CN114839942B - High-stability trigger type intelligent control system - Google Patents

Abstract

The invention discloses a high-stability trigger type intelligent control system, belonging to the field of intelligent control systems, wherein the output end of an intelligent control processing unit is connected with a stable trigger unit, the stable trigger unit is electrically connected with a sensor body through a lead, the sensor body is connected with a trigger sliding sleeve in a tin welding way, the left inner wall of the trigger sliding sleeve is fixedly connected with a trigger rod, the right inner wall of the trigger sliding sleeve is fixedly connected with an induction sleeve, the trigger stability of the sensor body can be controlled and maintained through the matching of the stable trigger unit, an auxiliary conversion rod, a mountain-shaped reinforcing bag and a regulation and control gas ring, the trigger loss is reduced, the trigger efficiency and the trigger precision are improved, the regulation and control effect is improved, the precision of signal transmission of the intelligent control system is effectively enhanced, the error report rate is reduced, and the service performance of the intelligent control system is improved, the application of the intelligent control system in the industrial automation industry is promoted.

Description

High-stability trigger type intelligent control system

Technical Field

The invention relates to the field of intelligent control systems, in particular to a high-stability trigger type intelligent control system.

Background

The intelligent control is based on the subjects of control theory, computer science, artificial intelligence, operation research and the like. The application of the method is more theories such as fuzzy logic, neural networks, expert systems, genetic algorithms and the like, and technologies such as self-adaptive control, self-organization control and self-learning control. The main characteristics of an intelligent control research object are a mathematical model with uncertainty, high nonlinearity and complex task requirements.

The intelligent control system is an automatic control technology which can autonomously drive an intelligent machine to realize a control target under the condition of no human intervention, and under the background of continuous progress of an industrial automation technology, the intelligent control system and the industrial automation are integrated, an unmanned management mode is realized, and the efficiency and the safety of the industrial manufacturing industry are guaranteed.

The signal transmission and the intelligent induction of the intelligent control system are mainly controlled by a sensor, so that automatic allocation and control are realized, however, in the transmission control process of the sensor of the existing intelligent control system, the sensor is easy to generate loss due to frequent use, so that the sensor generates an unstable triggering state, the service performance of the sensor is reduced, the fault rate of the intelligent control system is further caused, and the regulation and control effect of the intelligent control system is reduced.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a high-stability trigger type intelligent control system, which can control and maintain the trigger stability of a sensor body through the matching of a stable trigger unit, an auxiliary conversion rod, a mountain-shaped reinforcing bag and a regulation and control air ring, reduce the trigger loss, improve the trigger efficiency and trigger precision, improve the regulation and control effect, further effectively enhance the signal transmission precision of the intelligent control system, reduce the false alarm rate of the intelligent control system, improve the service performance of the intelligent control system, and promote the application of the intelligent control system in the industrial automation industry.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A high-stability trigger type intelligent control system comprises an intelligent control processing unit, wherein the output end of the intelligent control processing unit is connected with a stable trigger unit, the stable trigger unit is electrically connected with a sensor body through a wire, the sensor body is connected with a trigger sliding sleeve in a tin welding manner, the left inner wall of the trigger sliding sleeve is fixedly connected with a trigger rod, the right inner wall of the trigger sliding sleeve is fixedly connected with a sensing sleeve, the right end of the trigger rod is provided with a trigger head, the left end of the sensing sleeve is slidably connected with a sensing column matched with the trigger head, a reinforcing cavity positioned on the right side of the sensing column is formed in the sensing sleeve, the right inner wall of the reinforcing cavity is fixedly connected with a mountain-shaped reinforcing bag, a regulating cavity positioned outside the sensing column is formed in the sensing sleeve, a regulating air ring matched with the mountain-shaped reinforcing bag is arranged in the regulating cavity, the left end of the trigger head is fixedly connected with a trigger bottom plate, the right end of the trigger bottom plate is fixedly connected with a plurality of auxiliary conversion rods positioned on the outer side of the trigger head, and the auxiliary conversion rods are matched with the regulating air ring;

the stable trigger unit comprises a stable trigger processing module, the input end of the stable trigger processing module is connected with a signal trigger module, the input end of the signal triggering module is electrically connected with the induction column through a lead, the output end of the stable triggering processing module is connected with a triggering enhancement module, the output end of the triggering enhancement module is electrically connected with the triggering bottom plate through a lead, the triggering stability of the sensor body can be controlled and maintained through the matching of the stable triggering unit, the auxiliary conversion rod, the mountain-shaped reinforcing bag and the regulation and control air ring, the trigger loss is reduced, the trigger efficiency and the trigger precision are improved, the regulation and control effect is improved, and further, the signal transmission precision of the intelligent control system is effectively enhanced, the false alarm rate of the intelligent control system is reduced, the service performance of the intelligent control system is improved, and the application of the intelligent control system in the industrial automation industry is promoted.

