CN109358242A - A kind of power transmission and transformation system equipment state simulator - Google Patents
A kind of power transmission and transformation system equipment state simulator Download PDFInfo
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- CN109358242A CN109358242A CN201811133221.0A CN201811133221A CN109358242A CN 109358242 A CN109358242 A CN 109358242A CN 201811133221 A CN201811133221 A CN 201811133221A CN 109358242 A CN109358242 A CN 109358242A
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01R—MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
- G01R31/00—Arrangements for testing electric properties; Arrangements for locating electric faults; Arrangements for electrical testing characterised by what is being tested not provided for elsewhere
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Abstract
The invention discloses a kind of power transmission and transformation system equipment state simulators, it include: dynamic simulation treatment box and the electronic display being mounted on dynamic simulation treatment box, control panel, heat sink, installs case, electric power storage adjusting resistance value case and wind-force shaft, wind-force shaft upper end is equipped with rotary fan, and the electric power storage adjusts resistance value case and includes shell and be mounted on the intracorporal power supply regulating device of shell, transmission mechanism, arrestment mechanism, elevating mechanism, attachment device, rotating mechanism and wind power generation plant.The device is whole device energy supply by wind power generation plant, drives transmission mechanism to influence the state of power supply regulating device by first motor brake apparatus, artificial circuit can be adjusted with actual conditions;The state of elevating mechanism is driven by the transmission of rotating mechanism, can protective device do not received the influence of big wind-force, can be well solved using this device using region problem, improve convenience, reduce the cost of overhaul.
Description
Technical field
The present invention relates to transformer substation system equipment state simulation technical fields, more particularly to a kind of power transmission and transformation system equipment shape
State simulator.
Background technique
Power transmission and transforming equipment is very important equipment in electric system, and operating status directly affects the safety of system.
For a long time, to ensure safe operation of power system, power industry is always according to the regulation of power equipment preventive trial regulation
Regularly have a power failure test, maintenance and maintenance are carried out to power transmission and transforming equipment, i.e., expired according to the test period of prerun regulation defined
It is required, without consider equipment actual operating state, therefore tool bear the character of much blindness with it is mandatory, it is unnecessary not only to cause
The waste of loss of outage and human and material resources, financial resources will affect set instead and since the quality of service personnel is irregular
Standby reliability of operation.Therefore monitored on-line in real time there is an urgent need to the operating status to power transmission and transforming equipment or timing
Line detection.For this purpose, power transmission and transformation system equipment state simulator comes into being, the arrangement achieves to power transmission and transformation equipment operation shape
Condition carries out inline diagnosis, makes electric system from preventative maintenance step transition to the pre-emptive maintenace stage.But it is existing defeated
Transformer substation system equipment state simulator has the disadvantages that
In remote districts, the unstability of electric system or due to can not powering etc., live inspection cannot be carried out in time
It repairs, therefore limits its application.
Summary of the invention
In view of the deficienciess of the prior art, the present invention provides a kind of power transmission and transformation system equipment state simulator.
For this purpose, technical scheme is as follows:
A kind of power transmission and transformation system equipment state simulator, comprising: dynamic simulation treatment box (5) and be mounted on dynamic simulation
Electronic display (3), control panel (4), heat sink (6), installs case (7), electric power storage on treatment box (5) adjust resistance value case (8)
With wind-force shaft (9), wind-force shaft (9) upper end is equipped with rotary fan (10), and the dynamic simulation treatment box (5) can with one
The upper encloser (1) of disassembly, the electronic display (3) and control panel (4) insertion are being mounted on dynamic simulation treatment box (5) just
Surface, electronic display (3) are electrically connected with control panel (4);Heat sink (6 removably insertion be mounted on dynamic simulation processing
The right side of case (5);The lower end of the wind-force shaft (9) is mounted on the electric power storage and adjusts in resistance value case (8), and the rotation is installed in upper end
Turn flabellum (10);The installs case (7) and electric power storage adjust resistance value case (8) adjacent right side for being mounted on dynamic simulation treatment box (5)
Top;The electric power storage adjusts resistance value case (8) and includes shell (801) and be mounted on the intracorporal power supply regulating device (802) of shell, pass
Motivation structure (803), arrestment mechanism (804), elevating mechanism (805), attachment device (806), rotating mechanism (807) and wind-power electricity generation
Device (808), power supply regulating device (802) are used for the power device to the power transmission and transformation system equipment state simulator
It powers and adjusts supply voltage;The transmission mechanism (803) is used to adjust the resistance of power supply regulating device (802);The braking
Mechanism (804) is used to control the movement of the transmission mechanism (803);The elevating mechanism (805) turns for adjusting the wind-force
Axis (9) stretches out in the electric power storage and adjusts the height of resistance value case (8) outside;The attachment device (806) connects the wind-power electricity generation dress
(808) and the power supply regulating device (802) are set, the electrical energy transportation for generating the wind power generation plant (808) to institute
State power supply regulating device (802);The rotating mechanism (807) is used to rise or fall for the elevating mechanism (805) offer dynamic
Power.
