SU775769A2 - Code change-over switch - Google Patents

Description

(54) CODE SWITCH

f

The invention relates to elements of automatic control and regulation systems and can be used, in particular, in measurement systems for testing, aeronautical engineering for setting digital data corresponding to the flight mode number and issuing the set data in a potential binary-decimal code. The invention is an improvement of the technical solution of the author's certificate No. 675468.

According to the main av. St. No. 675468 is known for a code switch comprising a housing, a cover with current leads, a 15 flywheel with a scale and a contact disk, and a contact group. In the cavity of the flywheel, there are two insulating gaskets with holes, a corrugated washer, a spring and an insert with 20 slots and a hole. The contact group is made in the form located in the cage rods and placed between the specified gaskets. One of the gaskets through the corrugated sleeve 25 is pressed to the contact disk by a figured spring placed in the slots of the knob and a friend by the same figured spring is pressed to the lid. When this clip is inserted into the holes of the gaskets 30

and the hole of the liner, and the rods are installed with the possibility of interaction with one of their ends with the contact disk, and the other with the contact elements additionally attached to the cover. Each of the contact elements is made of at least two wires having an arcuate portion. The side of the holder facing the lid is made in the form of a comb, between which projections are located the contact elements and rods.

A disadvantage of the known switch is the lack of the possibility of remotely installing digital data or changing them, which limits the possibility of using the switch in equipment located in hard-to-reach places on the object.

The aim of the invention is to expand the functionality. This is achieved by the fact that the code switch is equipped with an electromagnet, springs, roller and levers, one of which is mounted on the flywheel axis, is spring-loaded with one of the springs and is connected to another lever on which the roller interacting with the flywheel is mounted, and one other spring is fixed, the other end is fixed on the third end, which is connected with the trunk through the fourth arm.

Such a design solution allows for both manual and remote control of the switch.

The drawing shows a code switch.

The code switch contains the corus 1, the axis 2, on which is installed an axle 3 with a scale and a contact suit; On axis 2, coaxially with the flywheel 3, a rotary lever 4 is installed, at the end of which there is a finger 5, which is the axis of rotation of the second lever 6, on one arm of which a roller 7 is installed, sinking between two adjacent projections of the flywheel 3 and having the ability to freely rotate around its axis 8. At the other end of the second lever 6, a finger 9 is mounted, to which one is attached, the end of the spring 10, its other end is hinged on one shoulder of the third lever 11, having the ability to rotate at a certain angle around its axis 12, in the original In the position shown in the drawing, the indicated system of levers forming a closed four-stage mechanism is held by a return spring 13, one end of which is attached to the body 1 and the other end to the lever 4. The other arm of the lever 11 is in contact with the protrusion of the fourth lever 14, turning the jets at a certain angle around the axis 15 under the influence of the force of the pusher 16 of the core of the electromagnet 17 mounted on the rear wall of the housing 1 transmitted to the lever arm 14 through the adjusting screw 18. The mechanism is closed by the cover 19 and the current cover cap 20.

In the internal cavity of the flywheel 3, a code (contact) disk, fixed relative to the flywheel 3, two gaskets made of electrically insulating material, a spring / corrugated washer and a clip are placed not shown in the drawing. The code disk is closed by the first gasket. AT; The gasket has a rectangular groove (hole) into which the sleeve enters. A gasket is fitted behind the gasket, which, when two of its protrusions are inserted into the corresponding grooves of the flywheel 3, occupies a fixed position within the latter. The flywheel 3 is fixed in ten positions by a corrugated washer with a three-blade figured spring, which is located in the corresponding grooves of the liner. The liner is located inside the flywheel 3 on its stage and has a groove for accommodating the holder and a finger entering into a corresponding hole

caps 19, which ensures a fixed position of the insert relative to the flywheel 3. Five contact cylindrical brush-rods are located in the five cage slots, each of which is in contact with a certain portion of the contact surface of the code disk with one of its ends. On the opposite side, each rod is spring-loaded, and the contact force on each rod is created by a contact spring consisting of three hairs mounted on the current collection cover 20. With a chain to increase the reliability of contact between the rods and hairs, the side of the yoke facing the current collection cover 20 is made in the form combs with a groove width sufficient to accommodate a group of three hairs with a small gap. On the cover 20, made by photochemical etching of foil-clad fiberglass, there are contact pads, each of which is connected by a printed conductor with a corresponding group of hairs and serves for the installation of conductors of external electrical circuits. The splash protection of structural elements located inside the flywheel 3 is provided by a second gasket, which differs from the first gasket by the presence of an opening for the passage of the finger of the liner. The second gasket is tucked in a figured spring to the covers 19 and 20, fastened to the housing 1.

