CN108736490A - A kind of electric reactive compensating device - Google Patents

Abstract

The invention discloses a kind of electric reactive compensating devices,Including main cabinet,Installation elements,Metering device in the main cabinet and the installation frame body being arranged on the downside of the metering device,In the front end face of the installation frame body equipped with it is multigroup equidistantly arrange assign slot,Described assign is equipped with power supply slot in slot rear wall,It is equipped in the installation frame body assigned on the downside of slot and cuts sliding chamber,It is described cut sliding intracavitary and be slidably connected with cut sliding block,The sliding block screw-internal thread fit of cutting is connected with front and back the first extended screw rod,The rear side end of first screw rod is connected with solid embedded in the first motor power cut in sliding chamber rear wall,The first screw rod front side end with it is described cut sliding chamber front side wall and be rotatably assorted connect,The first cavity is equipped in the installation frame body cut on the upside of sliding chamber,First cavity is connected between sliding chamber with described cut equipped with logical sliding slot.

Description

A kind of electric reactive compensating device

Technical field

The present invention relates to technical field of electric power, specially a kind of electric reactive compensating device.

Background technology

Reactive-load compensation plays a part of to improve the power factor of power grid in power supply system, reduces supply transformer and defeated The loss on line sending road improves power supply efficiency, improves power supply environment.Reactive power compensation device is in one in power supply system A indispensable very important position.Electric power component in traditional reactive power compensator is fastened by tightening bolt Installment work, it is external screw thread on bolt to make and the internal thread hole in reactive power compensator carries out lock fit, can not will The fast quick-detach of electric power component, in order to the maintenance during use, installation steps are complicated and mounting stability and safety are poor.

Invention content

The purpose of the present invention is to provide a kind of electric reactive compensating devices, in the prior art above-mentioned scarce for overcoming It falls into.

A kind of electric reactive compensating device according to the present invention, including main cabinet, installation elements, be mounted on the main cabinet Interior metering device and the installation frame body being arranged on the downside of the metering device are equipped in the front end face of the installation frame body It is multigroup equidistantly arrange assign slot, described assign is equipped with power supply slot, the mounting bracket assigned on the downside of slot in slot rear wall Be equipped in vivo and cut sliding chamber, it is described cut sliding intracavitary and be slidably connected with cut sliding block, it is described to cut before sliding block screw-internal thread fit is connected with The first extended screw rod afterwards, the rear side end of first screw rod is with solid embedded in first electricity cut in sliding chamber rear wall Mechanomotive force is connected, the first screw rod front side end with it is described cut sliding chamber front side wall and be rotatably assorted connect, it is described to cut sliding chamber Be equipped with the first cavity in the installation frame body of upside, first cavity with it is described cut to be connected between sliding chamber slided equipped with logical Slot, be slidably connected in the logical sliding slot bottom end with it is described cut slider top end face secure fit connect it is sliding Block, the top end surface for cutting sliding block far from the trolley shoe side is interior to be equipped with the first rack, the top end of the trolley shoe The second motor is installed in face, the top end be connected by power of second motor has the first tooth stretched into first cavity Wheel, is equipped with the second cavity in the installation frame body on the upside of first cavity, in the installation frame body on rear side of first cavity Equipped with third cavity extended up and down, the top end of the third cavity assigns slot to be connected setting with described, described The bottom end of third cavity cuts sliding chamber and is connected setting with described, and the third cavity is located at the upside position of first rack Set, be rotatably assorted in the third cavity be connected with bottom maximum circumscribed circle stretch into it is described cut sliding intracavitary and with first rack The second gear that power is connected, is installed with third gear in the left end face of the second gear, in the second gear It is rotatably assorted in the third cavity of side and is connected with sector gear, the 4th tooth is installed in the left end face of the sector gear Wheel, power is connected with the first transmission belt between the 4th gear and the third gear, described to assign groove bottom wall close It is equipped with lock sliding slot at forward position, is slidably connected with lock slide in the lock sliding slot, in the bottom end face of the lock slide Screw-thread fit is connected with the second screw rod for extending downwardly setting, be equipped in second cavity to the first gear and institute The locking transmission mechanism of the second screw rod power mating connection is stated, spacing block set, institute are equipped in the back end surface of the installation elements It states spacing block set and is installed with installation inserted block far from the installation elements side, electronic control is installed on the second motor outer wall Device, the electronic control unit and second motor are electrically connected, and the electronic control unit is controlling described second The velocity of rotation of motor, and then realize the velocity of rotation that the first gear is controlled by second motor.