Specifically, the power supply regulating device (802) includes resistance value mounting post (8021), resistance coil (8022), slides
Piece (8023), fixed connecting rod (8024), conductive column (8025), battery (8026), battery mounting plate (8027).The resistance
Resistance coil (8022) are wound in value mounting post (8021);The upper end and the resistance coil (8022) of the slide plate (8023)
Sliding contact, for adjusting resistance value, the lower end of slide plate (8023) is slideably sleeved on the fixed connecting rod (8024), institute
The one end for stating conductive column (8025) is connect with the battery (8026), and the other end and the fixed connecting rod (8024) cooperation connect
It connects;The battery is mounted on mounting plate (8027).
The transmission mechanism (803) is matched including installation slide plate (8031), chain slide block (8032), chain (8033), chain
Gear (8034), transmission wheel disc (8035) and driving belt (8036) are closed, one end of installation slide plate (8031) passes through described
Chain slide block (8032) is connect with chain (8033), and the other end is connect with the slide plate (8023);The chain slide block (8032)
Insertion is mounted on the chain (8033);The chain interoperation gear (8034) is arranged at intervals with two, the chain
(8033) it is annular, is respectively engaged with a chain interoperation gear (8034) on the inside of both ends, close to the mounting post (8021)
The chain interoperation gear (8034) of side is sequentially connected by the driving belt (8036) and the transmission wheel disc (8035);Institute
It states transmission wheel disc (8035) and arrestment mechanism (804) is cooperatively connected.
The arrestment mechanism (804) includes brake silpper (8041), single slot oscillating rod (8042), the tapered gear set of braking
(8043), shaft (8044), braking worm screw (8045), first motor (8046), worm screw mate gear (8047), braking skin are braked
Band (8048), braking wheel disc (8049), activity point of view column (80410), the tapered gear set (8043) of braking include two and hang down
Straight and engagement angular wheel, wherein the bottom end of horizontally disposed angular wheel and the braking worm screw (8045) being vertically arranged
It is fixedly connected, vertically disposed angular wheel is connected by the braking shaft (8044) and the first motor (8046) transmission
It connects, the right end of the first motor (8046) and rotating mechanism (807) are mechanically connected;It is described braking worm screw (8045) top with
One mounting base (8012) is rotatably attached, and the mounting base 8012 is packed in shell (801);The worm screw mate gear
(8047) setting is engaged in the braking worm screw (8045) side and with braking worm screw (8045), and worm screw mate gear (8047) is logical
Braking belt (8048) is crossed to connect with the rotating shaft transmission for braking wheel disc (8049);One end of the brake silpper (8041) and
One end of activity point of view column (80410) is fixedly connected with the shaft of braking wheel disc (8049), the brake silpper (8041)
The other end and the bar portion of single slot oscillating rod (8042) are slidably connected, the other end of the activity point of view column (80410) and institute
The bar portion for stating single slot oscillating rod (8042) is flexibly connected with the junction of groove portion;In the disk side of transmission wheel disc (8035)
It is provided with a connecting column, the groove portion of the list slot oscillating rod (8042) is sleeved on the connecting column, for driving the transmission
Wheel disc (8035) rotation.
The elevating mechanism (805) includes lifting frid (8051), adjustable plate (8052), adjusting rod (8053), regulating wheel
Disk (8054), connection belt (8055), mechanical braking gear (8056) and cooperative mechanical gear (8057), the adjustable plate
(8052) can be rotated about its center axis, the adjusting wheel disc (8054), mechanical braking gear (8056) and cooperative mechanical tooth
Wheel (8057) is rotatably installed in shell (801);The lifting frid (8051) is horizontally disposed and by the rotating mechanism
(807) rotation support;One end of the adjustable plate (8052) and one end of the adjusting rod (8053) are hinged, and other end activity is set
It sets in the level trough of lifting frid (8051), the other end of the adjusting rod (8053) and the adjusting wheel disc (8054)
Disk side it is hinged;The adjusting wheel disc (8054) passes through the connection belt (8055) and the mechanical braking gear
(8056) it is sequentially connected;The cooperative mechanical gear (8057) and Synchronous Transmission mechanical braking gear (8056) synchronous rotary, and
The two is located at the two sides of a sawtooth elevating lever (8014), and engages with the sawtooth elevating lever (8014), in sawtooth elevating lever
(8014) top is equipped with a cage (8013).