Furthermore, trigger bottom plate left end fixedly connected with and extend to the inboard sensitive strip of trigger bar, sensitive strip left end fixedly connected with sensitive trigger, the output of sensitive trigger has the response transmission unit through wire electric connection, the output of response transmission unit is connected with intelligent control processing unit's input.

Furthermore, regulation and control gas ring left end fixedly connected with bidirectional control ring, and bidirectional control ring and regulation and control chamber sliding connection, regulation and control gas ring right-hand member fixedly connected with rather than the shrink trachea of putting through mutually, shrink trachea right-hand member extends to the reinforcing intracavity to meet with mountain type reinforcing bag and put through, fixedly connected with elastic component that resets in the regulation and control gas ring, and the elastic component that resets when the sensor body does not trigger the state is opened for usual, and the elastic component that resets can reset the effect to regulation and control gas ring after triggering the completion for regulation and control gas ring and mountain type reinforcing bag can the repetitive action, and then when reducing sensor body manufacturing cost, still effectively improve its trigger validity.

Furthermore, the auxiliary conversion rod comprises a flexible isolation sleeve, the right end of the trigger bottom plate is fixedly connected with a plurality of flexible isolation sleeves, elastic bearing wires are fixedly connected in the flexible isolation sleeves, electrorheological fluid is filled in the flexible isolation sleeves, the left end of each flexible isolation sleeve is fixedly connected with a conducting piece which is electrically connected with the trigger bottom plate, the conducting piece acts on the electrorheological fluid, the shape of the auxiliary conversion rod can be kept through the elastic bearing wires, the electrorheological fluid can enable the auxiliary conversion rod to have an adjusting effect, the state of the auxiliary conversion rod can be controlled, when the triggering effect and the triggering efficiency of the sensor body are improved, the damage to the trigger head and the induction column due to continuous triggering is effectively reduced, the triggering loss of the sensor body is reduced, and the control accuracy of an intelligent control system is effectively maintained.

Furthermore, a pressure sensor is fixedly connected in the regulation and control gas ring, a feedback contact piece matched with the pressure sensor is fixedly connected at the right end of the bidirectional control ring, a trigger failure sensing module is further connected at the input end of the stable trigger processing module, the input end of the trigger failure sensing module is electrically connected with the feedback contact piece through a lead, the feedback contact piece forms a double-control switch component with a conducting piece through the matching of the trigger failure sensing module, the stable trigger processing module and the trigger reinforcing module, and simultaneously controls the auxiliary conversion rod, when the trigger fails, the efficiency can form an auxiliary trigger effect through the matching of the pressure sensor, the feedback contact piece and the trigger failure sensing module when the trigger fails, the damage rate of the trigger head and the induction column is reduced, and the auxiliary trigger head and the induction column can effectively transmit signals, keep signal transmission's validity, intelligence control system can also respond to the state of sensor body, is convenient for monitor the state of sensor body.

Further, mountain type reinforcing bag is including spilling over the limit bag, reinforcing chamber right side inner wall fixedly connected with spills over the limit bag with regulation and control gas ring matched with, spill over limit bag left end fixedly connected with rather than the millet type core bag of putting through mutually, millet type core bag left end fixedly connected with balance bottom plate, and balance bottom plate left end and response post fixed connection spill over the effect of limit bag and millet type core bag, can strengthen the response post and trigger the first efficiency that triggers, improve signal transmission efficiency, and then improve intelligent control system's control efficiency and control accuracy.

