CN111443751B - Grating alternating current driving output circuit system - Google Patents

Abstract

The invention discloses a grating alternating current driving output circuit system which structurally comprises a voltage stabilizer shell, a main electrode, a circuit board, a coil, a rotor and a pasting device. Has the advantages that: the invention utilizes the string pasting mechanism to be beneficial to realizing compact fitting when the coil and the carbon brush are fitted under the mutual matching action of the corner pasting component and the shunt arc, thereby avoiding the phenomenon that the current is instantaneously larger and sparks are generated due to unsmooth coil surface, and meanwhile, when the current is larger, the shunt of the instantaneous current is realized through the matching of the shunt arc and the lead wire to enable the current to be in series flow.

Description

Grating alternating current driving output circuit system

Technical Field

The invention relates to the field of SMD (surface mounted device) chip type triode, in particular to a grating alternating current driving output circuit system.

Background

When the ac voltage is regulated and controlled, it is usually regulated by a voltage regulator, and when the ac voltage is regulated by a contact type triode ac voltage regulator, the following defects often occur:

when the contact type voltage stabilization is used, the phenomenon that current is increased instantaneously can be caused when the surface of the carbon brush slides due to the fact that the surface of the coil is not smooth, the whole equipment is broken down due to direct spark generation, the phenomenon that the carbon brush is separated from each other easily due to the fact that the surface of the carbon brush is not smooth when the carbon brush slides, and meanwhile, under the long-term contact type movement effect of the coil and the carbon brush, electrons which can be adhered to substances when the surface of the carbon brush runs inside a part are easily covered on the surface of the carbon brush or the surface of the carbon brush is covered by wet water vapor of a use environment, so that the phenomenon that heat dissipation is not timely or the surface of the coil is corroded occurs.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a grating alternating current driving output circuit system to solve the defects that the contact type voltage stabilization in the prior art often causes the phenomenon that the current is instantly increased when a carbon brush slides on the surface of a coil due to the unsmooth surface of the coil when in use, the whole equipment is in failure due to direct spark, the carbon brush is easy to separate from the carbon brush due to the unsmooth surface of the carbon brush when in sliding, and the surface of the coil and the carbon brush is easy to be covered by electrons which can be adhered to substances when parts run during the operation or the moisture of the part due to the humid use environment under the long-term contact type motion effect, so that the phenomenon that the surface of the coil is in time to dissipate heat or is corroded.

In order to achieve the purpose, the invention is realized by the following technical scheme:

a grating alternating current drive output circuit system structurally comprises a voltage stabilizer shell, a total electrode, a circuit board, coils, rotors and a splicing device, wherein the total electrode is arranged outside the voltage stabilizer shell and is connected with the voltage stabilizer shell through electric welding, the circuit board is provided with three circuit boards which are respectively arranged on the inner side wall of the voltage stabilizer shell in an even and equidistant manner and are connected with the voltage stabilizer shell through electric welding, the coils are provided with three circuit boards which are respectively arranged at the lower part in the voltage stabilizer shell corresponding to the circuit boards, the rotors are provided with three circuit boards which are arranged at the middle part in the coils, the splicing device is provided with three circuit boards which are respectively connected with the rotors through electric welding, the splicing device comprises a rotating sleeve, a movable rod, an ejector rod, a splicing mechanism and a smoothing structure, the rotating sleeve is connected with the rotors through nesting, the movable rod is connected with the rotating sleeve through electric welding, the ejector rod is arranged at the tail ends of the movable rods and is connected through electric welding, the string pasting mechanism is arranged at the tail end of the ejector rod and connected through electric welding, and the sliding structure is arranged at the upper part of the string pasting mechanism and connected through buckling.