The attachment device (806) includes spring (8061), spring mounting post (8062), movable pulley (8063), conducting wire
(8064), rail rods (8065) and transmitting box (8066), the spring (8061) are set on the spring mounting post (8062),
The lower end of spring (8061) is connect with the bottom of the spring mounting post (8062), the side of upper end and the movable pulley (8063)
Connection;Movable pulley (8063) can be slided up and down along the rail rods (8065);One end of the conducting wire (8064) and the biography
Pass box (8066) conductive connection, the transmitting box (8066) be mounted on battery mounting plate (8027) and with the battery
(8026) be conductively connected, the conducting wire (8064) down around the movable pulley (8063) afterwards with the wind power generation plant
(808) it is conductively connected.
The rotating mechanism (807) includes the second motor (8070), rotary shaft (8071), gear pair (8072), connecting rod
(8073), built-in rotation gear set (8074), semicircle gullet plate (8075), mounting post (8076) and cooperation Saw blade (8077),
The cooperation Saw blade (8077) is vertically arranged, and the lifting frid (8051) is mounted on its top;The built-in rotation gear
Group (8074) is identical, horizontal by 3 sizes to be fixedly mounted with and successively meshed gears forms, and is located at the cooperation Saw blade (8077)
Rear;The semicircle gullet plate (8075) is provided with 2, respectively in the built-in rotation gear set (8074) be located at two sides
Two gears be co-axially mounted and be located at the two sides of cooperation Saw blade (8077), and in the connecting rod (8073) and built-in rotation
It is alternately engaged under the action of rotating disk group (8074) with the cooperation Saw blade (8077);One end of the rotary shaft (8071) with
The output axis connection of second motor (8070), the other end and the gear pair (8072) are sequentially connected;The connecting rod (8073)
One end bias is connected on the driven gear in the gear pair (8072), the other end and semicircle gullet plate adjacent thereto
(8075) eccentric connection.
The wind power generation plant (808) is mounted in the cage (8013), and including collector ring (8081), spherical surface
Roller (8082), transmission shaft (8083), permanent-magnet stator (8084), bearing inner race (8085), rotor (8086) and stator winding
(8087), the collector ring (8081) connect with the rotor (8086);The transmission shaft (8083) passes through bearing inner race
(8085) it is cooperatively connected with spherical roller (8082);The inside of the permanent-magnet stator (8084) is equipped with stator winding (8087).
Power transmission and transformation system equipment state simulator of the invention can be mentioned by wind power generation plant for whole device
For electric energy, use is not limited solely to interior, it is only necessary to which installing simulation site sensor in the entire power system passes through first
Dynamic braking device drives transmission mechanism to influence the state of power supply regulating device, can be as actual conditions are to artificial circuit
It is adjusted.The problem of capable of being well solved using the device using region is improved convenience and reduces the cost of overhaul,
And have more practicability.
It, can be imitative in certain distance due to being equipped with simulated sensor in each course of work of electric system
By its working condition of corresponding device reaction in true treatment box, so as to simulate electric system by dynamic simulation treatment box,
By the adjusting of data processing and control panel, the case where can show that artificial circuit on the electronic display screen, from without
It manually to go detection that can obtain testing result on dynamic simulation treatment box, determine not needing to repair with this.
By the drive of rotary fan, by the rotary motion of transmission shaft, spherical roller and rotor, due to electromagnetic induction original
Reason generates induced current by conducting wire there are in battery, by the control and gear pair, connecting rod for the second motor and matches
The mating reaction of Saw blade is closed, realizes the lifting for going up and down frid, to pass through adjustable plate, adjusting rod and the biography for connecting belt
It is dynamic, the lifting of the flabellum of wind-power electricity generation has further been driven by sawtooth elevating lever, can adjust in this way the efficiency of wind-power electricity generation with
And protection of the realization for device.
On the other hand, by the way that under the transmitting effect of braking shaft, braking worm screw and braking belt, braking wheel disc starts to revolve
Turn, by brake silpper, single slot oscillating rod and is driven under the connection relationship of wheel disc, the transmission of entire chain has been driven, in chain
Under the cooperation of sliding block and installation slide plate, it can make in artificial circuit, circuit resistance value can be as slide plate be on resistance coil
It slides and changes, play the role of a protection simulation circuit, can adjust resistance value when detection is gone wrong and be calculated.