Further, spill over a plurality of deformation of fixedly connected with and involve the strip in the limit bag, and deformation when the sensor body does not trigger the state involves the strip and is the normal contraction type, deformation is dragged the strip and can be restricted spilling over the deformation of limit bag and millet core bag, strengthen the effect of the preferential deformation of millet core bag, make millet core bag can act on the response post fast, and spill over the hole between limit bag and the reinforcing chamber, can also alleviate the unnecessary atmospheric pressure after triggering head and the contact of response post, when keeping triggering the effect, reduce the loss that triggers head and response post, improve the reinforcing effect of regulation and control gas ring and mountain type reinforcing bag.

Further, it has the balanced cylinder liner of flexibility to fill between millet core bag and the balanced bottom plate, be provided with the elasticity pearl in the balanced cylinder liner of flexibility, a plurality of load poles of elasticity pearl outer end fixedly connected with, and load pole keep away from elasticity pearl one end and balanced cylinder liner fixed connection of flexibility, the balanced cylinder liner of flexibility, elasticity pearl and load pole can cushion the instantaneous trigger power that triggers the head and produce, reduce its damage and the vibration effect that leads to the fact the response post, effectively improve signal transmission's stability.

Further, the input of stably triggering processing module still is connected with balanced response module, a plurality of balanced inductors of fixedly connected with in the flexible balanced net cover, balanced response module's input passes through wire and balanced inductor electric connection, after balanced response module calculated data judges that flexible balanced net cover is in balanced state, export balanced signal, make stably trigger processing module can acquire trigger head and the signal that the induction post triggered the completion, when reducing the induction post damage rate, still effectively improve the trigger precision between trigger head and the induction post, effectively improve the sensing precision of sensor body, improve intelligence control system's control precision, improve its application range, reduce the false alarm rate.

Furthermore, it triggers the chamber to have seted up in the trigger bar, it is located and triggers the intracavity to trigger the bottom plate to with trigger chamber sliding connection, the trigger bar right-hand member has been seted up and has been triggered the hole with trigger head matched with, and triggers the head and trigger hole sliding connection.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) this scheme is through the cooperation of stabilizing trigger unit, supplementary change-over lever, mountain type reinforcing bag and regulation and control gas ring, can control and keep the stability of triggering of sensor body, when reducing its trigger loss, has improved in addition and has triggered efficiency and trigger the precision, has improved the regulation and control effect, and then has effectively strengthened intelligent control system signal transmission's precision, reduces its mistake report rate, has improved its performance, has promoted the application of intelligent control system in the industrial automation trade.

(2) The elastic component that resets can trigger and accomplish the back and carry out the effect that resets to regulation and control gas ring for regulation and control gas ring and mountain type reinforcing bag can the repetitive action, and then when reducing sensor body preparation cost, still effectively improve its trigger validity.

(3) Can keep the shape of supplementary change-over lever through elasticity load silk, electrorheological fluids can make supplementary change-over lever have the effect of adjustment, can control the state of supplementary change-over lever, when improving the trigger effect of sensor body and trigger efficiency, still effectively reduce owing to continuously trigger the damage that leads to the fact trigger head and response post, reduce the trigger loss of sensor body, and then effectively keep intelligent control system's control accuracy.

(4) When triggering inefficacy, can trigger the head and respond to the cooperation of inefficacy response module through pressure sensor, feedback contact, when reducing to trigger when inefficacy and the damaged rate of response post, still efficiency can form supplementary trigger effect, can effectively assist the head and respond to the post and carry out signal transmission, keeps signal transmission's validity, and intelligence control system can also respond to the state of sensor body, is convenient for monitor the state of sensor body.

(5) Spill over the effect of limit bag and millet core bag, can strengthen the response post and trigger the first efficiency of triggering, improve signal transmission efficiency, and then improve intelligent control system's control efficiency and control accuracy.

(6) Deformation is dragged the strip and can be restricted the deformation that spills over limit bag and millet core bag, strengthens the effect of the preferential deformation of millet core bag for millet core bag can act on the response post fast, and spill over the hole between limit bag and the reinforcing chamber, can also alleviate trigger head and unnecessary atmospheric pressure after the response post contact, when keeping the trigger effect, reduce the loss that triggers head and response post, improve the reinforcing effect of regulation and control air ring and mountain type reinforcing bag.

(7) The flexible balance net cover, the elastic beads and the bearing rod can buffer the instantaneous trigger force generated by the trigger head, reduce the damage and the vibration effect of the trigger head on the induction column and effectively improve the stability of signal transmission.

