CN111030387B - Speed regulator with thyristor electromagnetic propulsion elastic feedback for direct current generator - Google Patents
Speed regulator with thyristor electromagnetic propulsion elastic feedback for direct current generator Download PDFInfo
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- CN111030387B CN111030387B CN201911309072.3A CN201911309072A CN111030387B CN 111030387 B CN111030387 B CN 111030387B CN 201911309072 A CN201911309072 A CN 201911309072A CN 111030387 B CN111030387 B CN 111030387B
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K11/00—Structural association of dynamo-electric machines with electric components or with devices for shielding, monitoring or protection
- H02K11/30—Structural association with control circuits or drive circuits
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02P—CONTROL OR REGULATION OF ELECTRIC MOTORS, ELECTRIC GENERATORS OR DYNAMO-ELECTRIC CONVERTERS; CONTROLLING TRANSFORMERS, REACTORS OR CHOKE COILS
- H02P9/00—Arrangements for controlling electric generators for the purpose of obtaining a desired output
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Abstract
The invention discloses a speed regulator with thyristor electromagnetic propulsion elastic feedback for a direct current generator, which structurally comprises: the invention realizes the annular deceleration friction effect of the expansion branch point of the casing core of the air bag frame column cylinder in the turntable body by matching the crystal tube magnetic push disc groove with the torsion spring hanging cylinder and matching the steady-flow crystal brake tube hanging frame in the convex groove casing with the magnetic force regulation of the slide block bracket, and then the casing is contracted after the speed regulation is finished, the cuff shell is maintained and is wrapped by the short cylindrical groove, so that the stable rotation of the breakdown current is realized, the rotating speed overheating of the motor can be timely and synchronously matched with the operation for adjustment, the speed of the diagonal torque reaches the elastic feedback effect of the electromagnetic propulsion torsion spring hanging cylinder, and the rotation precision is more flexibly matched and the pressure surface is reduced than the rigid feedback, so that the speed regulation working stability of the direct-current generator and the flexibility of real-time matching of the elastic electromagnetic compression rod for regulation are guaranteed.
Description
Technical Field
The invention relates to a speed regulator with thyristor electromagnetic propulsion elastic feedback for a direct current generator, belonging to the field of speed regulators.
Background
The inner rotor shaft of direct current generator rotates and is the horizontal breakdown current guide gyration operation of winding the multi-ring coil, forms rapid diffusion to the electric heat among the power generation process, also lets the work progress and the electric current supply volume of generator form the change when the speed governing, conveniently allots the current voltage value that is fit for and carries out emergent power supply operation, and the public shortcoming of treating optimizing of prior art has:
the horizontal breakdown current of direct current generator often forms the stationary flow gyration along with the rotor coil, the bearing rim plate rigid feedback adjustment angular velocity to the pivot in the speed governing process, the annular dish that can cause tension bar and regulating gear is stopped coefficient of friction big, and the loss is serious, long-term shear speed governing back, the dish board of stopping loses toughness, can lead to motor shaft and speed governing bearing ring to form the speed governing phenomenon of skidding, make the tension bar speed governing out of order and cause the overheated gyration behavior of motor, influence the degree of heating of motor rotor coil, thereby cause the electric leakage hidden danger, also cause the untimely condition of causing the generator out of control of speed governing feedback.
Disclosure of Invention
Aiming at the defects in the prior art, the invention aims to provide a speed regulator with thyristor electromagnetic propulsion elastic feedback for a direct current generator, and aims to solve the problems that the transverse breakdown current of the direct current generator often forms steady-flow rotation along with a rotor coil, the annular disc brake friction coefficient of a tension rod and a speed regulating wheel is large and serious in loss due to the fact that the angular speed is regulated by rigid feedback to a bearing disc of a rotating shaft in the speed regulating process, and after long-term shear speed regulation, the disc brake plate loses toughness, so that a slip speed regulation phenomenon can be formed between a motor shaft and a speed regulating bearing ring, the motor overheating rotation working condition of the motor can be caused by the failure of the speed regulation of the tension rod, the heating degree of the rotor coil of the motor can be influenced, the leakage hidden danger can be caused, and the out-of-control.