Detailed description of the invention
Fig. 1 is the schematic perspective view of power transmission and transformation system equipment state simulator of the invention;
Fig. 2 is the schematic diagram of the section structure of dynamic simulation treatment box in the present invention;
Fig. 3 is the schematic diagram of the section structure of dynamic simulation treatment box use state in the display present invention;
Fig. 4 is the partial enlarged view of Fig. 3;
Fig. 5 is the partial profile structure of dynamic simulation treatment box in the present invention;
In figure: upper encloser -1, bolt -2, electronic display -3, control panel -4, dynamic simulation treatment box -5, heat sink -
6, installs case -7, electric power storage adjust resistance value case -8, wind-force shaft -9, rotary fan -10, shell -801, power supply regulating device -802,
Transmission mechanism -803, arrestment mechanism -804, elevating mechanism -805, attachment device -806, rotating mechanism -807, wind-power electricity generation dress
Set -808, protection shell -801, mounting base -8012, cage -8013, sawtooth elevating lever -8014, rail plate -8015, resistance value peace
It fills column -8021, resistance coil -8022, slide plate -8023, fixed connecting rod -8024, conductive column -8025, battery -8026, store
Battery mounting plate -8027, installation slide plate -8031, chain slide block -8032, chain -8033, chain interoperation gear -8034, transmission
Wheel disc -8035, driving belt -8036, brake silpper -8041, single slot oscillating rod -8042, the tapered gear set -8043 of braking, system
Turn axis -8044, braking worm screw -8045, first motor -8046, worm screw mate gear -8047, braking belt -8048, braking
Wheel disc -8049, lifting frid -8051, adjustable plate -8052, adjusting rod -8053, adjusts wheel disc-at activity point of view column -80410
8054, belt -8055, mechanical braking gear -8056, cooperative mechanical gear -8057, spring -8061, spring mounting post-are connected
8062, movable pulley -8063, conducting wire -8064, rail rods -8065, transmitting box -8066, the second motor -8070, rotary shaft -8071,
Gear pair -8072, connecting rod -8073, built-in rotation gear set -8074, semicircle gullet plate -8075, mounting post -8076, cooperation saw
Rack gear -8077, collector ring -8081, spherical roller -8082, transmission shaft -8083, permanent-magnet stator -8084, bearing inner race -8085,
Rotor -8086, stator winding -8087.
Specific embodiment
Technical solution of the present invention is further illustrated with reference to the accompanying drawings and detailed description.
Referring to Fig. 1-Fig. 5, power transmission and transformation system equipment state simulator of the invention include: dynamic simulation treatment box 5 and
Electronic display 3, control panel 4, heat sink 6, the installs case 7, electric power storage adjusting resistance value case being mounted on dynamic simulation treatment box 5
8 and wind-force shaft 9,9 upper end of wind-force shaft is equipped with rotary fan 10, and the dynamic simulation treatment box 5 has one dismountable
Upper encloser 1, the electronic display 3 and control panel 4 are embedded in the front surface for being mounted on dynamic simulation treatment box 5, electronical display
Screen 3 is electrically connected with control panel 4;Heat sink 6 is removably embedded in the right side for being mounted on dynamic simulation treatment box 5;The wind-force
The lower end of shaft 9 is mounted on the electric power storage and adjusts in resistance value case 8, and the rotary fan 10 is installed in upper end;The installs case 7 and storage
Electricity adjusts the adjacent right upper portion for being mounted on dynamic simulation treatment box 5 of resistance value case 8;It includes shell that the electric power storage, which adjusts resistance value case 8,
Body 801 and be mounted on the intracorporal power supply regulating device 802 of shell, transmission mechanism 803, arrestment mechanism 804, elevating mechanism 805, connection
Device 806, rotating mechanism 807 and wind power generation plant 808, the power supply regulating device 802 are used for the power transmission and transformation system
The power device of equipment state simulator powers and adjusts supply voltage;The transmission mechanism 803 is adjusted for adjusting power supply
The resistance of device 802;The arrestment mechanism 804 is used to control the movement of the transmission mechanism 803;The elevating mechanism 805 is used
The height outside the electric power storage adjusting resistance value case 8 is stretched out in the adjusting wind-force shaft 9;The attachment device 806 connects described
Wind power generation plant 808 and the power supply regulating device 802, the electrical energy transportation for generating the wind power generation plant 808
To the power supply regulating device 802;The rotating mechanism 807, which is used to provide for the elevating mechanism 805, rises or falls power.