Drawings

FIG. 1 is a schematic diagram of the control flow structure of the intelligent control system of the present invention;

FIG. 2 is a schematic view of a sensor body axial structure of the present invention;

FIG. 3 is a schematic diagram of an explosive structure of the triggering sliding sleeve of the present invention;

FIG. 4 is a schematic cross-sectional front view of the triggering sleeve of the present invention when not triggered;

FIG. 5 is a schematic cross-sectional front view of the trigger head and the sensing post in cooperation with each other when the trigger head is not triggered;

FIG. 6 is a schematic cross-sectional view of the mountain-shaped reinforcing bag in a non-triggered state according to the present invention;

FIG. 7 is a schematic diagram of the structure at A of FIG. 6 in accordance with the present invention;

FIG. 8 is a schematic cross-sectional view of the trigger sleeve in front view according to the present invention;

fig. 9 is a schematic cross-sectional front view of the trigger head and the sensing post in cooperation with each other during triggering according to the present invention.

The reference numbers in the figures illustrate:

the sensor comprises a sensor body 1, a trigger sliding sleeve 2, a trigger rod 21, a trigger cavity 211, a trigger hole 212, a sensing sleeve 22, a reinforcing cavity 221, a regulation and control cavity 222, a trigger head 3, a trigger bottom plate 301, a sensitive strip 302, a sensing column 4, a balance bottom plate 401, an auxiliary conversion rod 5, a mountain-shaped reinforcing bag 6, an overflow side bag 61, a valley-shaped core bag 62, a regulation and control air ring 7, a contraction air pipe 701, a reset elastic member 702, a bidirectional control ring 8, a flexible balance net sleeve 9, elastic beads 901, a force bearing rod 902 and a deformation dragging strip 10.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in a specific case to those of ordinary skill in the art.

Example 1:

referring to fig. 1-9, a highly stable trigger type intelligent control system comprises an intelligent control processing unit, an output end of the intelligent control processing unit is connected with a stable trigger unit, the stable trigger unit is electrically connected with a sensor body 1 through a wire, the sensor body 1 is soldered with a trigger sliding sleeve 2, a trigger rod 21 is fixedly connected with a left inner wall of the trigger sliding sleeve 2, a sensing sleeve 22 is fixedly connected with a right inner wall of the trigger sliding sleeve 2, a trigger head 3 is arranged at a right end of the trigger rod 21, a sensing column 4 matched with the trigger head 3 is slidably connected with a left end of the sensing sleeve 22, a reinforcing cavity 221 positioned at a right side of the sensing column 4 is arranged in the sensing sleeve 22, a mountain-shaped reinforcing bag 6 is fixedly connected with a right inner wall of the reinforcing cavity 221, a regulating cavity 222 positioned at an outer side of the sensing column 4 is arranged in the sensing sleeve 22, a regulating air ring 7 matched with the mountain-shaped reinforcing bag 6 is arranged in the regulating cavity 222, the left end of the trigger head 3 is fixedly connected with a trigger bottom plate 301, the right end of the trigger bottom plate 301 is fixedly connected with a plurality of auxiliary conversion rods 5 positioned on the outer side of the trigger head 3, and the auxiliary conversion rods 5 are matched with the regulation and control air ring 7;

the stable trigger unit comprises a stable trigger processing module, the input end of the stable trigger processing module is connected with a signal trigger module, the input end of the signal trigger module is electrically connected with the induction column 4 through a lead, the output end of the stable trigger processing module is connected with a trigger enhancement module, the output end of the trigger enhancement module is electrically connected with the trigger bottom plate 301 through a lead, the triggering stability of the sensor body 1 can be controlled and maintained through the matching of the stable triggering unit, the auxiliary conversion rod 5, the mountain-shaped reinforcing bag 6 and the regulation and control air ring 7, the trigger loss is reduced, the trigger efficiency and the trigger precision are improved, the regulation and control effect is improved, and the signal transmission precision of the intelligent control system is effectively enhanced, the false alarm rate of the intelligent control system is reduced, the service performance of the intelligent control system is improved, and the application of the intelligent control system in the industrial automation industry is promoted.

Referring to fig. 1-4 and 8, a sensing strip 302 extending to the inner side of the trigger rod 21 is fixedly connected to the left end of the trigger base plate 301, a sensing trigger is fixedly connected to the left end of the sensing strip 302, an output end of the sensing trigger is electrically connected to an induction transmission unit through a wire, and an output end of the induction transmission unit is connected to an input end of the intelligent control processing unit.

