SU1571632A1 - Electromagnetic pulse counter - Google Patents

Abstract

The invention relates to computing and can be used in automation devices and relay technology. The purpose of the invention is to expand the field of application by separately counting positive and negative pulses. Electromagnetic pulse counter includes a housing 1 with a lid 4, on which a partition 7 with a scale of 8, a sleeve 10 with the first teeth 18 and the first arrow 11, an axis 12 with a gear 19 with the second teeth 20, a measles 15, inside which is on the axis 12 a permanent magnet 14 is mounted, and an external groove 22 is arranged to interact with the pin 31 on the outer surface. The first and second slots 16 and 17 are made on the upper and lower ends of the core 15, and the winding of the electromagnet 32 is mounted on the outer surface of the housing 1. 2 Il.

Description

ten

15

20

25

The invention relates to computing technology and can be used in automation devices and switching technology.

, The purpose of the invention is to expand the scope by separately counting positive and negative pulses.

Figure 1 shows the device, a general view; figure 2 - shaped groove. Electromagnetic impulse QOB contains a cylindrical body 1, at the base 2 of which a recess 3 is made, at the upper end of the orpus 1 is a rigidly fixed lid 4 of a cylindrical shape, on which, with a nut 5, there is an inspection wall: flowed 6, below which a partition 7 with a scale is placed 8. In the opening-9, the partition 7 is rotatably mounted the sleeve 10 with the First arrow 11. In the recess 3 And the sleeve 10 is rotatably mounted an axis 12 on which the second arrow 13 is fixed and mounted so that it rotates This magnet 14, on which is mounted the bark 15 of a cylindrical shape with the first. 16 and 17 second slots. The first teeth 18 are fixed on the sleeve 10, gear 19 with the second teeth 20 are rigidly fixed on the axis 12 below the core 15, and a spring 21 is mounted between the base 2 and the core 15. On the outer surface of the core 15 there is a shaped groove 22 consisting of identical elements 23, the number of which is a multiple of the number of the first teeth 18 of the sleeve 10 and the second teeth 20 of the gear 19. The element 23 consists of the first 24, second 25 and third 26 straight line segments, first 27, second 28 / third 29 and fourth 30 curved sections. The distance between the ends of the third 29 and fourth 30 curvilinear sections 1 is less than the length L of the first rectilinear section 24, and the angle o (the entrance of the first 27 and second 28 curvilinear sections to the second 25 and third 26 rectilinear sections

40

45

viyu arctg Krp,

where k

gr

the coefficient of friction between the surfaces of the figure groove 22 and the pin 31 mounted on the housing 1, the length L of the first rectilinear section 24 must be greater than the sum of the distances

0

five

0

25

. thirty

40

45

from the first splines 16 kor 15 to the first teeth 18 of the bush 10, D1, and from the second splines 17 kor 15 to the second teeth 20 of the gear 19, dg, i.e. + At, On the outer surface of the housing 1 is made the winding of the electromagnet 32.

The device works as follows.

In the absence of a pulse in the winding of the electromagnet 32, the bore 15 is out of engagement with the first teeth 18 of the sleeve 10 and the second teeth 20 of the gear 19. Under the action of the spring 21, the pin 31 relative to the figure groove 22 consisting of elements 23 is in position I in the first rectilinear section 24. When a positive impulse is applied to the winding of the electromagnet 32, the measles 15 with a permanent magnet 14 is drawn inside the windings of the electromagnet 32, overcoming the elastic force of the spring 21. When moving, the measles 15 with their second slots 17 enter into the engagement with the second teeth 20 of the gear 19, is rotated by the movement of the pin 31 along the first curvilinear section 27 and is on the second straight line section 25 of the shaped groove 22 in position II. At the same time, measles 15 with its second spline 17 turns through gear 19 axis 12 with a fixed

It is the second arrow 13 in the recess 3 of the base 2 of the housing 1.

When a positive pulse is removed from the winding of the electromagnet 32, the bore 15 moves upwards under the action of the spring 21, while the pin 31 moves along the third curvilinear section 29 to the first straight line section 24 of the next element 23 of the shaped groove 22 and is in position III, and the second arrow 13 rotates relative to the scale 8. At the end of the movement, the second splines 17 come out of the engagement with the second teeth 10 of the gear wheel 19. Therefore, when applying and removing one positive pulse to the coil of the electromagnet 32, the second arrow 13 p Turns around a scale of 8 by one division.