Specifically, the power supply regulating device 802 includes: resistance value mounting post 8021, resistance coil 8022, slide plate
8023, fixed connecting rod 8024, conductive column 8025, battery 8026, battery mounting plate 8027.The resistance value mounting post 8021
On be wound with resistance coil 8022;The upper end of the slide plate 8023 and 8022 sliding contact of resistance coil, for adjusting resistance
Value, the lower end of slide plate 8023 are slideably sleeved on the fixed connecting rod 8024, one end of the conductive column 8025 and institute
The connection of battery 8026 is stated, the other end and the fixed connecting rod 8024 are cooperatively connected;The battery is mounted on mounting plate
On 8027.
The transmission mechanism 803 includes: installation slide plate 8031, chain slide block 8032, chain 8033, chain interoperation gear
8034, be driven wheel disc 8035 and driving belt 8036, one end of the installation slide plate 8031 by the chain slide block 8032 with
Chain 8033 connects, and the other end is connect with the slide plate 8023;The insertion of chain slide block 8032 is mounted on the chain 8033
On;The chain interoperation gear 8034 is arranged at intervals with two, and the chain 8033 is annular, and both ends inside is respectively and described in one
Chain interoperation gear 8034 engages, and the chain interoperation gear 8034 close to 8021 side of mounting post passes through the driving belt
8036 are sequentially connected with the transmission wheel disc 8035;The transmission wheel disc 8035 is cooperatively connected with arrestment mechanism 804.
The arrestment mechanism 804 includes: brake silpper 8041, single slot oscillating rod 8042, the tapered gear set 8043 of braking, system
Turn axis 8044, braking worm screw 8045, first motor 8046, worm screw mate gear 8047, braking belt 8048, braking wheel disc
8049, activity point of view column 80410, the tapered gear set 8043 of braking include two vertical and engagement angular wheels, wherein
Horizontally disposed angular wheel is fixedly connected with the bottom end for the braking worm screw 8045 being vertically arranged, vertically disposed conical tooth
Wheel is sequentially connected by the braking shaft 8044 with the first motor 8046.The top of the braking worm screw 8045 and a peace
Dress seat 8012 is rotatably attached, and the mounting base 8012 is packed in shell 801;The setting of worm screw mate gear 8047 exists
8045 side of braking worm screw and with braking worm screw 8045 engage, worm screw mate gear 8047 pass through the braking belt 8048
It is connect with the rotating shaft transmission of braking wheel disc 8049;One end of the brake silpper 8041 and one end of activity point of view column 80410 are equal
It is fixedly connected with the shaft of braking wheel disc 8049, the bar of the other end of the brake silpper 8041 and single slot oscillating rod 8042
Portion is slidably connected, the connection of the bar portion and groove portion of the other end of the activity point of view column 80410 and single slot oscillating rod 8042
Place is flexibly connected;The disk side of the transmission wheel disc 8035 is provided with a connecting column, the slot of the list slot oscillating rod 8042
Portion is sleeved on the connecting column, for driving the transmission wheel disc 8035 to rotate.
The elevating mechanism 805 include: lifting frid 8051, adjustable plate 8052, adjusting rod 8053, adjust wheel disc 8054,
Connect belt 8055, mechanical braking gear 8056 and cooperative mechanical gear 8057, the adjustable plate 8052 can be around its center
Axis rotation, the adjusting wheel disc 8054, mechanical braking gear 8056 and cooperative mechanical gear 8057 are rotatably installed in shell
In 801;The lifting frid 8051 is horizontally disposed and rotates support by the rotating mechanism 807;The one of the adjustable plate 8052
End is hinged with one end of the adjusting rod 8053, and the other end is movably arranged in the level trough of the lifting frid 8051, described
The other end of adjusting rod 8053 and the disk side for adjusting wheel disc 8054 are hinged;The adjusting wheel disc 8054 passes through the company
Lace 8055 and the mechanical braking gear 8056 are sequentially connected;The cooperative mechanical gear 8057 and Synchronous Transmission machinery system
8056 synchronous rotary of moving gear, and the two is located at the two sides of a sawtooth elevating lever 8014, and with the sawtooth elevating lever 8014
Engagement, is equipped with a cage 8013 at the top of sawtooth elevating lever 8014.