In order to achieve the purpose, the invention is realized by the following technical scheme: a speed regulator with thyristor electromagnetic propulsion elastic feedback for a direct current generator structurally comprises: the device comprises a crystal tube magnetic push disc groove, a hanger folded plate, a cable, a clamp spring gasket, a torsional spring hanging cylinder, a shock-absorbing tube and a sudden brake lifting pressure plate, wherein the crystal tube magnetic push disc groove is tightly attached to the front side of the hanger folded plate and is positioned on the same vertical surface, the cable is inserted and embedded on the top of the crystal tube magnetic push disc groove, the torsional spring hanging cylinder is mechanically connected with the crystal tube magnetic push disc groove through the clamp spring gasket, the shock-absorbing tube is inserted and embedded at the upper right corner of the sudden brake lifting pressure plate and is positioned on the same vertical surface, the sudden brake lifting pressure plate is embedded and embedded on the front side of the clamp spring gasket, the clamp spring gasket is tightly attached to the front side of the bottom of the crystal tube magnetic push disc groove and is positioned on the same vertical surface, the crystal tube magnetic push disc groove is provided with a convex groove shell, a crystal tube hanging bracket, a magnetic brush frame ring, a ball bearing disc, a sliding block bracket, a spring column, a concave armature block and a lifting plate speed reducing seat, the hanging bracket is mechanically connected with the spring column through a concave armature, the sliding block support and the spring columns are respectively provided with two sliding block supports and two spring columns which are respectively inserted and embedded in the left side and the right side of the inside of the convex groove shell, the ball bearing disc is mechanically connected with the magnetic brush frame ring and the axes of the ball bearing disc are collinear, the ball bearing disc is arranged in the convex groove shell, the lifting plate speed reducing seat is mechanically connected with the ball bearing disc and is positioned on the same vertical surface, and the convex groove shell is tightly attached to the front side of the hanging rack folded plate and is positioned on the same vertical surface.
In order to optimize the technical scheme, the method further comprises the following steps:
as a further improvement of the invention, the thyristor hanger comprises a pin electrode plate, a wire tube silicon wafer, a thyristor body and a frame plate hanger, wherein the pin electrode plate is inserted at the bottom of the frame plate hanger, the wire tube silicon wafer is electrically connected with the thyristor body, the axes of the wire tube silicon wafer and the thyristor body are collinear, the thyristor body is arranged at the top of the frame plate hanger, and the pin electrode plate and the thyristor body are parallel to each other.
As a further improvement of the invention, the line tube silicon wafer comprises two slider seats, a bottom cushion plate, silicon wafer pin pieces and a line bow tube, wherein the two slider seats are respectively tightly attached to the upper side and the lower side of the bottom cushion plate, the bottom cushion plate is nested on the rear side of the silicon wafer pin pieces and is positioned on the same vertical surface, and the line bow tube is inserted in the silicon wafer pin pieces.
As a further improvement of the invention, the ball bearing disc comprises more than two roller bearing rings, an air bag frame column cylinder and a turntable body, wherein the air bag frame column cylinder is nested into a whole around the circle center of the turntable body, the axes of the air bag frame column cylinder are collinear, and the roller bearing rings are arranged inside the turntable body and are positioned on the same vertical surface.
As a further improvement of the invention, the air bag frame column cylinder consists of a double-balloon groove block, a short cylinder groove, a sleeve bag shell and an air delivery short pipe, wherein the double-balloon groove block is arranged in the sleeve bag shell, the axes of the double-balloon groove block and the sleeve bag shell are collinear, the sleeve bag shell and the short cylinder groove are movably connected, and the air delivery short pipe is inserted and embedded under the bottom of the sleeve bag shell and is communicated with each other.
As a further improvement of the invention, the slider bracket is composed of a track vertical rod and a magnetic core slider, the track vertical rod and the magnetic core slider are movably connected, the axes of the track vertical rod and the magnetic core slider are collinear, and the magnetic core slider is arranged on the front side of the track vertical rod and on the same vertical plane.
As a further improvement of the invention, the magnetic core sliding block consists of a toothed slot magnetic sheet plate, a square cover plate and a grid slot rubber cushion seat, the toothed slot magnetic sheet plate is inserted and embedded in the front side of the grid slot rubber cushion seat, and the square cover plate is embedded and embedded in the front side of the toothed slot magnetic sheet plate and is positioned on the same vertical surface.
As a further improvement of the invention, the lifting plate speed reducing seat consists of a semicircular lifting plate block, a spring plate base, a clamp spring bolt block and a coil magnetic seat, wherein the semicircular lifting plate block is mechanically connected with the spring plate base and is positioned on the same vertical surface, the spring plate base and the clamp spring bolt block are in interference fit, and the clamp spring bolt block is electrically connected with the coil magnetic seat.
As a further improvement of the invention, the semicircular lifting plate block consists of a convex pad strip arc plate, a rubber layer block, a semicircular plate groove and a spring wire gel pad, wherein the convex pad strip arc plate is tightly attached to the top surface of the rubber layer block and is positioned on the same arc surface, the rubber layer block is nested on the top of the semicircular plate groove and is positioned on the same vertical surface, and the spring wire gel pad is arranged inside the semicircular plate groove.