When a negative pulse is applied to the winding of the electromagnet 32, the measles 15 with a permanent magnet 14 is pushed out of the winding of the electromagnet 32,

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overcoming the force of elasticity of the spring 21. As it moves, the measles 15 first birds 16 engage with the first teeth 18 of the sleeve 10, rotate due to the movement of the pin 31 along the second curvilinear section 28 and end up on the third linear section 26 at position IV. At the same time, measles 15 with its first splines 16 turns the sleeve through the first teeth 18.

10 in the hole 9 of the partition 7 of the cover 4, moving the first arrow 11.

When the negative pulse is removed from the winding of the electromagnet 32, the measles 15 moves downwards under the action of the spring 21. In this case, the first arrow

11 rotates relative to the scale.

8 due to the movement of the pin 31 along the four curved section 30 of the figure groove 22 and the interaction of the first slots 16 of the core 15 with the first teeth 18 of the sleeve 10. At the end of its movement the pin 31 appears on the first straight line section 24 of the next element of the figure notch 22 position III, and the first splines 16 of the core 15 come out of engagement with the first teeth 18 of the sleeve 10. Therefore, when applying and removing one negative pulse to the winding of the electromagnet 32, the first arrow 11 is rotated relative to the scale 8 by one division. The meter readings are monitored through a viewing glass-6 fixed with a nut 5 on the lid 4.

Thus, using the proposed counter allows separate counting of positive and negative pulses.

Claims (1)

Invention Formula Electromagnetic pulse counter containing a housing, an axis, an electromagnet winding, measles and a spring, characterized in that, in order to expand the field of application by separately counting positive and negative pulses, the housing is designed as a cylinder, at the base of which a recess is made, at the upper end of the housing rigidly a cylindrical cover is fixed, on the upper end of which a viewing glass is fastened with a nut, between it and the upper end of the body a partition is made, on the upper five 716 jg J5 20 25 Q 35 45 45 her 426 the plane of which has a scale, and in the center there is a hole in which a sleeve is installed with the possibility of rotation, on which the rigid is fixed above the scale of the first arrow, the diameter of the lower end of the sleeve is larger than the diameter of the partition opening, in the sleeve and in the recess is installed with the possibility of rotation, the axis, on the upper end of which is rigidly fixed above the first arrow of the second arrow, between the partition and the base of the case is mounted with the possibility of rotation a permanent magnet is applied, on which the measur is rigidly fixed cylindrical On the upper and lower ends of the core, the first and second slots are made, respectively; the first teeth are fixed at the lower end of the sleeve; the gears are rigidly fixed on the axis below the core, the second teeth are designed to interact with the second splines, one end of the spring is rigidly fixed on the bark, and the other end on the base of the body, the size of the internal diameter of the spring is greater than the outer diameter of the gear, on the outer side of the gear The surface of the core is a shaped groove consisting of successively connected identical elements, each of which consists of a first straight line section and located on the same vertical straight line parallel to the first straight line section, above and below at the same distance from the second and third straight lines. linear portions, the ends of the first rectilinear section are connected to the middle of the second and third rectilinear sections by means of the first and second curvilinear sections, and the angle about the entrance of the first and second The curved sections in the second and third straight lines should meet the conditions / -I et 2arctg Ktr, where Ktr is the coefficient of friction between the surfaces of the figure groove and the pin rigidly fixed on the body with the ability to interact with the figure groove, the lower end of the second and upper end of the third straight line sections are connected to the other ends of the third and fourth curvilinear respectively plots, the other ends of which are connected to the first rectilinear section. The next element of the shaped groove is less than the length of the first rectilinear section from each other, the value of which is greater than the sum of the distances from the first core splines to the first hub teeth and the second gear teeth, the number of the first chubien bushings and the second gear teeth are multiples of the number of elements of the shaped groove, the centers of the first straight-line sections of the elements of the figure groove are located on the same circumference, on the outer side surface casing is formed of an electromagnet coil. 25 Fig2