The attachment device 806 includes: spring 8061, spring mounting post 8062, movable pulley 8063, conducting wire 8064, track
Bar 8065 and transmitting box 8066, the spring 8061 are set in the spring mounting post 8062, the lower end of spring 8061 and institute
The bottom connection of spring mounting post 8062 is stated, upper end is connect with the side of the movable pulley 8063;Movable pulley 8063 can be along institute
Rail rods 8065 are stated to slide up and down;One end of the conducting wire 8064 and the transmitting box 8066 are conductively connected, the transmitting box
8066 are mounted on battery mounting plate 8027 and are conductively connected with the battery 8026, and the conducting wire 8064 is down around institute
It is conductively connected after stating movable pulley 8063 with the wind power generation plant 808.
The rotating mechanism 807 include: the second motor 8070, rotary shaft 8071, bevel gear pair 8072, connecting rod 8073,
Built-in rotation gear set 8074, semicircle gullet plate 8075, mounting post 8076 and cooperation Saw blade 8077, the cooperation Saw blade
8077 are vertically arranged and its bottom is set in the vertical guide groove formed on rail plate 8015, can move up and down along guide groove;It is described
Lifting frid 8051 is mounted on its top;Gear set 8074 is identical, horizontal by 3 sizes is fixedly mounted with and successively nibbles for the built-in rotation
The gear of conjunction forms, and is located at the rear of the cooperation Saw blade 8077;The semicircle gullet plate 8075 is provided with 2, respectively
It is co-axially mounted with two gears for being located at two sides in the built-in rotation gear set 8074 and is located at the cooperation Saw blade 8077
Two sides, and replace under the action of the connecting rod 8073 and built-in rotation gear set 8074 with the cooperation Saw blade 8077 and nibble
It closes;The output axis connection of one end of the rotary shaft 8071 and the second motor 8070, the other end and the gear pair 8072 are driven
Connection;One end bias of the connecting rod 8073 is connected on the driven gear in the gear pair 8072, the other end and with its neighbour
The eccentric connection of close semicircle gullet plate 8075.
The wind power generation plant 808 is mounted in the cage 8013, comprising: collector ring 8081, spherical roller
8082, transmission shaft 8083, permanent-magnet stator 8084, bearing inner race 8085, rotor 8086 and stator winding 8087, the collector ring
8081 connect with the rotor 8086;The transmission shaft 8083 is cooperatively connected by bearing inner race 8085 and spherical roller 8082;
The inside of the permanent-magnet stator 8084 is equipped with stator winding 8087.
Working principle of the present invention is as follows:
In use, it is equipped with simulated sensor in each course of work of electric system, it can be imitative in certain distance
The working condition of its part is reacted in true treatment box 5 with its components, and passes through simulation process case 5 and simulates electric system, is passed through
The adjusting of data processing and control panel 4, the case where showing artificial circuit in electronic display 3, without artificial
It goes detection that can obtain testing result on simulation process case 5, determines not needing to repair with this.
In addition, being transported by the drive of rotary fan 10 and the rotation of transmission shaft 8083, spherical roller 8082, rotor 8086
It is dynamic, due to electromagnetic induction principle, induced current is generated by conducting wire 8064 there are in battery, and by for first motor
8046 control and gear pair 8072, connecting rod 8073 and the cooperation for cooperating Saw blade 8077, realize the liter of lifting frid 8051
Drop, to by adjustable plate 8052, adjusting rod 8053 and connect the transmission of belt 8055 further by 8014 band of sawtooth elevating lever
The lifting of the flabellum of wind-power electricity generation has been moved, the efficiency of wind-power electricity generation can be adjusted in this way and has realized the protection for device.
On the other hand, pass through braking shaft 8044, braking worm screw 8045 and the transmitting effect for braking belt 8048, braked wheel
Disk 8049 starts to rotate, and by brake silpper 8041, single slot oscillating rod 8042 and the connection relationship for being driven wheel disc 8035, drives whole
The transmission of a chain 8033 can make the circuit in artificial circuit under the cooperation of chain slide block 8032 and installation slide plate 8031
Resistance value changes with sliding of the conducting ring 8023 on resistance coil 8022, plays the role of protection simulation circuit, Neng Gou
When detection is gone wrong, adjusts resistance value and calculated.