As a further scheme of the invention, the string pasting mechanism comprises a buckle plate, a feeler lever, a carbon brush, a stabilizing plate, lead wires, a shunt arc and a corner pasting assembly, wherein the feeler lever is arranged on the surface of the buckle plate and is transversely connected through electric welding, the carbon brush is arranged on the middle surface of the buckle plate and is connected with a whole sliding structure through buckling, the stabilizing plate is connected with the carbon brush through sleeving, the lead wires are arranged in two numbers and are respectively arranged on the left side and the right side of the stabilizing plate, the shunt arc is arranged on the other side of the buckle plate and is connected through electric welding, the left end and the right end of the shunt arc are respectively connected with the stabilizing plate through the lead wires, the corner pasting assembly is provided with a plurality of lead wires which are respectively arranged on the outer surface of the shunt arc in a uniform and equidistant manner, the corner pasting assembly is connected with the shunt arc through electric welding, and is favorable for realizing that the instant larger current is caused by the unsmooth surface of a coil when the coil and the carbon brush are pasted, and a spark phenomenon is generated.

As a further scheme of the invention, the stabilizing plate is made of insulating materials and is compactly attached to the carbon brush, so that the phenomenon that the carbon brush generates friction sparks when the surface of the coil is unsmooth is avoided.

As a further scheme of the invention, the shunt arc surface is of a frosted structure, and the height of the shunt arc surface is flush with that of the carbon brush, so that the stable attachment of the carbon brush and the coil is favorably realized.

According to a further scheme of the invention, the corner pasting assembly comprises an adjusting button, a grinding strip and a pressing plate, one end of the grinding strip is connected with the adjusting button in a buckling mode, the other end of the grinding strip is attached to the outer side surface of the coil, the pressing plate is arranged at the other end of the adjusting button and connected in a buckling mode, and the other end of the pressing plate is connected with the shunt arc, so that the phenomenon of slipping and jumping of the carbon brush and the coil during attaching movement can be avoided.

As a further scheme of the invention, the whole sliding structure comprises a protection plate, a buckling sleeve, two air pasting plates, two extension plates, a confluence frame and an isolation assembly, wherein the buckling sleeve is arranged on the lower surface of the protection plate, the air pasting plates are arranged on the lower surface of the buckling sleeve and are connected with the carbon brush, the two extension plates are symmetrically arranged on the left side and the right side of the air pasting plates respectively, the confluence frame is arranged on the upper surface of the protection plate and is connected with the extension plates in a penetrating manner, and the isolation assembly is arranged in the middle of the confluence frame and is connected in a penetrating manner, so that the passive corrosion of the coil is favorably realized.

As a further scheme of the invention, the air flow in the confluence frame is of an adsorption structure, which is beneficial to absorbing water vapor and other impurities attached to the surface of the coil, and avoiding corrosion of the coil.

As a further scheme of the invention, the isolation assembly comprises an insulating air bag and six magnetic rods, wherein the six magnetic rods are uniformly and equidistantly arranged in the insulating air bag and are connected through gluing, so that the concentrated isolation treatment of water vapor and other impurities attached to the surface of the coil is favorably realized.

Advantageous effects of the invention

Compared with the traditional grating alternating current driving output circuit system, the invention has the following beneficial effects:

the invention utilizes the string pasting mechanism, under the mutual matching action of the corner pasting component and the shunt arc, the compact fitting of the coil and the carbon brush is favorably realized when the coil and the carbon brush are fitted, the phenomenon that the current is instantaneously larger and sparks are generated due to the unsmooth surface of the coil is avoided, and meanwhile, when the current is larger, the shunt of the instantaneous current is realized through the matching of the shunt arc and the lead wire to enable the instantaneous current to be in series flow.

The invention utilizes the arranged sliding structure to absorb and treat the water vapor and other impurities attached to the surface of the coil, thereby avoiding the phenomena of untimely heat dissipation and corrosion when the coil is operated due to the covering of the impurities.

Drawings

Other features, objects and advantages of the invention will become more apparent from a reading of the detailed description of non-limiting embodiments with reference to the attached drawings.

In the drawings:

fig. 1 is a schematic structural diagram of a grating ac driving output circuit system according to the present invention.

Fig. 2 is a schematic bottom view of the patch device of the present invention.

Fig. 3 is a schematic bottom view of the string attaching mechanism of the present invention.

Fig. 4 is a schematic front view of the corner fitting assembly of the present invention.