Further technical solution, the locking transmission mechanism include be rotatably assorted connection setting first cavity with First rotating shaft in part and the connection that is rotatably assorted between second cavity are arranged in the lock sliding slot and described second The second shaft in part between cavity, the first rotating shaft top end are installed with first stretched into second cavity Belt wheel, the first rotating shaft bottom end are installed with the 5th gear stretched into first cavity, and the 5th gear is located at The leftward position of the first gear, the second shaft top end stretch into the lock sliding slot and with second screw rod Bottom end secure fit connects, and the bottom end of second screw rod is installed with the second band stretched into second cavity Wheel, power is connected with the second belt wheel between the first pulley and second belt wheel.

Further technical solution, the back end surface of the installation inserted block is interior to be equipped with sliding slot, the interior sliding of the sliding slot It is connected with grafting sliding block, the conduction to be connected with the power supply slot is equipped in the back end surface of the grafting sliding block Head, is equipped with the guide runner for the setting that is connected with the sliding slot in the bottom end face of the grafting sliding block, in the guide runner It is slidably connected with the slider guide that top end is connect with the grafting sliding block secure fit, is slidably matched in the slider guide It is connected with front and back extended slide guide bar, the front and rear sides end of the slide guide bar is solid with the front and rear wall of the guide runner respectively It is fixed to be connected, it is located at the slide guide bar external rings on the left of the slider guide and is equipped with the top pressure spring that top pressure is connected, institute The second rack being installed on the bottom end face of slider guide to be connected with the sector gear power is stated, close to the limit The bottom end face of the installation inserted block of position convex block side is equipped with lock crossbeam.

Description of the drawings

Fig. 1 is a kind of overall structure diagram of electric reactive compensating device in the present invention；

Fig. 2 is the sectional view of " A-A " in Fig. 1 of the present invention；

Fig. 3 is the overall structure diagram of installation elements in the present invention.

Specific implementation mode

With reference to Fig. 1-3, the present invention is described in detail.

Referring to Fig.1-3, a kind of electric reactive compensating device according to an embodiment of the invention, including main cabinet 5, installation member Part 7, the metering device 51 in the main cabinet 5 and the installation frame body 6 being arranged on the downside of the metering device 51, institute State in the front end face of installation frame body 6 equipped with it is multigroup equidistantly arrange assign slot 61, it is described assign to be equipped in 61 rear wall of slot supply Electric slot 611, interior be equipped with of the installation frame body 6 for assigning 61 downside of slot cut sliding chamber 62, and described cut in sliding chamber 62 is slidably matched It being connected with and cuts sliding block 621,621 screw-internal thread fit of sliding block of cutting is connected with the first front and back extended screw rod 622, and described the The rear side end of one screw rod 622 is connected with solid embedded in 624 power of first motor cut in 62 rear wall of sliding chamber, described First screw rod, 622 front side end with it is described cut 62 front side wall of sliding chamber and be rotatably assorted connect, the peace for cutting 62 upside of sliding chamber It shelves and is equipped with the first cavity 65 in body 6, first cavity 65 is connected equipped with logical sliding slot 64, institute with described cut between sliding chamber 62 It states and is slidably connected with bottom end and the trolley shoe cut 621 top end surface secure fit of sliding block and connect in logical sliding slot 64 641, the top end surface for cutting sliding block 621 far from 641 side of the trolley shoe is interior equipped with the first rack 623, described sliding The second motor 642 is installed in the top end surface of block 641, the top end be connected by power of second motor 642 stretches into institute The first gear 643 in the first cavity 65 is stated, the second cavity is equipped in the installation frame body 6 of first cavity, 65 upside 66, the installation frame body 6 of first cavity, 65 rear side is interior to be equipped with third cavity 63 extended up and down, the third cavity 63 Top end assign slot 61 to be connected setting with described, the bottom end of the third cavity 63 is connected with the sliding chamber 62 of cutting Logical setting, the third cavity 63 are located at the upper side position of first rack 623, the company of being rotatably assorted in the third cavity 63 It is connected to bottom maximum circumscribed circle and stretches into the second gear cut and be connected in sliding chamber 62 and with 623 power of the first rack 631, it is installed with third gear 634 in the left end face of the second gear 631, described the of 631 upside of the second gear It is rotatably assorted in three cavitys 63 and is connected with sector gear 632, the 4th gear is installed in the left end face of the sector gear 632 633, power is connected with the first transmission belt 635 between the 4th gear 633 and the third gear 634, described to assign 61 bottom wall of slot is equipped with lock sliding slot 68 at forward position, and lock slide 681 is slidably connected in the lock sliding slot 68, described The bottom end face screw-internal thread fit of lock slide 681 is connected with the second screw rod 682 for extending downwardly setting, in second cavity 66 Equipped with to the locking transmission mechanism with the first gear 643 and 682 power of the second screw rod mating connection, the installation Spacing block set 71 is equipped in the back end surface of element 7, the spacing block set 71 is installed with installation far from 7 side of the installation elements Inserted block 72, is installed with electronic control unit 6421 on 642 outer wall of the second motor, the electronic control unit 6421 with it is described Second motor 642 be electrically connected, the electronic control unit 6421 to control the velocity of rotation of second motor 642, into And realize the velocity of rotation that the first gear 643 is controlled by second motor 642.