Claims (8)
1. a kind of power transmission and transformation system equipment state simulator, characterized by comprising: dynamic simulation treatment box (5) and be mounted on
Electronic display (3), control panel (4), heat sink (6), installs case (7), electric power storage on dynamic simulation treatment box (5) adjust resistance
Value case (8) and wind-force shaft (9), wind-force shaft (9) upper end are equipped with rotary fan (10),
The dynamic simulation treatment box (5) has a dismountable upper encloser (1),
The electronic display (3) and control panel (4) insertion are mounted on the front surface of dynamic simulation treatment box (5), electronic display
Display screen (3) is electrically connected with control panel (4);
Heat sink (6) is removably embedded in the right side for being mounted on dynamic simulation treatment box (5);
The lower end of the wind-force shaft (9) is mounted on the electric power storage and adjusts in resistance value case (8), and the rotary fan is installed in upper end
(10);
The installs case (7) and electric power storage adjust resistance value case (8) adjacent right upper portion for being mounted on dynamic simulation treatment box (5);
The electric power storage adjusts resistance value case (8) and includes shell (801) and be mounted on the intracorporal power supply regulating device (802) of shell, pass
Motivation structure (803), arrestment mechanism (804), elevating mechanism (805), attachment device (806), rotating mechanism (807) and wind-power electricity generation
Device (808),
Power supply regulating device (802) is used for the power supply of the power device of the power transmission and transformation system equipment state simulator simultaneously
Adjust supply voltage;
The transmission mechanism (803) is used to adjust the resistance of power supply regulating device (802);
The arrestment mechanism (804) is used to control the movement of the transmission mechanism (803);
The elevating mechanism (805) is used to adjust the height that the wind-force shaft (9) stretches out in outside the electric power storage adjusting resistance value case 8
Degree;
The attachment device (806) connects the wind power generation plant (808) and the power supply regulating device (802), and being used for will
The electrical energy transportation that the wind power generation plant (808) generates is to the power supply regulating device (802);
The rotating mechanism (807), which is used to provide for the elevating mechanism (805), rises or falls power.
2. power transmission and transformation system equipment state simulator according to claim 1, it is characterised in that: the power supply adjusts dress
Setting (802) includes resistance value mounting post (8021), resistance coil (8022), slide plate (8023), fixed connecting rod (8024), conductive column
(8025), battery (8026), battery mounting plate (8027),
Resistance coil (8022) are wound on the resistance value mounting post (8021);
The upper end of the slide plate (8023) and the resistance coil (8022) sliding contact, for adjusting resistance value, slide plate (8023)
Lower end be slideably sleeved on the fixed connecting rod (8024),
One end of the conductive column (8025) is connect with the battery (8026), the other end and the fixed connecting rod (8024)
It is cooperatively connected;
The battery is mounted on mounting plate (8027).
3. power transmission and transformation system equipment state simulator according to claim 1 or 2, it is characterised in that: the driver
Structure (803) includes installation slide plate (8031), chain slide block (8032), chain (8033), chain interoperation gear (8034), driving wheel
Disk (8035) and driving belt (8036),
One end of installation slide plate (8031) is connect by the chain slide block (8032) with chain (8033), the other end and institute
State slide plate (8023) connection;
Chain slide block (8032) insertion is mounted on the chain (8033);
The chain interoperation gear (8034) is arranged at intervals with two, and the chain (8033) is annular, respectively with one on the inside of both ends
A chain interoperation gear (8034) engagement, the chain interoperation gear (8034) close to the mounting post (8021) side pass through
The driving belt (8036) and the transmission wheel disc (8035) are sequentially connected;
The transmission wheel disc (8035) and arrestment mechanism (804) are cooperatively connected.
4. power transmission and transformation system equipment state simulator according to claim 3, it is characterised in that: the arrestment mechanism
(804) include brake silpper (8041), single slot oscillating rod (8042), the tapered gear set (8043) of braking, braking shaft (8044),
Brake worm screw (8045), first motor (8046), worm screw mate gear (8047), braking belt (8048), braking wheel disc
(8049), activity point of view column (80410),
The tapered gear set (8043) of braking includes two vertical and engagement angular wheels, wherein horizontally disposed conical tooth
It takes turns and is fixedly connected with the bottom end for the braking worm screw (8045) being vertically arranged, vertically disposed angular wheel passes through the braking
Shaft (8044) and the first motor (8046) are sequentially connected;
The top of braking worm screw (8045) is rotatably attached with a mounting base (8012), and the mounting base 8012 is packed in
In shell (801);
Worm screw mate gear (8047) setting is engaged in the braking worm screw (8045) side and with braking worm screw (8045),
Worm screw mate gear (8047) is connect by braking belt (8048) with the rotating shaft transmission for braking wheel disc (8049);
The shaft of one end of the brake silpper (8041) and one end of activity point of view column (80410) with braking wheel disc (8049)
It is fixedly connected, the other end of the brake silpper (8041) and the bar portion of single slot oscillating rod (8042) are slidably connected, described
The other end of activity point of view column (80410) is flexibly connected with the bar portion of single slot oscillating rod (8042) with the junction of groove portion;
The disk side of transmission wheel disc (8035) is provided with a connecting column, the groove portion set of the list slot oscillating rod (8042)
On the connecting column, for driving the transmission wheel disc (8035) to rotate.