Fig. 5 is a schematic bottom view of the sliding mechanism of the present invention.

Fig. 6 is a schematic top view of the sliding mechanism of the present invention.

FIG. 7 is a schematic view of the internal structure of the isolation assembly of the present invention.

In the figure: the device comprises a voltage stabilizer shell-1, a total electrode-2, a circuit board-3, a coil-4, a rotor-5, a pasting device-6, a rotating sleeve-6 a, a movable rod-6 b, a push rod-6 c, a string pasting mechanism-6 d, a sliding structure-6 e, a buckle-6 d1, a contact rod-6 d2, a carbon brush-6 d3, a stabilizing plate-6 d4, a lead-6 d5, a shunt arc-6 d6, a corner pasting component-6 d7, an adjusting button-6 d71, a pasting abrasion strip-6 d72, a pressing plate-6 d73, a protection plate-6 e1, a buckling sleeve-6 e2, an air pasting plate-6 e3, an extension plate-6 e4, a bus frame-6 e5, an isolation component-6 e6, an insulating air bag-6 e61 and a magnetic rod-6 e 62.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

The first embodiment:

as shown in fig. 1 to 4, the present invention provides a technical solution of a grating ac driving output circuit system:

as shown in fig. 1-2, a grating ac driving output circuit system comprises a voltage regulator housing 1, a total electrode 2, a circuit board 3, coils 4, a rotor 5, and a patch device 6, wherein the total electrode 2 is installed outside the voltage regulator housing 1 and connected by electric welding, the circuit board 3 is provided with three and respectively installed on the inner side wall of the voltage regulator housing 1 in uniform and equidistant manner and connected by electric welding, the coils 4 are provided with three and respectively installed at the lower part of the voltage regulator housing 1 corresponding to the circuit board 3, the rotor 5 is provided with three and arranged at the middle part of the coil 4, the patch device 6 is provided with three and respectively connected with the rotor 5 by electric welding, the patch device 6 comprises a rotary sleeve 6a, a movable rod 6b, a top rod 6c, a string attaching mechanism 6d, and a smooth structure 6e, the rotary sleeve 6a is connected with the rotor 5 by nesting, the movable rod 6b is connected with the rotary sleeve 6a through electric welding, the ejector rod 6c is arranged at the tail end of the movable rod 6b and is connected through electric welding, the string pasting mechanism 6d is arranged at the tail end of the ejector rod 6c and is connected through electric welding, and the sliding structure 6e is arranged on the upper portion of the string pasting mechanism 6d and is connected through buckling.

As shown in fig. 3, the string pasting mechanism 6d includes a buckle plate 6d1, a feeler lever 6d2, a carbon brush 6d3, a stable plate 6d4, a lead wire 6d5, a shunt arc 6d6, and a corner pasting assembly 6d7, wherein the feeler lever 6d2 is disposed on the surface of the buckle plate 6d1 and is transversely connected by electric welding, the carbon brush 6d3 is disposed on the surface of the middle portion of the buckle plate 6d1 and is connected with the sliding integrating structure 6e by buckling, the stable plate 6d4 is connected with the carbon brush 6d3 by nesting, the lead wires 6d5 are provided with two and are respectively mounted on the left and right sides of the stable plate 6d4, the shunt arcs 6d6 are disposed on the other side of the buckle plate 6d1 and are connected by electric welding, the left and right ends of the shunt arc 6d6 are respectively connected with the stable plate 6d4 by the lead wire 6d5, the corner pasting assembly 6d7 is provided with a plurality of shunt arcs 6 in a uniform and equidistant manner, the shunt arc 7 d 6d6 is connected with the shunt arc assembly, when the coil 4 is attached to the carbon brush 6d3, the current is instantaneously high due to the unsmooth surface of the coil 4, and a spark phenomenon is generated.

As shown in fig. 3, the stabilizing plate 6d4 is made of an insulating material and is closely attached to the carbon brush 6d3, which is beneficial to preventing the friction spark of the carbon brush 6d3 when the surface of the coil 4 is not smooth.