As a further improvement of the invention, the silicon wafer pin sheet is a silicon wafer plate structure with a short pole plate on the left side and a long pole plate on the right side and double pin sheets on both ends, so that the potentials on both sides are conveniently disconnected in the thyristor, and the opposite pole plates on the left side and the right side form transverse breakdown current to detect the speed regulation propulsion amount to achieve a feedback effect of potential elastic amplification.
As a further improvement of the invention, the double-balloon groove block is of a balloon groove structure with an upper balloon and a lower balloon and a narrow middle, so that the bottom balloon can be conveniently expanded to clamp the cylinder body, the top part of the double-balloon groove block can be continuously inflated to support the bearing ring surface, the annular multi-node speed reduction regulation friction effect is achieved, and the later speed regulation can be finished to retract the air bag to enter the cylinder for wrapping protection.
As a further improvement of the invention, the tooth space magnetic sheet plate is of a trapezoidal column block structure with triangular tooth space transverse attached magnetic sheets at the front side, so that electromagnetic fields are conveniently embedded and diffused, electromagnetic sheets with gradient layers can effectively suspend and contact a magnetic ring to form reverse magnetic attraction, and the high efficiency of homodromous speed regulation and lifting and reverse resistance deceleration is ensured.
As a further improvement of the invention, the spring wire gel pad is of a gel groove pad structure with four spring wires arranged in the gel groove pad structure, the left tip and the right tip are narrow, the middle is wide and thick, the pressing, sticking, wrapping and deformation of the upper cambered surface and the lower cambered surface are facilitated, the two-way acting force bearing coefficient of the middle spacing pad is improved, and the stability during longitudinal pushing emergency braking is ensured.
Advantageous effects
The invention relates to a speed regulator with thyristor electromagnetic propulsion elastic feedback for a direct current generator, wherein a worker presses a generator end cap against a hanger folded plate, butt joint and speed regulation control are carried out on a distribution box of the generator and a thyristor hanger of a thyristor magnetic pusher groove through a cable, then the distribution box of the generator and the thyristor hanger of the thyristor magnetic pusher groove are mutually hooked through a clamp spring gasket to form an up-and-down elastic vibration isolation effect, an emergency sudden stop equipment effect is formed when a sudden brake lifting plate lifts and presses a shock absorbing pipe, during the period, when a rotating shaft of a motor penetrates through a convex groove shell and enters the interiors of a magnetic brush frame ring and a ball bearing plate, shaft motion transmission enables a roller bearing ring to tightly sleeve a shaft rod of the motor to form a linkage effect, when transverse breakdown current of the generator is led into a turntable body through a coil of the rotating shaft, the transverse breakdown current is detected through a pin electrode plate of the thyristor hanger, and is fed back to a thyristor conducted work at the top of the thyristor body, the bow-shaped line pipe is matched with magnetic force to guide and form transverse circuit variable resistance regulation operation, so that the gas transmission short pipe of the air bag frame column cylinder receives electric signal deceleration operation, an air pump is called to inject gas into the double-ball-bag groove block, the expanded sleeve-bag shell is clamped in the short cylinder groove, meanwhile, the annular multi-node supports against the roller bearing ring to increase the friction coefficient so as to realize deceleration effect, the double-ball-bag groove block and the sleeve-bag shell are contracted after deceleration to enter the short cylinder groove anti-wrapping protection inner part, meanwhile, when the magnetic brush frame ring rotates, the tooth-groove magnetic sheet plate of the track vertical rod auxiliary magnetic core sliding block of the sliding block support is pressed against the grid groove rubber pad seat to be driven up and down along with an electromagnetic field, so that the square cover plate forms parallel lifting operation on the side of the spring column hung corresponding to the concave armature block, the concave armature block supplies power in real time to form a co-directional, the thyristor of the direct current generator is also guaranteed to detect the balanced propulsion effect, and the automatic activity of the motor is improved.
The invention has the following advantages after operation:
the application brilliant pipe magnetism pushes away the dish groove and cooperatees with the torsional spring hanging drum, through direct current generator gyration and give off horizontal breakdown current at ball bearing dish rear side, let the built-in stationary flow brilliant brake pipe gallows of tongue casing cooperate slider support magnetic force regulation and control magnetic brush frame ring variable speed rotary table body of shifting, form the cuffed shell core inflation branch point annular speed reduction friction effect of gasbag frame column casing in the rotary table body, then shrink the cover bag shell after the speed governing finishes, maintain the cover bag shell and wrap up through short column groove, realize the stable gyration of breakdown current, and motor speed is overheated can in time be adjusted in synchronous cooperation operation, the rate of angular torque reaches the elasticity feedback effect of electromagnetism propulsion torsional spring hanging drum, more dexterously cooperate the gyration precision and reduce the pressure surface than rigid feedback, guarantee direct current generator's speed governing job stabilization nature and the flexibility ratio of real-time collocation elasticity electromagnetism depression bar regulation.