5. power transmission and transformation system equipment state simulator according to claim 4, it is characterised in that: the elevating mechanism
(805) include lifting frid (8051), adjustable plate (8052), adjusting rod (8053), adjust wheel disc (8054), connection belt
(8055), mechanical braking gear (8056) and cooperative mechanical gear (8057),
The adjustable plate (8052) can be rotated about its center axis, the adjusting wheel disc (8054), mechanical braking gear
(8056) it is rotatably installed in shell (801) with cooperative mechanical gear (8057);
The lifting frid (8051) is horizontally disposed and rotates support by the rotating mechanism (807);
One end of the adjustable plate (8052) and one end of the adjusting rod (8053) are hinged, and the other end is movably arranged on the liter
In the level trough for dropping frid (8051), the other end of the adjusting rod (8053) and the disk side for adjusting wheel disc (8054)
Hingedly;
The adjusting wheel disc (8054) is sequentially connected by the connection belt (8055) and the mechanical braking gear (8056);
The cooperative mechanical gear (8057) and Synchronous Transmission mechanical braking gear (8056) synchronous rotary, and the two is located at
The two sides of one sawtooth elevating lever (8014), and engaged with the sawtooth elevating lever (8014), pacify at the top of sawtooth elevating lever (8014)
Equipped with a cage (8013).
6. power transmission and transformation system equipment state simulator according to claim 5, it is characterised in that: the attachment device
It (806) include spring (8061), spring mounting post (8062), movable pulley (8063), conducting wire (8064), rail rods (8065) and biography
Box (8066) are passed,
The spring (8061) is set on the spring mounting post (8062), and the lower end of spring (8061) and the spring are installed
The bottom of column (8062) connects, and upper end is connect with the side of the movable pulley (8063);
Movable pulley (8063) can be slided up and down along the rail rods (8065);
One end of the conducting wire (8064) and the transmitting box (8066) are conductively connected, and the transmitting box (8066) is mounted on electric power storage
It is conductively connected on pond mounting plate (8027) and with the battery (8026), the conducting wire (8064) is down around the movable pulley
(8063) it is conductively connected afterwards with the wind power generation plant (808).
7. power transmission and transformation system equipment state simulator according to claim 6, it is characterised in that: the rotating mechanism
It (807) include the second motor (8070), rotary shaft (8071), gear pair (8072), connecting rod (8073), built-in rotation gear set
(8074), semicircle gullet plate (8075), mounting post (8076) and cooperation Saw blade (8077),
Cooperation Saw blade (8077) is vertically arranged and its bottom is set in the vertical guide groove formed on a rail plate (8015),
The lifting frid (8051) is mounted on its top;
Built-in rotation gear set (8074) is identical, horizontal by 3 sizes to be fixedly mounted with and successively meshed gears forms, and is located at
The rear of cooperation Saw blade (8077);
The semicircle gullet plate (8075) is provided with 2, is located at two sides with built-in rotation gear set (8074) respectively
Two gears are co-axially mounted and are located at the two sides of cooperation Saw blade (8077), and in the connecting rod (8073) and built-in rotation
It is alternately engaged under the action of gear set (8074) with the cooperation Saw blade (8077);
One end of the rotary shaft (8071) and the output axis connection of the second motor (8070), the other end and the gear pair
(8072) it is sequentially connected;
One end bias of the connecting rod (8073) is connected on the driven gear in the gear pair (8072), the other end and and its
The eccentric connection of neighbouring semicircle gullet plate (8075).
8. power transmission and transformation system equipment state simulator according to claim 7, it is characterised in that: the wind-power electricity generation dress
It sets (808) to be mounted in the cage (8013), and including collector ring (8081), spherical roller (8082), transmission shaft
(8083), permanent-magnet stator (8084), bearing inner race (8085), rotor (8086) and stator winding (8087),
The collector ring (8081) connect with the rotor (8086);
The transmission shaft (8083) is cooperatively connected by bearing inner race (8085) and spherical roller (8082);
The inside of the permanent-magnet stator (8084) is equipped with stator winding (8087).
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CN201811133221.0A CN109358242A (en) | 2018-09-27 | 2018-09-27 | A kind of power transmission and transformation system equipment state simulator |
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Cited By (1)
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CN113675799A (en) * | 2021-10-20 | 2021-11-19 | 江苏泽陆信息科技有限公司 | Hardware connection arranging frame for network communication engineering |
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