As shown in fig. 3, the shunt arc 6d6 has a frosted surface and a height flush with the carbon brush 6d3, which is beneficial to achieve a stable fit between the carbon brush 6d3 and the coil.

As shown in fig. 4, the corner pasting component 6d7 includes an adjusting knob 6d71, a pasting abrasive strip 6d72 and a pressing plate 6d73, one end of the pasting abrasive strip 6d72 is connected with the adjusting knob 6d71 through a buckle, the other end of the pasting abrasive strip is attached to the outer side surface of the coil 4, the pressing plate 6d73 is arranged at the other end of the adjusting knob 6d71 and is connected through a buckle, the other end of the pressing plate 6d73 is connected with the shunt arc 6d6, and the sliding jump phenomenon between the carbon brush 6d3 and the coil 4 during the attaching movement is avoided.

In summary, the series connection mechanism 6d is arranged to realize series connection effect on a large instantaneous current, and simultaneously, the phenomenon that the carbon brush 6d3 is not tightly attached to the coil 4 is avoided.

The specific realization principle is as follows: when the contact type voltage stabilization is used, the phenomenon that current is increased instantaneously can be caused when the surface of the carbon brush slides due to the fact that the surface of the coil is not smooth, the whole equipment is broken down due to direct spark generation, and the phenomenon that the carbon brush is separated from the equipment easily due to the fact that the surface of the carbon brush is not smooth when the carbon brush slides is caused.

Therefore, the carbon brush 6d3 is compactly attached and fixedly installed by the aid of the fixing plate 6d4, and meanwhile, when the carbon brush 6d3 rotates integrally along with the sleeving of the rotating sleeve 6a and the rotor 5, the carbon brush slides on the upper surface of the coil 4, so that the phenomenon that the surface of the coil 4 jumps and separates due to unsmooth surface is avoided, meanwhile, the attaching grinding strip 6d72 is compactly attached to the outer side surface of the coil 4 under the adjusting action of the adjusting button 6d71, and contact between the carbon brush 6d3 and the coil is further enhanced.

When the coil 4 and the carbon brush 6d3 move and generate instantaneous large current, the current is in series flow under the structural installation of the lead wire 6d5 and the shunt arc 6d6, so that the instantaneous current flows in a plurality of strands, the current is shunted, and the spark phenomenon caused by excessive current is avoided.

This embodiment is in order to solve this contact steady voltage when using, often can appear because of the coil surface is not smooth, and the carbon brush when doing the slip on its surface, can produce the phenomenon that has the instantaneous increase of electric current, and directly produce the spark and lead to whole trouble of equipment, and the carbon brush is when sliding because the not smooth phenomenon that very easily forms mutual breaking away from on its surface, so utilize the string mechanism of subsides that is equipped with, under the mutually supporting effect of angle subassembly and reposition of redundant personnel arc, be favorable to realizing doing the compact laminating when laminating coil and carbon brush mutually, then avoid leading to the electric current to appear instantaneous great because of the coil surface is not smooth, and produce the spark phenomenon, at the same time when present electric current is great, realize making it be the streaming to the reposition of instantaneous electric current through the cooperation of reposition of redundant personnel arc and lead wire.

Second embodiment:

as shown in fig. 1, 2, 5, 6 and 7, the present invention provides a technical solution of a grating ac driving output circuit system:

as shown in fig. 1-2, a grating ac driving output circuit system comprises a voltage regulator housing 1, a total electrode 2, a circuit board 3, coils 4, a rotor 5, and a patch device 6, wherein the total electrode 2 is installed outside the voltage regulator housing 1 and connected by electric welding, the circuit board 3 is provided with three and respectively installed on the inner side wall of the voltage regulator housing 1 in uniform and equidistant manner and connected by electric welding, the coils 4 are provided with three and respectively installed at the lower part of the voltage regulator housing 1 corresponding to the circuit board 3, the rotor 5 is provided with three and arranged at the middle part of the coil 4, the patch device 6 is provided with three and respectively connected with the rotor 5 by electric welding, the patch device 6 comprises a rotary sleeve 6a, a movable rod 6b, a top rod 6c, a string attaching mechanism 6d, and a smooth structure 6e, the rotary sleeve 6a is connected with the rotor 5 by nesting, the movable rod 6b is connected with the rotary sleeve 6a through electric welding, the ejector rod 6c is arranged at the tail end of the movable rod 6b and is connected through electric welding, the string pasting mechanism 6d is arranged at the tail end of the ejector rod 6c and is connected through electric welding, and the sliding structure 6e is arranged on the upper portion of the string pasting mechanism 6d and is connected through buckling.