Referring to fig. 2-9, the left end of the regulation and control air ring 7 is fixedly connected with the bidirectional control ring 8, the bidirectional control ring 8 is slidably connected with the regulation and control cavity 222, the right end of the regulation and control air ring 7 is fixedly connected with a contraction air pipe 701 communicated with the regulation and control air ring 7, the right end of the contraction air pipe 701 extends into the enhancement cavity 221 and is communicated with the chevron-shaped enhancement bag 6, the regulation and control air ring 7 is internally and fixedly connected with a reset elastic member 702, the reset elastic member 702 is normally open when the sensor body 1 is not triggered, and the reset elastic member 702 can reset the regulation and control air ring 7 after triggering is completed, so that the regulation and control air ring 7 and the chevron-shaped enhancement bag 6 can repeatedly act, and the preparation cost of the sensor body 1 is reduced, and the triggering effectiveness of the sensor body is effectively improved.

Referring to fig. 2-9, the auxiliary converting rod 5 includes a flexible isolating sleeve, the right end of the trigger bottom plate 301 is fixedly connected with a plurality of flexible isolating sleeves, the flexible isolating sleeve is fixedly connected with an elastic force-bearing wire therein, the flexible isolating sleeve is filled with electrorheological fluid, the left end of the flexible isolating sleeve is fixedly connected with a conducting sheet electrically connected with the trigger bottom plate 301, and the conducting sheet acts on the electrorheological fluid, the shape of the auxiliary conversion rod 5 can be kept through the elastic force-bearing wires, the electrorheological fluid can enable the auxiliary conversion rod 5 to have the adjusting function, the state of the auxiliary conversion rod 5 can be controlled, when improving the trigger effect of sensor body 1 and triggering efficiency, still effectively reduce owing to continuously trigger the damage that leads to the fact to triggering head 3 and response post 4, reduce sensor body 1's trigger loss, and then effectively keep intelligent control system's control accuracy.

Referring to fig. 1-9, a pressure sensor is fixedly connected in the control air ring 7, a feedback contact piece matched with the pressure sensor is fixedly connected at the right end of the bidirectional control ring 8, the input end of the stable trigger processing module is further connected with a trigger failure sensing module, the input end of the trigger failure sensing module is electrically connected with the feedback contact piece through a wire, the feedback contact piece forms a dual-control switch assembly through the matching of the trigger failure sensing module, the stable trigger processing module and the trigger enhancement module and the conducting piece, and the auxiliary conversion rod 5 is controlled at the same time, when the trigger fails, the damage rate of the trigger head 3 and the induction column 4 is reduced through the matching of the pressure sensor, the feedback contact piece and the trigger failure sensing module, the auxiliary trigger effect is formed, and the signal transmission between the trigger head 3 and the induction column 4 can be effectively assisted, keep signal transmission's validity, intelligence control system can also respond to the state of sensor body 1, is convenient for monitor the state of sensor body 1.

Please refer to fig. 6-8, the mountain-shaped reinforcing bag 6 includes the overflow side bag 61, the right inner wall fixedly connected with of the reinforcing cavity 221 overflows the side bag 61 with the matching of the regulation and control air ring 7, overflow the grain core bag 62 that the left end fixedly connected with of the side bag 61 communicates with, the left end fixedly connected with of the grain core bag 62 is balanced bottom plate 401, and the left end of the balanced bottom plate 401 is fixedly connected with the induction column 4, overflow the effect of the side bag 61 and the grain core bag 62, can strengthen the triggering efficiency of the induction column 4 and the triggering head 3, improve the signal transmission efficiency, and further improve the control efficiency and the control precision of the intelligent control system.

Please refer to fig. 6-8, overflow a plurality of deformation of fixedly connected with and involve strip 10 in limit bag 61, and deformation when sensor body 1 does not trigger the state involves strip 10 and is the normal contraction formula, deformation involves strip 10 can restrict the deformation that overflows limit bag 61 and grain type core bag 62, the effect of the preferential deformation of reinforcing grain type core bag 62, make grain type core bag 62 can act on induction column 4 fast, and overflow the hole between limit bag 61 and the reinforcing chamber 221, can also alleviate the unnecessary atmospheric pressure after trigger head 3 and the contact of induction column 4, when keeping triggering effect, reduce the loss of trigger head 3 and induction column 4, improve the reinforcing effect of regulation and control air ring 7 and mountain type reinforcing bag 6.