Drawings
Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:
fig. 1 is a schematic structural diagram of a speed regulator with thyristor electromagnetic propulsion elastic feedback for a direct current generator according to the invention.
FIG. 2 is a detailed cross-sectional view of a magnetic chuck slot of a transistor according to the present invention.
Fig. 3 is a schematic cross-sectional view of the working states of the thyristor hanger, the ball bearing disk, the slider bracket and the lift plate reduction seat of the invention.
FIG. 4 is an enlarged cross-sectional view of the silicon wafer in the working state.
Fig. 5 is an enlarged cross-sectional structural view of the column of the airbag holder in the working state of the present invention.
Fig. 6 is a schematic perspective structural view of the magnetic core slider in an operating state according to the present invention.
Fig. 7 is a schematic view of the working state of the semicircular elevating plate block in a three-dimensional internal view structure.
Description of reference numerals: a crystal tube magnetic push disc groove-1, a hanging frame folded plate-2, a cable wire-3, a clamp spring gasket-4, a torsion spring hanging cylinder-5, a shock-absorbing tube-6, an emergency brake lifting pressure plate-7, a convex groove shell-1A, a thyristor hanging frame-1B, a magnetic brush frame ring-1C, a ball bearing disc-1D, a slider bracket-1E, a spring column-1F, a concave armature block-1G, a lifting plate deceleration seat-1H, a pin electrode plate-1B 1, a wire tube-1B 2, a crystal gate tube body-1B 3, a frame plate hanging frame-1B 4, a slider seat-1B 21, a bottom cushion plate-1B 22, a silicon pin electrode plate-1B 23, a bow line tube-1B 24, a bearing ring-1D 1, an air bag hanging cylinder-1D 2, a rotating disc body-1D 3, a convex groove-1B 23, a convex groove shell, a, The double-balloon groove block-1D 21, the short cylindrical groove-1D 22, the cuff shell-1D 23, the air transmission short pipe-1D 24, the track vertical rod-1E 1, the magnetic core sliding block-1E 2, the toothed groove magnetic sheet plate-1E 21, the square cover plate-1E 22, the grid groove rubber pad seat-1E 23, the semicircular lifting plate block-1H 1, the spring plate base-1H 2, the clamp spring pin block-1H 3, the coil magnetic seat-1H 4, the convex pad arc plate-1H 11, the rubber layer block-1H 12, the semicircular plate groove-1H 13 and the spring wire gel pad-1H 14.
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 is as follows:
referring to fig. 1-7, the present invention provides a speed regulator with thyristor electromagnetic propulsion elastic feedback for a dc generator, which comprises: the crystal tube magnetic pushing disc groove 1, the hanging rack folded plate 2, the cable 3, the clamp spring gasket 4, the torsion spring hanging cylinder 5, the shock-absorbing tube 6 and the emergency brake lifting pressing plate 7 are arranged, the crystal tube magnetic pushing disc groove 1 is tightly attached to the front side of the hanging rack folded plate 2 and is positioned on the same vertical surface, the cable 3 is inserted and embedded into the top of the crystal tube magnetic pushing disc groove 1, the torsion spring hanging cylinder 5 is mechanically connected with the crystal tube magnetic pushing disc groove 1 through the clamp spring gasket 4, the shock-absorbing tube 6 is inserted and embedded into the right upper corner of the emergency brake lifting pressing plate 7 and is positioned on the same vertical surface, the emergency brake lifting pressing plate 7 is embedded into the front side of the clamp spring gasket 4, the clamp spring gasket 4 is tightly attached to the front side of the bottom of the crystal tube magnetic pushing disc groove 1 and is positioned on the same vertical surface, the crystal tube magnetic pushing disc groove 1 is provided with a convex groove shell 1A, a thyristor hanging rack 1B, a magnetic brush frame ring 1C, a ball bearing disc 1D, Concave armature block 1G, lift board speed reduction seat 1H, thyristor gallows 1B inserts and inlays at the top of tongue casing 1A, slider support 1E is through concave armature block 1G and spring post 1F mechanical connection and parallel to each other, slider support 1E and spring post 1F all are equipped with two and insert the left and right sides of inlaying in tongue casing 1A inside respectively, ball bearing dish 1D and magnetic brush frame ring 1C mechanical connection and axle center collineation, ball bearing dish 1D is installed in tongue casing 1A's inside, it is connected and is in same vertical face with ball bearing dish 1D mechanical connection to lift board speed reduction seat 1H, tongue casing 1A hugs closely in the front side of stores pylon folded plate 2 and is in same vertical face.