As shown in fig. 5-6, the sliding adjusting structure 6e includes a protection plate 6e1, a fastening sleeve 6e2, an air-attached plate 6e3, an extension plate 6e4, a bus frame 6e5, and an isolation assembly 6e6, the fastening sleeve 6e2 is disposed on the lower surface of the protection plate 6e1, the air-attached plate 6e3 is disposed on the lower surface of the fastening sleeve 6e2 and connected to the carbon brush 6d3, the extension plate 6e4 has two blocks and is symmetrically mounted on the left and right sides of the air-attached plate 6e3, the bus frame 6e5 is disposed on the upper surface of the protection plate 6e1 and connected to the extension plate 6e4 in a penetrating manner, and the isolation assembly 6e6 is disposed in the middle of the bus frame 6e5 and connected in a penetrating manner, so as to facilitate passive corrosion of the coil 4.

As shown in fig. 5, the air flow inside the collecting frame 6e5 is in an adsorption structure, which is beneficial to absorbing water vapor and other impurities attached to the surface of the coil 4, and avoiding corrosion of the coil 4.

As shown in fig. 7, the isolation assembly 6e6 includes an insulating air bag 6e61 and magnetic rods 6e62, wherein six magnetic rods 6e62 are provided, are respectively installed inside the insulating air bag 6e61 in a uniform and equidistant manner, and are connected by gluing, which is beneficial to implementing centralized isolation treatment of water vapor and other impurities attached to the surface of the coil 4.

In conclusion, the integral sliding structure 6e is arranged, so that impurities attached to the surface of the coil 4 are removed, and the phenomena that the surface of the coil 4 is not timely cooled and corroded due to the covering of the impurities are avoided.

The specific realization principle is as follows: under the action of long-term contact motion, the surfaces of the coil and the carbon brush are easily covered by electrons which can be adhered to substances when the parts run or moisture of the use environment, so that the phenomenon that the surface of the coil 4 is untimely in heat dissipation or corroded occurs.

Therefore, the integral sliding structure 6e is used for jointing the air pasting plate 6e3 with the upper surface of the carbon brush 6d3, and performing concentrated absorption treatment on impurities on the surface of the coil 4 at the position where the carbon brush 6d3 passes under the action of adsorbing airflow in the convergence frame 6e5 so as to avoid the corrosion phenomenon on the surface of the coil 4 caused by the attachment of the impurities, and meanwhile, the impurities which are absorbed in a concentrated manner and electrons of the attached substances are directly jointed with the magnetic rod 6e62 when entering the insulating air bag 6e61, thereby performing the isolation action.

This embodiment is in order to solve coil and carbon brush under long-term contact motion effect, its surface very easily covers the electron that can adhere to the material when having the operation in the part or because of the covering of its steam of service environment humidity, leads to the phenomenon that the coil surface appears the heat dissipation untimely or corrodes then, so utilize the whole smooth structure that is equipped with, do the absorption processing to the steam and other impurity that coil surface adheres to avoid because of the untimely and the production of corrosion phenomenon of heat dissipation when the current coil operation of the covering of this impurity.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (1)

