is also flat, the radiator carrier can rest against the panel and be attached there as well. Of the The space in which the radiator is housed is then on one side through the radiator support and can be shielded on the other side by the diaphragm and the tube. The aperture has in the area of the Emitter appropriately decreasing strength towards the tube; because in the area of the tube there is a slight Thickness of the diaphragm desirable so that an accurate glare effect can be achieved there, and in the areas away from the tube, a greater strength is desirable, on the one hand, in order to provide sufficient stability achieve and on the other hand, to create space there for fastening means of the specimen carrier. The tube and the screen can then be attached to a spotlight holder, e.g. in the area the strong parts of the screen the radiator carrier can be screwed on.

The invention will now be explained in more detail with reference to the drawing. In the drawing shows

F i g. 1 shows an embodiment according to the invention in cross section,

F i g. 2 the view according to the arrows H-II from Fig.l,

F i g. 3 the radiator carrier from FIG. 1 seen alone in the direction of arrows H-II.

In the drawing, 201 denotes a radiator holder made of metal, which has a cuboid recess 202 on one side and a rectangular recess 203 on the opposite side, the cross section of which, as shown in FIG. 1 can be seen, is a segment of a circle. In addition, the radiator holder 201 has a continuous, round channel 204 perpendicular to the plane of the drawing in FIG. 1, through which the two recesses 202 and 203 come into connection with one another. The two recesses 202 and 203 are otherwise

ίο separated from one another by two diaphragm parts 205, 206, which form the diaphragm, which are directed towards the channel 204 and, due to the cross-sectional shape of the recess 203 , have decreasing thickness towards the channel 204.

A tube 207 , which forms a guide for the tobacco rod 208, is inserted into the channel 204. The two diaphragm parts 205, 206 rest with their free edges on the outside of the tube 207 . The tube 207 protrudes with exactly half of its cross section into the

»Ο recess 202.

A cuboid radiator carrier 210 is inserted into the recess 202, which is flat on the side facing the tube 207 and there has a channel 211 coaxial with the tube, the semicircular cross-section with a slightly larger radius than the circumference of the tube, so that there is space there for a strontium 90 preparation 212. The strontium 90 preparation is, as also from FIG. 3 seen from visible rectangular areal form, and as shown in FIG. 1, a circular arc shape and bent centrally in the space between the radiator support 210 and the tube 207 arranged. It extends there over two circumferential quadrants of the tube 207, namely coaxially to this.

The radiator carrier lies with its flat stop surface 213; A radiation intensity meter 217, which is directed at the strontium-90 preparation, is arranged on the likewise flat rear surface 214 of the diaphragm parts 205, 206.

Claims (5)

Patent claims: 1. Device for continuously measuring the tobacco content in a continuous tobacco rod by measuring the absorption of the tobacco rod crossed penetrating measuring beams, with a diaphragm on the circumference of the tobacco rod, the passage of which is located in the tobacco rod axis Leaves cross-sectional plane free, with a surface radiator on one side of the diaphragm and with a radiation intensity meter on the other side of the diaphragm, characterized in that that the surface radiator (212) extends over a sector of the circumference of the tobacco rod is arranged coaxially to this and close to it. 2. Apparatus according to claim 1, characterized in that the surface radiator (212) is extends over more than one circumferential quadrant. 3. Apparatus according to claim 1 or 2, characterized in that the surface radiator (212) extends over the entire sector in a rectangular shape over the same length of tobacco rod. 4. Device according to one or more of the preceding claims, characterized by a radiator carrier (210) with a continuous, open channel (211) of semicircular shape Cross-section designed with the surface radiator (212) and through a tube (207) for the tobacco rod (208) coaxial to this channel (211) between the diaphragm (205, 206). 5. Apparatus according to claim 4, characterized in that the diaphragm (205, 206) in the area of the surface radiator (212) to the tube (207) has decreasing thickness. Documents considered: German Auslegeschrift No. 1119159; U.S. Patent No. 2,861,683. 1 sheet of drawings 709 588/119 5.67 & Bundesdruckerei Berlin