DE2034429A1 - Sedimentation meter - Google Patents

Description

Applicant: Leipzig, July 7th “1970

VEB Kombinat Medicine and

Laboratory technology Leipzig

7035 Leipzig, Franz-Flemming-Str, 43-45

Authorized representative.

Patent engineer Herbert Eathke and patent engineer EoIf Weigel both im VEB Kombinat Medical and Laboratory Technology 7035 Leipzig, Franz-Flemming-Straße 43-45

Blood sedimentation meter

The invention relates to a blood sedimentation measuring device with exchangeable Capillary tubes as used to determine the rate of sedimentation.

The devices known to date consist only of a capillary tube carrier and a capillary tube placed on top, which is provided with a centimeter graduation. After a blood sample has been introduced into the capillary tube up to a specified height, the dropping distance of the blood level is monitored over time. A partial statement about the state of health of the respective patient can then be derived from the determined values.

109809/1349

However, these previously known devices have the! Jachteil, that the measured values must be obtained by subjective timing and reading, and that the measurement results do not show continuous curves, but only individual measuring points of a curve. These measured values justify no clear statement about the course of the curve. In addition, during the entire period of the Blood sedimentation will be available to a nurse. In addition, there is another major disadvantage that the measurement results not be included as a pre-recorded medical history chart for later use can.

The purpose of the invention is to establish an objective Blood sedimentation curve without losing it during the whole A nurse or assistant required and that the curve can be included in the medical history as a permanent document

The invention is based on the object of a blood sedimentation measuring device to create the semi-automatic is eti works and objective, directly readable curves of the sedimentation rate supplies.

According to the invention the object is achieved in that an axially slidable towards the capillary tube, dl ©

109809/1349

Capillary tube receiving capillary tube carrier with an energy store, a control gear, a control magnet provided with a locking part, a light source, a photocell and a registration device is combined, the registration device driven by a clockwork and a pen belonging to the registration device is hinged to the capillary tube support which at the same time engages an energy storage device attached to the housing of the measuring device at one end. The energy store can be a pulling or pushing element. In addition, with the capillary tube carrier an on or Control gear arranged in the housing of the device via one or more belonging to the control gear Gear parts, e.g. B. a control rope, while the light source and the control magnet influencing Photocell, opposite each other around the capillary tube and adjustable in the axial direction of this tube, are arranged. The locking part only engages in one direction of movement of the capillary tubes in an inhibiting manner a ratchet wheel.

The solution according to the invention has the advantages that it works objectively, and no significant personnel expenditure requires and storable, unambiguous, one continuous Supplies curve-forming measured values.

10.9809 / 1340

On the basis of a drawing, an embodiment is intended to Explain the invention in more detail. The drawing shows the sedimentation measuring device in the starting position with the front panel removed.

The housing 4 of the blood sedimentation measuring device provided on its rear wall 1 with the guide 2 for the capillary tube carrier 3 is closed by the cover plate 6 containing the opening 5. On the capillary tube carrier 3, the pen 7 'of the drawing device 9 driven by the earpiece 8 is articulated. In addition, at one end of the capillary tube carrier 3, which receives the capillary tube 10, the force storage device 11, which consists of a tension spring and is fastened to the rear wall 1 with its second end, is articulated. On the Kapillarröhrenträger 3 About the Rillensoheiben 12 \ 13 of the control mechanism 14 managed, also belonging to the control mechanism 14 control cable 15 attached "Together with the pulley 12 on the axis 16 of the locking wheel

17 arranged. The locking part 19 influenced by the control magnet 18 is located in a plane with the axis 16. To the side of the capillary tube 10, the light source 20 and the one with the control magnet are opposite one another

18 coupled photocell 21 locked. The high source is connected to a commercially available battery 22.