Please refer to fig. 6-8, the flexible balance net cover 9 is filled between the valley type core bag 62 and the balance bottom plate 401, the elastic bead 901 is arranged in the flexible balance net cover 9, the outer end of the elastic bead 901 is fixedly connected with a plurality of bearing rods 902, and one end of the bearing rod 902 far away from the elastic bead 901 is fixedly connected with the flexible balance net cover 9, the elastic bead 901 and the bearing rod 902 can buffer the instantaneous trigger force generated by the trigger head 3, reduce the damage and vibration effect of the sensor column 4, and effectively improve the stability of signal transmission.

Please refer to fig. 1-9, the input end of the stable triggering processing module is further connected with a balance induction module, a plurality of balance inductors are fixedly connected in the flexible balance net cover 9, the input end of the balance induction module is electrically connected with the balance inductors through a wire, the balance induction module calculates data to judge that the flexible balance net cover 9 is in a balance state, and outputs a balance signal, so that the stable triggering processing module can acquire signals of triggering completion of the triggering head 3 and the induction column 4, the damage rate of the induction column 4 is reduced, the triggering precision between the triggering head 3 and the induction column 4 is effectively improved, the sensing precision of the sensor body 1 is effectively improved, the control precision of the intelligent control system is improved, the use range of the intelligent control system is improved, and the false alarm rate is reduced.

Referring to fig. 2-4 and 8, a trigger cavity 211 is formed in the trigger rod 21, the trigger bottom plate 301 is located in the trigger cavity 211 and is slidably connected to the trigger cavity 211, a trigger hole 212 matched with the trigger head 3 is formed at the right end of the trigger rod 21, and the trigger head 3 is slidably connected to the trigger hole 212.

Referring to fig. 1-9, when the intelligent control processing unit of the intelligent control processing unit receives an action signal of the sensing transmission unit, the stable trigger unit is controlled, so that the stable trigger processing module receives the control data, and sends a control instruction to the trigger enhancement module, so that the trigger bottom plate 301 inputs an electrorheological fluid in the auxiliary conversion rod 5 through the conducting sheet, so that the auxiliary conversion rod 5 is converted from flexibility to rigidity, and the sensitive trigger controls the sensitive strip 302, so that the sensitive strip 302 pushes the trigger head 3 to act, and gradually moves towards the direction of the sensing column 4, at this time, the auxiliary conversion rod 5 moves synchronously with the trigger head 3 under the linkage of the trigger bottom plate 301, and when the trigger head 3 gradually contacts the sensing column 4, the auxiliary conversion rod 5 is inserted into the regulation cavity 222 and pushes the bidirectional control ring 8, so that the regulation gas ring 7 contracts, the reset elastic piece 702 is compressed, gas in the regulation and control gas ring 7 enters the overflow side bag 61 through the contraction gas pipe 701, the opposite impact of airflow is generated at the grain-shaped core bag 62 through the drainage of the overflow side bag 61, and the opposite impact acts on the grain-shaped core bag 62 at the same time, and under the action of the deformation dragging strip 10, the grain-shaped core bag 62 is preferentially deformed, the contact strength between the induction column 4 and the trigger head 3 is increased through the action of the balance bottom plate 401, and the sensitivity of trigger induction is improved; through the matching of the stable triggering unit, the auxiliary conversion rod 5, the mountain-shaped reinforcing bag 6 and the regulation and control air ring 7, the triggering stability of the sensor body 1 can be controlled and maintained, the triggering loss of the sensor body is reduced, the triggering efficiency and the triggering precision are improved, the regulation and control effect is improved, the signal transmission precision of the intelligent control system is effectively enhanced, the false alarm rate of the intelligent control system is reduced, the service performance of the intelligent control system is improved, and the application of the intelligent control system in the industrial automation industry is promoted;