Valuably or illustratively, the locking transmission mechanism includes being rotatably assorted connection setting in first cavity 65 First rotating shaft 651 in part between second cavity 66 and being rotatably assorted connect setting in the lock sliding slot 68 and The second shaft 662 in part between second cavity 66,651 top end of the first rotating shaft be installed with stretch into it is described First pulley 661 in second cavity 66,651 bottom end of the first rotating shaft, which is installed with, to be stretched into first cavity 65 5th gear 652, the 5th gear 652 are located at the leftward position of the first gear 643, second shaft, 662 top End is stretched into the lock sliding slot 68 and is connect with the bottom end secure fit of second screw rod 682, second screw rod 682 bottom end is installed with the second belt wheel 663 stretched into second cavity 66, the first pulley 661 and described the Power is connected with the second belt wheel 664 between two belt wheels 663, and locking work is automatically controlled to realize, fast and easy dismounting Work, substantially increases the working efficiency of locking.

Valuably or illustratively, sliding slot 721, the sliding slot are equipped in the back end surface of the installation inserted block 72 Be slidably connected with grafting sliding block 722 in 821, be equipped in the back end surface of the grafting sliding block 722 to the power supply The conductive header 723 that slot 611 is connected, interior be equipped with of the bottom end face of the grafting sliding block 722 are connected with the sliding slot 721 Lead to the guide runner 724 of setting, top end is slidably connected in the guide runner 724 and is fixed with the grafting sliding block 722 The slider guide 726 of mating connection is slidably connected with front and back extended slide guide bar 725 in the slider guide 726, described The front and rear sides end of slide guide bar 725 is connect with the front and rear wall secure fit of the guide runner 724 respectively, is located at the slider guide 725 external rings of slide guide bar in 726 left sides are equipped with the top pressure spring 728 that top pressure is connected, the bottom of the slider guide 726 The second rack 727 to be connected with 632 power of the sector gear is installed on end face, close to the spacing block set 71 The bottom end face of the installation inserted block 72 of side be equipped with lock crossbeam 729, to realize automatically control it is safe for be electrically connected work Make, substantially increases the convenience for electrical plug and safety.

When original state, make to cut sliding block 621 positioned at the left-most position cut in sliding chamber 62, at this point, making to cut the drive of sliding block 621 Trolley shoe 641 is located at the left-most position in logical sliding slot 64, meanwhile, so that 623 toe lateral section of the first rack is in second gear 631 Be connected by power state, at this point, make sector gear 632 be in completely deviate from assign 61 side of slot, meanwhile, make first gear 643 with 5th gear 652 is in be connected by power state, at this point, lock slide 681 is made to be fully located in lock sliding slot 68, meanwhile, slider guide 726 By the pressure on top surface of top pressure spring 728, slider guide 726 is set to be located at the most forward position in guide runner 724, at this point, making slider guide Conductive header 723 on 726 drive grafting sliding blocks 722 and grafting sliding block 722 is fully located in sliding slot 721；

