SU1044850A2 - Pneumatic contactless control limit switch - Google Patents

Abstract

PNEUMATIC NON-CONTACT FINAL SWITCH by author. St. No. 889912, characterized in that. In order to increase the efficiency of the switch, additional membranes are installed in the nozzle and end chambers of the second two-membrane element, connected to the rigid center of this element and dividing the indicated chambers into two parts, the part of the nozzle chamber adjacent to the middle chamber and part end chamber, limited by the torus. chamber wall and an additional membrane, are connected to the feed channel, and an adjustable throttle needle placed in the end chamber chamber of this ementa. P 5 f5 W f8 W C

Description

This invention relates to npii5opocTopenia and can be used in all areas of national economy in the automation of production processes as a source of information. According to the main author. St. N ° 889912 is a pneumatic non-contact limit switch containing two coaxial two-membrane elements installed with a working gap, of which the first is made with receiving throttling nozzle and nozzle middle and end chambers, the first two of which are connected to the switch output and the last one is connected with the atmosphere, the second two-membrane element is made with an average chamber connected to the atmosphere, a nozzle and end chamber connected to the output of the switch, and a rigid center in which but an ejector nozzle located coaxially with an ejector mixing chamber l.j. The disadvantage of this is to turn off (U1 is its low efficiency, which is explained by the fact that when the output signal level rises, both in the direction of excess pressure (conditional "O) and in the direction of vacuum (conditional" 1), the jet velocity the power was as high as possible, but since the jet speed is proportional to the supply pressure (power) and in the process conditions the percentage, the switch working time is low compared with the switch operating time in the so-called standby mode (i.e. air jets received in the receiving nozzle of the first two-membrane element, a flag). Consequently, the efficiency of the 5 switch (defined as the ratio of its useful power to the power consumed in the working and standby switch) is also low and the desire to increase the output signal by level and speed The purpose of the invention is to increase the efficiency of the switch. The goal is achieved by the fact that in the switch containing two coaxial two-membrane elements installed with a working gap, of which The secondary membrane element is made with a receiving throttle by a resetting nozzle and a nozzle, middle and end chambers, the first two of which are connected to the switch output, and the next one is connected to the atmosphere, the second two-membrane element is made to the middle chamber connected to the atmosphere, the nozzle and end chambers connected to the output of the switch, and a rigid center, in KOTOPOJM, an ejector nozzle located coaxially with the ejector mixing chamber is installed, in the nozzle and end chambers of the second two-membrane element are installed The membrane membranes connected to the rigid center of this element and dividing the indicated chambers into two parts, with the part of the nozzle chamber adjacent to the middle chamber and the part of the end chamber limited by the end wall of the chamber and the additional membrane are connected to the feed channel. An adjustable throttle needle installed in the wall of the end chamber of this element is installed in the hard center channel. The drawing shows a pneumatic non-contact limit switch b, section. . The coctpHT switch from the housing t is channel 2 of power supply and dual membrane elements 3 and 4. The hard center 5 of element 4 is made with a through channel and is the ejector nozzle 6. The ejector mixing chamber 7 is at the same time the end nozzle supply nozzle. The receiving throttling nozzle 8, made in two-membrane element 3, is connected to the nozzle by the chamber 9 of this element. Nozzle 9 and middle 10 camera element 3 are connected to the output switch P. Tortsova camera 12 element 3 is connected to the atmosphere. To adjust the location of the hard center of the throttles of the element 3 serves screw 13. The nozzle chamber of the element 4 is divided by an additional membrane 4 connected to the hard center 5 into two parts, on which a part of the nozzle chamber located between the displacement chamber 7 and the additional membrane 14 forms chamber A and a portion of the nozzle chamber, located between the additional membrane 14 and the middle chamber 15, forms the negative feedback chamber B. The end chamber of element 4 is divided by an additional membrane 16 connected to a high center 5 into two parts, of which a part of the end chamber located between the middle chamber 15 and the polopolarteum membrane 16 forms chamber C (positive feedback) The chamber located between the additional membrane 16 and the end wall of the chamber forms the chamber D. The middle chamber 15 of the element 4 is connected to the atmosphere, the chambers A and C are connected to the output of the switch ti, the chambers B and D are connected to the feed channel 2. In this case, a choke 17 can be installed between chamber B and feed channel 2 to increase the gap. passing air through chamber 8 when pressure is applied to chambers B and D. A rigid center through channel is connected to chamber C and is made with an adjustable drop needle needle 18 connected to screw 19; (installed in the wall of the end chamber) ... The rifle jets 18 are deaf and the elements 3 and 4 are carried out by the flag 20. i The switch works as follows. When supply pressure is applied to channel 2, air passes into chamber D and with a time delay due to throttles 17 in the ca-; measure B. At the initial moment of time, the pressure in chamber D will be greater than. in chamber B. Under the action of a force directed to the left, the rigid center 5 of element 4 will set in the left extreme position, which will be the original. In this position, the movement of the needle 18 (screw 19) regulates the upper pressure limit in the initial position. After some time, the pressure in the chambers .B and D equalize. The hard center 5 remains in a “similar position, since feedback in the form of a dynamic pressure of the jet passes through the receiving nozzle into chamber C and the force from this pressure, directed to the left (positive feedback), keeps the hard center 5 in this position, taking into account that the total effective areas of the membranes 1g of chambers B and D are equal. ./ Dynamic pressure ctpy-H VOZDUHU through the receiving nozzle 8 passes into the nozzle chamber 9, the average chamber 1-0 at exit 11, as well as into chambers A and-C. As a result, an additional force appears to the left on the rigid center 5. Tag CIM way, in the waiting mode of the switch (conditional "O), i.e. until the flag 20 of the jet of air entering the receiving nozzle in element 3 is blocked, the air flow rate is significantly reduced, thereby reducing the power consumption of the switch in this mode. When the flag 20 overlaps the air stream between the feed nozzle - (chamber 7) of element 4 and receiving nozzle 8 of element 3, the pressure in chambers 9, 10 A and C begins to decrease to a vacuum, which causes the force on the rigid centers of elements 3 and 4, directed to the right due to atmospheric pressure in chambers 12 and 15. As a result, the receiving nozzle 8 is closed in chamber 9 and the through-channel of the hard center 5 opens. conditional "1):. Technical and economic efficiency of the invention is to reduce the flow of air, i.e. reducing the cost of power to power the switch when it is operating in standby mode, which results in an increase in the total efficiency of the proposed switch and an increase in its efficiency,

Claims (1)

PNEUMATIC CONTACTLESS LIMIT SWITCH by author. St. No. 889912, characterized in that, in order to increase the efficiency of the switch, additional membranes are installed in the nozzle and end chambers of the second two-membrane element, connected to the rigid center of this element and dividing these chambers into two parts, the part of the nozzle chamber * adjacent to the middle chamber, and the part of the end chamber, bounded by the end wall of the chamber and the additional membrane, are connected to the feed channel, and an adjustable throttle needle, marked in the wall rtsovoy chamber of this element. $ Ц_ _П „. ЩШР- ..