1. A grating alternating current drive output circuit system is characterized in that: its structure includes stabiliser shell (1), total electrode (2), circuit board (3), coil (4), rotor (5), pastes device (6), its characterized in that: the total electrodes (2) are arranged outside the voltage stabilizer shell (1) and connected through electric welding, the circuit boards (3) are three in number and are respectively arranged on the inner side wall of the voltage stabilizer shell (1) in an even and equidistant mode and are connected through electric welding, the coils (4) are three in number and are respectively arranged at the lower part in the voltage stabilizer shell (1) corresponding to the circuit boards (3), the rotors (5) are three in number and are arranged at the middle parts in the coils (4), and the pasting devices (6) are three in number and are respectively connected with the rotors (5) through electric welding;

the sticking device (6) comprises a rotary sleeve (6a), a movable rod (6b), a push rod (6c), a string sticking mechanism (6d) and a sliding structure (6e), wherein the rotary sleeve (6a) is connected with a rotor (5) through sleeving, the movable rod (6b) is connected with the rotary sleeve (6a) through electric welding, the push rod (6c) is arranged at the tail end of the movable rod (6b) and is connected with the tail end of the push rod (6c) through electric welding, the string sticking mechanism (6d) is arranged at the tail end of the push rod (6c) and is connected with the push rod through electric welding, and the sliding structure (6e) is arranged at the upper part of the string sticking mechanism (6d) and is connected with the string sticking mechanism (6d) through buckling;

the string pasting mechanism (6d) comprises a buckle plate (6d1), a feeler lever (6d2), carbon brushes (6d3), a stabilizing plate (6d4), lead wires (6d5), shunt arcs (6d6) and corner pasting assemblies (6d7), wherein the feeler lever (6d2) is arranged on the surface of the buckle plate (6d1) and is transversely connected through electric welding, the carbon brushes (6d3) are arranged on the middle surface of the buckle plate (6d1) and are connected with the whole sliding structure (6e) through buckling, the stabilizing plate (6d4) is connected with the carbon brushes (6d3) through nesting, the lead wires (6d5) are provided with two shunt arcs (6d6) which are respectively arranged on the left side and the right side of the stabilizing plate (6d 84), the shunt arcs (6d6) are arranged on the other side of the carbon brushes (6d1) and are connected through electric welding, the left end and right end of the shunt arc (6d6) is respectively connected with the stabilizing plate (6d5) through the lead wires (6d) and are uniformly connected with the shunt arc assembly (5736 d7) through electric welding, the fillet assembly (6d7) is connected with the shunt arc (6d6) through electric welding;

the stabilizing plate (6d4) is made of insulating materials and is tightly attached to the carbon brush (6d 3);

the surface of the shunt arc (6d6) is of a frosted structure, and the height of the shunt arc is flush with that of the carbon brush (6d 3);

the corner pasting assembly (6d7) comprises an adjusting button (6d71), a grinding strip (6d72) and a pressing plate (6d73), one end of the grinding strip (6d72) is connected with the adjusting button (6d71) in a buckling mode, the other end of the grinding strip is attached to the outer side surface of the coil (4), the pressing plate (6d73) is arranged at the other end of the adjusting button (6d71) and connected with the other end of the pressing plate (6d73) in a buckling mode, and the other end of the pressing plate (6d73) is connected with a shunt arc (6d 6);

the sliding structure (6e) comprises a protection plate (6e1), a buckling sleeve (6e2), an air pasting plate (6e3), an extension plate (6e4), a converging frame (6e5) and an isolation assembly (6e6), wherein the buckling sleeve (6e2) is arranged on the lower surface of the protection plate (6e1), the air pasting plate (6e3) is arranged on the lower surface of the buckling sleeve (6e2) and is connected with a carbon brush (6d3), the extension plate (6e4) is provided with two blocks which are symmetrically arranged on the left side and the right side of the air pasting plate (6e3), the converging frame (6e5) is arranged on the upper surface of the protection plate (6e1) and is connected with the extension plate (6e4) in a penetrating manner, and the isolation assembly (6e6) is arranged in the middle of the converging frame (6e5) and is connected in a penetrating manner;

the air flow inside the confluence frame (6e5) is in an adsorption structure;

the isolation assembly (6e6) comprises an insulating air bag (6e61) and magnetic rods (6e62), wherein the magnetic rods (6e62) are provided with six magnetic rods which are uniformly and equidistantly arranged inside the insulating air bag (6e61) and connected through gluing.

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