The operation of the code switch can be performed in both manual and remote control modes.

The operation of the code switch in the manual mode is as follows.

When turning the flywheel 3 from a fixed position, the code disk and the corrugated washer are rotated with it. The corrugations of the washer interfere with the three blades of the shaped spring, which tends to return the corrugated washer and the flywheel 3 to its previous fixed position. When turning the flywheel 3 at an angle greater than 18, the blades of the shaped spring interact with the opposite side (the downward side of the protrusions of the corrugated washer, try to tighten it and the flywheel 3 associated with it to a new fixed position. - turning the flywheel 3 and fixing it in a new position. When turning the flywheel, the 3 contact rods pressed by the springs (hairs) to the code disk turn out to be in new areas of its contact surface, providing switching output signals in accordance with the new angular position of the flywheel 3.

When the rotary switch is operated in the manual control mode, the roller 7, rolling around:; along the flywheel 3 protrusions when turning the latter, provides an additional fixation of the flywheel 3 by means of the springs 10 and 13, while rotating the dial flywheel 3 in the direction of increasing the readings ( Arrow A) works for stretching the spring 13, and when the flywheel 3 rotates in the direction of decreasing readings (in the direction of arrow B), the spring 10 works for stretching, since the kinematic pair of levers 11 and 14 is rigidly closed on the pushrod in the lowest position 16 l of the electromagnet 17 and the rotation of the lever 6 clockwise when obkatyvanii roller 7 respectively flywheel projection 3 is possible with a fixed arm 11 only by the tensile spring 10

The operation of the mechanism in the remote control mode is as follows.

When the winding of the electromagnet 17 is energized, the latter is activated and the pusher 16 transfers the force to the lever arm 14 through the screw 18 (in the direction of the arrow c) i The other lever arm 14 is lowered and acts on the working lug. the lever arm 11, which in this case rotates counterclockwise and through the spring 10 acts on the lever arm b, try to turn it counterclockwise around the finger. Odnix roller 7, resting against the surface between two adjacent projections of the flywheel 3, prevents this turn of the lever 6. With further turn (under the action of the pusher 16 of the electromagnet 17 / levers 14 and 11, the spring 10 continues to pull up the arm of the lever b, and since. the latter cannot be rotated, the vertical component of this force is transmitted through the pin 5 to the lever 4, which begins to rotate counterclockwise around the axis 2, overcoming the resistance of the spring 13 and moving up the lever 6 with the roller 7. The force of the electromagnet 17 The full stroke of the pusher 16 connected to the bark and the stiffness of the springs 10 and 13 are chosen such that with the full stroke of the pusher 16, the torque created by the roller 7 as it moves upwards on the corresponding protrusion of the flywheel 3 exceeds the torque of the flywheel rotation, created by the built-in fixation elements placed in the cavity of the flywheel 3. Thus, there is a full turn counterclockwise of the lever 4 and moving in the bottom-up direction of the lever 6 with the roller 7 acting on sponding lug flywheel 3 is also in the upward direction, which leads to the rotation of the flywheel 3 by one division in the direction of increasing the counts (arrow A). At the same time, the final fixation of the flywheel 3 in the new angle position is provided, as in the manual control mode, with the fixing elements built into the flywheel 3, a click occurs.

15

When de-energizing the winding of the electromagnet 17, the measles are released with the pusher 16 and under the action of the return spring 13 all

In operation, the kinematic links return to their original position, while the roller 7, lowering together with the lever 6 to the initial lower position, rolls the corresponding protrusion

5 flywheel 3 and falls into the depression between two adjacent protrusions. Since when the protrusion of the flywheel 3 is rolled around by the roller 7 in the top-down direction, the lever 6 is able to turn clockwise, the roller 7 does not stop against the flywheel .3. The moment created by the roller 7 on the projections of the flywheel 3 when the entire system of levers returns to its original position is significantly less than the moment of resistance created by the built-in fixation elements, and the spontaneous rotation of the flywheel 3 in the opposite direction does not occur.

0

Claims (1)

Invention Formula Code switch auth. St. I 675468, different 5 in that, in order to expand its functionality, it is equipped with an electromagnet, springs, roller and levers, one of which is mounted on the flywheel axis, is spring-loaded with one of the springs and connected to another lever, on which the roller interacting with the flywheel, and One end of the other spring is fixed, the other end of which is fixed to the third lever connected to the electromagnet through the fourth lever.