SU858774A1 - Apparatus for reflexometry - Google Patents

Description

The drawing shows a block diagram of a device for reflexometry. The device contains a hammer with a built-in electrical contact pair (not shown). In the case of an insulator, a series of sources in the form of lamps 1 and photosensors 2 are fixed directly opposite each other. The arrangement of light bulbs and photosensors in two or more rows with mutual displacement (for example, in staggered order) makes it possible to increase the accuracy of the device. The distance from the light bulbs to the photosensors is such that between them a flap 3 can be moved in the shape of a narrow plastic plate. In the closed position, the flap should cover all photo sensors. The flap is provided with a strap 4 for attachment to the foot (lower leg, forearm) of the subject and is set in advance on the risk borne by her at the edge of the first photo sensor. Each intermediate photo sensor is connected to the first input of the trigger 5. At the output of the triggers 5, the indicator lights are connected in the form of lamps 6. Moreover, the device includes a number of channels that have, in addition to the above mentioned lamps 1, photo sensor 2 and trigger 5, delay element 7, circuit 8, connected in series, as well as the scheme 9 and the scheme OR 10. In addition, the device includes two chains having series-connected delay elements 11 and 12, triggers 13 and 14, circuit 15 and 1, and an indicator in the form of t & 17 and 18. The input of the first chain is connected to the photo sensor 2 medium, and the second through the scheme is NOT 19. In addition, the device contains a trigger 20, the circuit 21, the indicator 22 of the latent period of the motor reaction and the generator 23 of pulses. The output of the trigger 5 is connected to the delay element 7 and the NOT element 9. The delay element 7 is connected to the first input of the AND element 8. The second input of the AND element 8 is connected to the output of the HE element 9, which is related to the next sensor in the direction of travel, photo. There is no element in the circuits of the first photo sensor. There is no element I in the circuits of the last photo sensor. The outputs of all elements AND 8 are connected to the input of the element OR 10. The output of the element OR is connected to the second input of the trigger 13 for enabling the board 17 and for the first input of the trigger 14 for the board 4. 18. The first photo sensor is connected to the second input of the trigger 20 through the delay element 11 and the first input of the trigger 13 of the enable circuit of the board 17 through the HE element 19 and the delay element 12 with the second input of the trigger 14 of the board enable resolution 18. n with contact in the hammer striker. The output of each trigger 13, 14 and 20 is connected to the second input of its element And 15, 16 and 21. The first input of each element And is connected to the generator 23 pulses. The outputs of the elements And are connected respectively with their own scoreboard. The device works as follows. The flap 3 with a strap 4 is firmly attached to the foot (tibia, forearm). Apply a blow with a hammer on the Achilles tendon (the quadriceps muscle of the thigh, the triceps or the two muscles of the shoulder). Upon impact, the contacts in the hammer head are closed. The flip-flop 20 tilts and opens element I 21 to pass the pulses of the generator 23 on the display of the indicator 22. The start (tibia, forearm) starts to move along with the flap 3, which overlaps the photosensors. The first photo sensor overturns the trigger 20 and thereby stops the passage of the pulses of the generator 23 on the board where the latent excitation time is recorded. The same first photo sensor, through the time delay element 11, flips the trigger 13 and opens the AND element 21 for passing the pulses of the generator 23 on the board. The valve, having advanced for a certain distance, with the knowledge of the foot (shin, forearm), will begin the reverse movement. Each blocked photo sensor overturns its trigger 5. At the same time, the lamp b lights up on the amplitude panel. The number of lit bulbs 6 scoreboard corresponds to the amplitude of the reflex. The trigger 5 in the circuit of the intermediate photo sensor acts on the element 9 and the element 7 of the delay. The delay element 7 acts on the element 6. The element NOT 9 acts on the element 8, referring to the previous one in the direction of movement of the flap of the photosensor. Element and 8, referring to the last blocked photo sensor, the OR element 10, common to all photo sensors, overturns trigger 13 and thereby stops the passage of generator pulses 23 on board 17, where the shortening time is fixed. At the same time, element 10 OR overturns trigger 14 and generator 18 pulses start to appear on board 18. The valve, returning to its original position, opens the first photo sensor, which through the element NOT 19, the delay element 12 overturns the trigger 14 and thereby stops the passage of the generator pulses on the display 18, where the relaxation time will be fixed. To re-operate the device, it should be reset to its original position by resetting all the boards and setting all the triggers 5 in O to the second input. As indicators of the scoreboard

use digital lamps with known control circuits according to the ring principle.

The use of a number of photosensors, a combined control circuit of the time reference channels and a discrete-amplitude measurement circuit allows measuring the latent excitation time, shortening time, relaxation time and amplitude of the tendon reflexes.

As a result, the accuracy of diagnostics of a number of diseases improves, the possibility of using tendon reflexes in the physiology of labor, sports and space medicine is expanded.

Claims (3)

1. A device for reflexometry containing a hammer with a built-in electrical contact pair connected to the first input of the trigger, a light source, a photo sensor connected to the second input of the trigger, a pulse generator and an indicator of the latent motor reaction period, characterized in that time shortening and relaxation in the study of tendon reflexes, it introduced two chains with sequentially connected delay element, trigger, AND circuit and indicator, input the first chain is connected to the photosensor directly, and the second through the additional NOT scheme, the device also includes a series of channels having a light source, a photo sensor, a trigger, a delay element, an AND circuit connected in series, a NOT circuit, an OR circuit, the trigger input of the first channel is combined with the inputs of the strings, the trigger outputs of the remaining channels are NOT connected to the second inputs of the AND circuits whose outputs are connected to the OR circuit, the output of the delay line of the last channel is directly connected to the OR circuit, you od which are connected to second inputs of the two flip-flops chains, second inputs of AND circuits being connected to the pulse generator. 2. The device according to p. 1, that is, that, in order to measure the amplitude of the tendon reflexes, light indicators are connected to the outputs of the flip-flops of all channels. 3. The device according to claim 1, characterized in that it has a shutter intended to be installed on the test area. Information sources. 0 taken into account in the examination 1. USSR author's certificate number 195038, cl. A 61 B 5/16, 1967.