Referring to fig. 3, the thyristor hanger 1B is composed of a pin electrode plate 1B1, a line silicon wafer 1B2, a thyristor body 1B3, and a frame plate hanger 1B4, the pin electrode plate 1B1 is inserted into the bottom of the frame plate hanger 1B4, the line silicon wafer 1B2 is electrically connected to the thyristor body 1B3 and has a collinear axis, the thyristor body 1B3 is mounted on the top of the frame plate hanger 1B4, the pin electrode plate 1B1 is parallel to the thyristor body 1B3, the ball bearing disk 1D is composed of a roller bearing ring 1D1, an airbag frame cylinder 1D2, and a turntable body 1D3, the airbag frame cylinder 1D2 is provided with two or more rings and is nested around the center of the turntable body 1D3 and has a collinear axis, the roller bearing ring 1D1 is mounted inside the turntable body 1D3 and is on the same vertical surface, the slider holder 1E is composed of a rail 1 and a collinear magnetic core 2, the track vertical rod 1E1 is movably connected with the magnetic core sliding block 1E2, the axes of the magnetic core sliding block 1E2 are collinear, the magnetic core sliding block 1E2 is installed on the front side of the track vertical rod 1E1 and is located on the same vertical surface, the breakdown current data is received on the top of the air bag frame column barrel 1D2 through the bobbin silicon wafer 1B2 in real time, the amplitude of the conveyed air flow is adjusted, and the magnetic core sliding block 1E2 is matched to form the working effect of combining magnetic guiding and starting deceleration.
Referring to FIG. 4, the conduit silicon wafer 1B2 is composed of a slider seat 1B21, a base plate 1B22, a silicon wafer lead plate 1B23, and a bow conduit 1B24, the two slide block seats 1B21 are respectively clung to the upper and lower sides of the bottom cushion plate 1B22, the base plate 1B22 is nested on the rear side of the silicon lead wafer 1B23 and is on the same vertical plane, the arched line tube 1B24 is inserted and embedded in the silicon crystal pin sheet 1B23, the silicon crystal pin sheet 1B23 is a silicon wafer plate structure with a short pole plate on the left side and a long pole plate on the right side and double pin sheets on both ends, which is convenient for the potentials on both sides to be disconnected in the thyristor, and the left and right opposite polar plates form transverse breakdown current to detect the speed regulation propulsion amount to achieve a feedback effect of potential elastic amplification, the silicon crystal pin sheet 1B23 is used for forming transverse power grid detection on the upper and lower breakdown currents introduced into the arched line tube 1B24, and the triggering speed regulation working effect of sliding variable resistance formed by the transverse movement of the inner core sheet of the thyristor is guaranteed.
Referring to fig. 5, the air bag frame column tube 1D2 is composed of a double-balloon groove block 1D21, a short tube groove 1D22, a cuff shell 1D23 and a short air delivery tube 1D24, the double-balloon groove block 1D21 is installed inside the cuff shell 1D23, the axes of the double-balloon groove block are collinear, the cuff shell 1D23 is movably connected with the short tube groove 1D22, the short air delivery tube 1D24 is inserted and embedded under the bottom of the cuff shell 1D23 and is communicated with each other, the double-balloon groove block 1D21 is a balloon groove structure with two balloons and a narrow middle, the top is continuously inflated and expanded to abut against the ring surface of the bearing after the bottom balloon is expanded to clamp the tube body, so as to achieve the effect of annular multi-node speed reduction and adjustment, the air flow can be retracted into the tube to wrap the air bag after the speed adjustment is completed, the double-balloon groove block 1D21 is used to clamp the bottom balloon groove 1D22 to make the top balloon contact with the ring surface, and ensure the increase the friction coefficient of the annular bearing to increase the axial motion, and annular speed reduction operation during speed regulation is achieved.
Referring to fig. 6, the magnetic core slider 1E2 is composed of a cogging magnetic sheet plate 1E21, a square cover plate 1E22, and a grid slot rubber cushion seat 1E23, the cogging magnetic sheet plate 1E21 is inserted and embedded in the front side of the grid slot rubber cushion seat 1E23, the square cover plate 1E22 is embedded in the front side of the cogging magnetic sheet plate 1E21 and is located on the same vertical plane, the cogging magnetic sheet plate 1E21 is a trapezoidal column block structure with triangular cogging transversely attached on the front side, so that an embedded electromagnetic sheet emitting electromagnetic field and gradient in layers can effectively suspend and contact a magnetic ring to form reverse magnetic attraction, the high efficiency of synchronous speed regulation and acceleration in the same direction and reverse resistance deceleration is ensured, the cogging magnetic sheet plate 1E21 presses and presses the grid slot rubber cushion seat 1E23 to form a concave cogging friction surface which is pressed and matched with the magnetic sheet to suck pressure to rotate the synchronous magnetic sheet forward, the shaft-driven to increase the speed, and the reverse interactive magnetic sheet is driven to reduce the shaft-driven to rotate speed, the stability of electromagnetic force elastic feedback speed regulation is guaranteed.