after the trigger head 3 is contacted with the induction column 4, the signal trigger module receives a trigger signal and transmits the signal to the stable trigger processing module, the stable trigger processing module processes the signal and then transmits the signal, at the moment, in the contact process of the induction column 4 and the trigger head 3, due to the action of instantaneous contact force, the flexible balance net sleeve 9, the elastic beads 901 and the force bearing rods 902 can buffer the contact impact force of the trigger head 3 on the induction column 4, a balance sensor in the flexible balance net sleeve 9 transmits the state data of the flexible balance net sleeve 9 into the balance induction module, the balance induction module outputs a balance signal after judging that the flexible balance net sleeve 9 is in a balance state by calculating data, so that the stable trigger processing module can obtain the signal after the trigger head 3 and the induction column 4 are triggered, the damage rate of the induction column 4 is reduced, and the trigger precision between the trigger head 3 and the induction column 4 is effectively improved, the sensing precision of the sensor body 1 is effectively improved, the control precision of an intelligent control system is improved, the application range of the intelligent control system is improved, and the false alarm rate is reduced; then the stable trigger processing module controls the trigger enhancement module to enable the trigger bottom plate 301 to be disconnected from conducting the current of the conducting sheet, so that the continuous action of the auxiliary conversion rod 5 is prevented, the continuous loss of the trigger head 3 and the induction column 4 is effectively reduced, and the service life of the sensor body 1 is prolonged;

after the trigger head 3 is contacted with the induction column 4, a trigger signal is not transmitted to the signal trigger module, at the moment, the signal trigger of the induction column 4 fails, the trigger head 3 continuously moves to trigger, the auxiliary conversion rod 5 continuously extrudes the regulation and control air ring 7 through the bidirectional control ring 8, so that the pressure in the regulation and control air ring 7 and the mountain-shaped reinforcing bag 6 is gradually increased, under the limit action of the butt joint of the trigger head 3, the deformation strength of the mountain-shaped reinforcing bag 6 and the deformation dragging strip 10, the valley-shaped core bag 62 is not deformed to push the induction column 4, at the moment, the pressure in the regulation and control air ring 7 is gradually increased, after a pressure sensor in the regulation and control air ring 7 senses a pressure signal, the feedback contact piece acts on a feedback contact piece which transmits the signal to the trigger failure induction module, the trigger failure induction module processes the signal and transmits the signal to the stable trigger processing module, so that the stable trigger unit can transmit a trigger aging feedback signal to the intelligent control processing unit, the intelligent control system can conveniently inspect and maintain the sensor body 1, and in the process of triggering the aging signal transmission, the intelligent control processing unit can effectively act on a triggering object, effectively realize the effect of auxiliary triggering, reduce the economic loss of the intelligent control system, facilitate the development of industrial automation and improve the control safety of industrial automation; and when producing ageing signal feedback, the feedback contact can act on supplementary transfer lever 5, block and let in its inside electric current, make it convert the flexibility into from the rigidity, relieve its squeezing action to two-way control ring 8 for the pressure of regulation and control gas ring 7 and mountain type reinforcing bag 6 is alleviated, reduces the loss that lasts the butt between trigger head 3 and the response post 4, effectively avoids lasting of sensor body 1 impaired, protects sensor body 1.

The foregoing is only a preferred embodiment of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims (5)

1. The utility model provides a high stable formula intelligence control system that triggers, includes intelligent control processing unit, its characterized in that: the output end of the intelligent control processing unit is connected with a stable triggering unit, the stable triggering unit is electrically connected with a sensor body (1) through a wire, the sensor body (1) is connected with a triggering sliding sleeve (2) in a tin welding mode, the left inner wall of the triggering sliding sleeve (2) is fixedly connected with a triggering rod (21), the right inner wall of the triggering sliding sleeve (2) is fixedly connected with a sensing sleeve (22), the right end of the triggering rod (21) is provided with a triggering head (3), the left end of the sensing sleeve (22) is slidably connected with a sensing column (4) matched with the triggering head (3), a reinforcing cavity (221) positioned on the right side of the sensing column (4) is formed in the sensing sleeve (22), a mountain-shaped reinforcing bag (6) is fixedly connected with the right inner wall of the reinforcing cavity (221), and a regulating cavity (222) positioned on the outer side of the sensing column (4) is formed in the sensing sleeve (22), a regulation and control air ring (7) matched with the mountain-shaped reinforcing bag (6) is arranged in the regulation and control cavity (222), the left end of the trigger head (3) is fixedly connected with a trigger bottom plate (301), the right end of the trigger bottom plate (301) is fixedly connected with a plurality of auxiliary conversion rods (5) positioned on the outer side of the trigger head (3), and the auxiliary conversion rods (5) are matched with the regulation and control air ring (7);