10980 9/1349

The blood sedimentation measuring device works as follows: After the blood sample has been entered into the capillary tube 10, it is attached to the capillary tube carrier 3. Then the light source 20 lying in a circuit with the battery 22 is switched on via the switch 23. At the same time, the lock of the clockwork 8 driving the recording device is released, so that the recording drum begins to rotate. The light beam emerging from the light source 20 in the direction of the photocell 21 is first interrupted by the column of blood in the capillary tube 10. it greif't in the ratchet wheel and thus holds the control mechanism 14 and thus the Kapillarröhrenträger 3 einsohließlioh capillary tube 10 in a standstill · When lowering of the blood column, the capillary tube 10 enters the! beam unimpeded duroh in the photocell and causes energization of the control magnet 18, the * pulls back the locking part 19 loaded with the spring 24. Thus, the control gear 14 is released · The envisaged in the form of a tension spring force accumulator 11 pulls the Kapillarröhrenträger 3 and sitting on capillary tube 10 upward until the light beam duroh the tube with the KapüLar- 10 raised blood levels is interrupted. As soon as the light beam no longer acts on the photocell 21,

1 09809/1340

Q)

the tensile force of the control magnet 18 is interrupted. The spring 24 pulls the locking part 19 into the rest position and _: thus blocks the ratchet wheel 17 and the control gear again? ,, drove 14. The capillary tube carrier 3 is thus held in its position until the blood level in the capillary tube 10 has dropped again a little. s The writing drum 25 of the registration device 9 rotates independently of this process in one direction of rotation.

w If the capillary tube carrier 3 is stationary, a horizontal curve is recorded on the recording strip 26 of the visualizing drum 25 rising curve on the registration strip 26. Of course, it is possible to use a compression spring or a rubber band as the energy storage device 11 instead of the tension spring.

ι use tape.

Likewise, instead of the described control gear 14 with control cable 15, a control gear with drive wheels _$ racks or other known gear elements can be used.

Instead of the battery, a mains connection or both can be provided in combination.

QRIOW 41

Claims (13)

Claims '' 1.1 Blood sedimentation measuring device with exchangeable capillary tube, characterized by the combination of an axial to the capillary tube axis displaceable, capillary tube (10) receiving capillary tube carrier (3), with an energy storage device (11), a control gear (14) with ratchet wheel (17) i a control magnet (18) with locking part (19) »a light source (20), a photocell (21) and a registration device (9). 2. Blood sedimentation measuring device according to claim 1, characterized in that the registration device (9) is driven by a clockwork is. 3. Blood sedimentation measuring device according to claim 1 and 2, characterized in that that the pen (7) of the registration device (9) is hinged to the capillary tube carrier (3). 4. Blood sedimentation measuring device according to claim 1, characterized in that that the energy storage device (11) has one end on the capillary tube support (3) and with the other end attached to the housing (4). 5. Blood sedimentation measuring device naoh claim 1 and 4, characterized in that that the energy store (11) is a pulling element. 109809/13 49 6. blood subsidence measuring device according to claim 1 and 4s characterized that the energy store (11) is a pressure element. 7. Blood sedimentation measuring device according to claim 1, "characterized in that that the control gear (14) is attached to or in the housing (4). 8. Blood sedimentation measuring device according to claim 1, characterized in that that the control gear (14) through one or more gear parts with the capillary tube carrier (3) connected is. 9. Blood sedimentation measuring device according to claim 1, characterized in that that the capillary tube carrier (3) is hinged to the control cable (15) of the control gear (14). 10t blood sedimentation measuring device according to claim 1, characterized in that that the light source (20) and the "photocell (21) each other are arranged opposite around the capillary tube (10). 11. Blood sedimentation measuring device according to claim 1 and 10, characterized in that that the photocell (21) influences the control magnet (18). 10 9 8 09/1349 12. Blutsenkungsraeßgerat naoh claim 1, 10 and 11, there- , characterized in that light source (20) and photocell (21) are adjustable in the direction of the axis of the capillary tube. 13. Blood subsidence measuring device according to claim 1 and 11, characterized characterized in that the locking part (19) only in one direction of movement of the capillary tube (10) in the locking wheel (17) intervenes.