The working process is as follows: the working personnel presses the end cap of the generator against the hanger folded plate 2, the distribution box of the generator is in butt joint with the thyristor hanger 1B of the crystal tube magnetic push disc groove 1 for speed regulation control through the cable 3, the distribution box of the generator is hooked with the torsion spring hanging cylinder 5 through the clamp spring gasket 4 to form an up-and-down elastic vibration isolation effect, the emergency sudden stop equipment effect is formed when the sudden brake lifting plate 7 lifts and presses the shock absorbing tube 6, during the period, when the rotating shaft of the motor penetrates through the convex groove shell 1A to enter the magnetic brush frame ring 1C and the ball bearing disc 1D, the shaft motion transmission enables the roller bearing ring 1D1 to tightly sleeve the shaft rod of the motor to form a linkage effect, when the transverse breakdown current of the generator is led into the rotating disc body 1D3 through the coil of the rotating shaft, the detection is carried out through the pin electrode plate 1B1 of the crystal tube hanger 1B, the top of the frame plate hanger 1B4 is fed back to the crystal tube body 1B3 to conduct the silicon wafer 1B2 to work, so that the slider seat 1B21 drives the bottom, the bow-shaped line tube 1B24 is matched with magnetic force to guide and form transverse circuit variable resistance adjustment operation, so that an air transmission short tube 1D24 of an air bag frame column tube 1D2 receives electric signal deceleration operation, an air pump is called to pump air to enter a double-ball-bag groove block 1D21 expanded sleeve shell 1D23 to clamp a short column groove 1D22, meanwhile, annular multi-nodes abut against a roller bearing ring 1D1 to increase friction coefficient so as to realize deceleration effect, after deceleration, the double-ball-bag groove block 1D21 and the sleeve bag shell 1D23 enter a short column groove 1D22 to prevent from wrapping protection internal parts, meanwhile, when a magnetic brush frame ring 1C rotates, a track vertical rod 1E1 of a sliding block bracket 1E assists a magnetic core sliding block 1E2 magnetic sheet plate 1E21 of a magnetic core sliding block 1E2 to press a grid groove rubber pad seat 1E23 to be adhered to a vertical following transmission electromagnetic field, so that a square concave lifting block 1E22 forms a lifting operation which is parallel to a real-time concave type iron shield plate 1G to form a power supply and a reverse electromagnetic field to the sliding block lifting iron field, the stability of electromagnetic elastic feedback speed regulation is guaranteed, the thyristor detection balance propulsion effect of the direct-current generator is also guaranteed, and the automatic activity of the motor is improved.
Example two:
referring to fig. 1 to 7, the present invention provides a speed regulator with thyristor electromagnetic propulsion elastic feedback for a dc generator, which is otherwise the same as embodiment 1, except that:
referring to fig. 3, the lifting plate deceleration seat 1H is composed of a semicircular lifting plate block 1H1, a spring plate base 1H2, a snap spring latch block 1H3 and a coil magnetic seat 1H4, the semicircular lifting plate block 1H1 is mechanically connected with the spring plate base 1H2 and is located on the same vertical plane, the spring plate base 1H2 is in interference fit with the snap spring latch block 1H3, the snap spring latch block 1H3 is electrically connected with the coil magnetic seat 1H4, the snap spring latch block 1H3 is attracted and transversely moved by the magnetic force of the coil magnetic seat 1H4 on one side, so that a pin pulling operation is formed, the lifting type snap switch is triggered, and the spring plate base 1H2 elastically pushes the emergency stop generator rotating shaft to form an elastic wrapping regulation operation.
Referring to fig. 7, the semicircular lifting plate 1H1 is composed of a convex pad strip arc plate 1H11, a rubber layer block 1H12, a semicircular plate groove 1H13, and a spring wire gel pad 1H14, the convex pad strip arc plate 1H11 is tightly attached to the top surface of the rubber layer block 1H12 and is positioned on the same arc surface, the rubber layer block 1H12 is nested on top of the semicircular plate groove 1H13 and is on the same vertical plane, the spring wire gel pad 1H14 is arranged inside the semicircular plate groove 1H13, the spring wire gel pad 1H14 is of a gel groove pad structure with four spring wires arranged in the middle of the gel groove pad structure, the left tip and the right tip are narrow, the width of the middle of the gel groove pad structure is wide, the pressing and wrapping deformation of the upper cambered surface and the lower cambered surface are convenient, the two-way acting force bearing coefficient of the middle spacing pad is improved, and the stability during the longitudinal pushing emergency brake is ensured, the convex backing strip arc plate 1H11 is matched with the spring wire gel pad 1H14 to elastically wrap the shaft disc surface, so that the elastic feedback wrapping and clamping operation of the backing strip for speed reduction friction is formed, and the buffering effect of a flexible and lossless motor shaft is formed for emergency stop.