the stable trigger unit comprises a stable trigger processing module, the input end of the stable trigger processing module is connected with a signal trigger module, the input end of the signal trigger module is electrically connected with the induction column (4) through a lead, the output end of the stable trigger processing module is connected with a trigger enhancement module, the output end of the trigger enhancement module is electrically connected with a trigger bottom plate (301) through a lead, the left end of the trigger bottom plate (301) is fixedly connected with a sensitive strip (302) extending to the inner side of the trigger rod (21), the left end of the sensitive strip (302) is fixedly connected with a sensitive trigger, the output end of the sensitive trigger is electrically connected with an induction transmission unit through a lead, and the output end of the induction transmission unit is connected with the input end of the intelligent control processing unit;

the left end of the regulation and control air ring (7) is fixedly connected with a bidirectional control ring (8), the bidirectional control ring (8) is in sliding connection with the regulation and control cavity (222), the right end of the regulation and control air ring (7) is fixedly connected with a contraction air pipe (701) communicated with the regulation and control air ring, the right end of the contraction air pipe (701) extends into the reinforcing cavity (221) and is communicated with the mountain-shaped reinforcing bag (6), a reset elastic part (702) is fixedly connected into the regulation and control air ring (7), and the reset elastic part (702) is normally opened when the sensor body (1) is not triggered;

the auxiliary conversion rod (5) comprises a flexible isolation sleeve, the right end of the trigger bottom plate (301) is fixedly connected with a plurality of flexible isolation sleeves, elastic force-bearing wires are fixedly connected in the flexible isolation sleeves, electrorheological fluid is filled in the flexible isolation sleeves, the left end of each flexible isolation sleeve is fixedly connected with a conducting sheet which is electrically connected with the trigger bottom plate (301), and the conducting sheet acts on the electrorheological fluid;

a pressure sensor is fixedly connected in the regulating gas ring (7), a feedback contact piece matched with the pressure sensor is fixedly connected at the right end of the bidirectional control ring (8), a triggering failure sensing module is further connected at the input end of the stable triggering processing module, the input end of the triggering failure sensing module is electrically connected with the feedback contact piece through a lead, the feedback contact piece forms a double-control switch assembly through the matching of the triggering failure sensing module, the stable triggering processing module and the triggering enhancement module and a conducting piece, and the auxiliary conversion rod (5) is controlled;

mountain type reinforcing bag (6) are including spilling over limit bag (61), reinforcing chamber (221) right side inner wall fixedly connected with regulation and control air ring (7) matched with spill over limit bag (61), spill over limit bag (61) left end fixedly connected with rather than millet type core bag (62) of putting through mutually, millet type core bag (62) left end fixedly connected with balance bottom plate (401), and balance bottom plate (401) left end and induction column (4) fixed connection.

2. The highly stable trigger-type intelligent control system according to claim 1, wherein: spill over a plurality of deformation of limit bag (61) internal fixation and involve strip (10), and deformation when sensor body (1) does not trigger the state involves strip (10) and is the normal contraction formula.

3. The high-stability trigger type intelligent control system according to claim 1, wherein: a flexible balance net sleeve (9) is filled between the valley type core bag (62) and the balance bottom plate (401), elastic beads (901) are arranged in the flexible balance net sleeve (9), a plurality of force bearing rods (902) are fixedly connected to the outer ends of the elastic beads (901), and one ends, far away from the elastic beads (901), of the force bearing rods (902) are fixedly connected with the flexible balance net sleeve (9).

4. The highly stable trigger-type intelligent control system according to claim 3, wherein: the input end of the stable triggering processing module is further connected with a balance induction module, a plurality of balance inductors are fixedly connected in the flexible balance net sleeve (9), and the input end of the balance induction module is electrically connected with the balance inductors through wires.

5. The highly stable trigger-type intelligent control system according to claim 1, wherein: set up in trigger bar (21) and trigger chamber (211), trigger bottom plate (301) are located trigger chamber (211) to with trigger chamber (211) sliding connection, trigger bar (21) right-hand member has been seted up and has been triggered hole (212) with trigger head (3) matched with, and trigger head (3) and trigger hole (212) sliding connection.

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