After the direct current generator plug equipment is used for carrying out rotary speed regulation electromagnetic work, the autonomous activity of the electromagnetic propulsion elastic feedback of the thyristor is ensured, the shaft motion protection effect of the generator is improved, when the power distribution of the equipment fails, the idle shaft motion internal heat condition of the generator can be formed, at the moment, the emergency power supply effect for the coil magnetic seat 1H4 of the lifting plate speed reducing seat 1H can be formed in a short time by reducing the pressure drop and emergency braking and lifting the pressing plate 7, the clamp spring plug block 1H3 is attracted by magnetic force to move transversely to remove the block of the spring plate base 1H2, the spring plate is rapidly pushed to the spring wire gel pad 1H14 of the semicircular lifting plate block 1H1, the superposition force of pushing up the four-position spring wire by the single spring wire drives the semicircular plate groove 1H13 to push the rubber layer block 1H12 and the convex pad arc plate 1H11 to wrap the bottom side of the rotary disc body 1D3 to form a clamping effect, the rotary shaft of the disc, the safety and stability of the speed regulator and the generator are also guaranteed.
The invention achieves the purposes that the crystal tube magnetic push disc groove 1 is matched with the torsion spring hanging cylinder 5, the crystal tube magnetic push disc groove 1 rotates at the rear side of the ball bearing disc 1D through the direct current generator and emits transverse breakdown current, the steady-flow crystal tube hanging frame 1B arranged in the convex groove shell 1A is matched with the slider bracket 1E to regulate the magnetic brush frame ring 1C gear-shifting speed-changing rotary disc body 1D3 in a magnetic force mode, the cuff shell 1D23 core expansion node-dividing annular deceleration friction effect of the air bag frame column tube 1D2 in the rotary disc body 1D3 is formed, then the cuff shell 1D23 is contracted after the speed regulation is finished, the cuff shell 1D23 is maintained and is wrapped through the short column groove 1D22, the stable rotation of the breakdown current is realized, the motor rotating speed overheating can be timely and synchronously matched with the operation for regulation, the speed of the angular torque reaches the elastic feedback effect of the electromagnetic push torsion spring hanging cylinder 5, and is matched with the rotation precision and the pressure surface reduction, guarantee DC generator's speed governing job stabilization nature and the flexibility ratio of real-time collocation elasticity electromagnetism depression bar regulation, solve DC generator's horizontal breakdown current and often form the stationary flow gyration along with the rotor coil with this, the bearing rim plate rigid feedback adjustment angular velocity of countershaft in the speed governing process, the annular dish that can cause tension bar and regulating wheel stops coefficient of friction big, and the loss is serious, long-term shear speed governing back, the dish board of stopping loses toughness, can lead to motor shaft and speed governing bearing ring to form the speed governing phenomenon of skidding, make the pull rod speed governing malfunction and cause the overheated gyration behavior of motor, influence the degree of heating of motor rotor coil, thereby cause the electric leakage hidden danger, also cause the untimely problem that causes the generator out of control's circumstances of speed governing feedback.
The specific embodiments described herein are merely illustrative of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims appended hereto.
Claims (1)
1. A speed regulator with thyristor electromagnetic propulsion elastic feedback for a direct current generator structurally comprises: wafer pipe magnetism pushes away set groove (1), stores pylon folded plate (2), cable conductor (3), jump ring gasket (4), a torsional spring hanging section of thick bamboo (5), shock tube (6), and the clamp plate (7) is lifted to emergency brake, its characterized in that:
the wafer tube magnetic push disc groove (1) is tightly attached to the front side of the hanger folded plate (2), the cable (3) is inserted and embedded on the top of the wafer tube magnetic push disc groove (1), the torsion spring hanging cylinder (5) is mechanically connected with the wafer tube magnetic push disc groove (1) through a clamp spring gasket (4), the shock-proof tube (6) is inserted and embedded in the upper right corner of the emergency brake lifting pressing plate (7), the emergency brake pressing plate (7) is embedded and embedded on the front side of the clamp spring gasket (4), and the clamp spring gasket (4) is tightly attached to the front side of the bottom of the wafer tube magnetic push disc groove (1);
the magnetic push disc groove (1) of the crystal tube is provided with a convex groove shell (1A), a crystal tube hanging bracket (1B), a magnetic brush frame ring (1C), a ball bearing disc (1D), a sliding block bracket (1E), a spring column (1F), a concave armature block (1G) and a lifting plate deceleration seat (1H);
the thyristor hanger (1B) is inserted and embedded at the top of the convex groove shell (1A), the slider support (1E) is mechanically connected with the spring column (1F) through the concave armature block (1G), the slider support (1E) and the spring column (1F) are both provided with two ball bearing disks (1D) and are respectively inserted and embedded at the left side and the right side of the inside of the convex groove shell (1A), the ball bearing disks (1D) are mechanically connected with the magnetic brush frame ring (1C), the ball bearing disks (1D) are arranged inside the convex groove shell (1A), the lifting plate deceleration seat (1H) is mechanically connected with the ball bearing disks (1D), and the convex groove shell (1A) is tightly attached to the front side of the hanger folded plate (2);
the thyristor hanger (1B) consists of a pin electrode plate (1B1), a wire tube silicon wafer (1B2), a thyristor body (1B3) and a frame plate hanger (1B4), wherein the pin electrode plate (1B1) is inserted and embedded at the bottom of the frame plate hanger (1B4), the wire tube silicon wafer (1B2) is electrically connected with the thyristor body (1B3), and the thyristor body (1B3) is installed at the top of the frame plate hanger (1B 4);
the line tube silicon wafer (1B2) comprises a slider seat (1B21), a bottom cushion plate (1B22), silicon wafer pin pieces (1B23) and a bow line tube (1B24), wherein the slider seat (1B21) is provided with two parts which are respectively clung to the upper side and the lower side of the bottom cushion plate (1B22), the bottom cushion plate (1B22) is nested at the rear side of the silicon wafer pin pieces (1B23), and the bow line tube (1B24) is nested in the silicon wafer pin pieces (1B 23);
the ball bearing disc (1D) is composed of a roller bearing ring (1D1), an air bag frame column tube (1D2) and a turnplate body (1D3), wherein more than two air bag frame column tubes (1D2) are arranged and are nested into a whole around the circle center of the turnplate body (1D3), and the roller bearing ring (1D1) is installed inside the turnplate body (1D 3);
the air bag frame column tube (1D2) consists of a double-balloon groove block (1D21), a short cylinder groove (1D22), a bag sleeving shell (1D23) and an air transmission short tube (1D24), wherein the double-balloon groove block (1D21) is installed inside the bag sleeving shell (1D23), the bag sleeving shell (1D23) is movably connected with the short cylinder groove (1D22), and the air transmission short tube (1D24) is inserted and embedded under the bottom of the bag sleeving shell (1D 23);
the magnetic core slider is characterized in that the slider bracket (1E) is composed of a track upright rod (1E1) and a magnetic core slider (1E2), the track upright rod (1E1) is movably connected with the magnetic core slider (1E2), and the magnetic core slider (1E2) is installed on the front side of the track upright rod (1E 1);
the magnetic core sliding block (1E2) is composed of a toothed slot magnetic sheet plate (1E21), a square cover plate (1E22) and a grid slot rubber pad seat (1E23), the toothed slot magnetic sheet plate (1E21) is inserted and embedded in the front side of the grid slot rubber pad seat (1E23), and the square cover plate (1E22) is embedded in the front side of the toothed slot magnetic sheet plate (1E 21);
the lifting plate speed reducing seat (1H) consists of a semicircular lifting plate block (1H1), a spring plate base (1H2), a clamp spring latch block (1H3) and a coil magnetic seat (1H4), wherein the semicircular lifting plate block (1H1) is mechanically connected with the spring plate base (1H2), the spring plate base (1H2) is matched with the clamp spring latch block (1H3), and the clamp spring latch block (1H3) is electrically connected with the coil magnetic seat (1H 4); the semicircular lifting plate block (1H1) is composed of a convex pad strip arc plate (1H11), a rubber layer block (1H12), a semicircular plate groove (1H13) and a spring wire gel pad (1H14), wherein the convex pad strip arc plate (1H11) is tightly attached to the top surface of the rubber layer block (1H12), the rubber layer block (1H12) is nested on the top of the semicircular plate groove (1H13), and the spring wire gel pad (1H14) is installed inside the semicircular plate groove (1H 13).
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CN201911309072.3A CN111030387B (en) | 2019-12-18 | 2019-12-18 | Speed regulator with thyristor electromagnetic propulsion elastic feedback for direct current generator |
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CN201911309072.3A CN111030387B (en) | 2019-12-18 | 2019-12-18 | Speed regulator with thyristor electromagnetic propulsion elastic feedback for direct current generator |
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CN111030387B true CN111030387B (en) | 2020-12-08 |
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