It when needing installment work, is fully inserted by the way that inserted block 72 will be installed and assigns slot 61, lock crossbeam 729 is made to be located at lock sliding slot 68 Top relative position, meanwhile, so that sliding slot 721 is in complete relative position with power supply slot 611, and make the second rack 727 In the upper side position of third cavity 63, then 652 turns of first gear 643 and the 5th gear are driven by controlling the second motor 642 It is dynamic, it drives first pulley 661 to rotate by the 5th gear 652, the second belt wheel is driven by the second belt wheel 664 in first pulley 661 663 and the top of the second shaft 662 the rotation of the second screw rod 682, drive lock slide 681 gradually to stretch into lock by the second screw rod 682 recessed It in slot 729, and then realizes and automatically controls quick lock in work, the rotation of the first screw rod 622 is then driven by first motor 624, It is driven by the first screw rod 622 and cuts sliding block 621 towards the front side direction sliding cut in sliding chamber 62, meanwhile, it is slipped by cutting sliding block 621 and driving The first gear 643 at 641 top of block is gradually distance from the 5th gear 652, at this point, driving 631 He of second gear by the first rack 623 Third gear 634 rotates, and 632 turns of the 4th gear 633 and sector gear are driven by the first transmission belt 635 on third gear 634 It is dynamic, and sector gear 632 is made gradually to be connected with 727 power of the second rack, it is cut in sliding chamber 62 until cutting sliding block 621 and sliding into When most forward position, at this point, driving the first gear 643 on trolley shoe 641 utmostly far from the 5th gear by cutting sliding block 621 652, meanwhile, by the power cooperating of sector gear 632 and the second rack 727, slider guide 726 is made utmostly to overcome top pressure The pressure on top surface of spring 728 slides into the last side position in guide runner 724, at this point, driving grafting sliding block 722 by slider guide 726 Conductive header 723 on rear side end utmostly stretches into power supply slot 611, when disassembly is desired, by controlling first motor 624 anyway, makes to cut the drive recovery of trolley shoe 641 of sliding block 621 to initial position, is then anyway by controlling the second motor 642 It can.

The beneficial effects of the invention are as follows：The configuration of the present invention is simple, it is easy to operate, it is fully inserted by the way that inserted block will be installed and is assigned Slot makes lock crossbeam be located at the top relative position of lock sliding slot, meanwhile, so that sliding slot is in complete relative position with slot of powering, and So that the second rack is located at the upper side position of third cavity, then drives first gear and the 5th gear to turn by controlling the second motor It is dynamic, first pulley rotation is driven by the 5th gear, the second belt wheel and the second shaft top are driven by the second belt wheel in first pulley Second screw rod in portion rotates, and drives lock slide gradually to stretch into lock crossbeam by the second screw rod, and then realize and automatically control fast lock Then fixed work drives the rotation of the first screw rod by first motor, driven by the first screw rod and cut sliding block towards the front side for cutting sliding intracavitary Direction is slided, meanwhile, drive the first gear at the top of trolley shoe to be gradually distance from the 5th gear by cutting sliding block, at this point, by the first tooth Item drives second gear and the rotation of third gear, drives the 4th gear and sector to rotate by the first transmission belt on third gear It is dynamic, and sector gear is made gradually to be connected with the second rack momentum, cut sliding intracavitary most forward position until cutting sliding block and sliding into When, at this point, by cut sliding block drive trolley shoe on first gear utmostly far from the 5th gear, meanwhile, by sector gear with The power cooperating of second rack, makes slider guide utmostly overcome the pressure on top surface of top pressure spring, slides into guide runner Last side position, at this point, drive the conductive header on rear side of grafting sliding block on end utmostly to stretch into power supply slot by slider guide, It realizes and automatically controls locking work, fast and easy dismounts work, substantially increases the working efficiency of locking and realizes automatic Control safety for be electrically connected work, substantially increase the convenience for electrical plug and safety.

Those skilled in the art can define, can in the case of not departing from overall spirit and the design of the present invention To make the various modifications for above example.It each falls within protection scope of the present invention.The protection scheme of the present invention It is subject to claims appended hereto.

Claims (3)

1. a kind of electric reactive compensating device, including main cabinet, installation elements, the metering device in the main cabinet with And the installation frame body on the downside of the metering device is set, it is characterised in that：It is equipped in the front end face of the installation frame body more What group was equidistantly arranged assigns slot, described assign to be equipped with power supply slot, the installation frame body assigned on the downside of slot in slot rear wall Interior be equipped with cuts sliding chamber, it is described cut sliding intracavitary and be slidably connected with cut sliding block, it is described cut sliding block screw-internal thread fit be connected with it is front and back The first extended screw rod, the rear side end of first screw rod is with solid embedded in the first motor cut in sliding chamber rear wall Power is connected, the first screw rod front side end with it is described cut sliding chamber front side wall and be rotatably assorted connect, it is described to cut on sliding chamber It is equipped with the first cavity in the installation frame body of side, first cavity is connected equipped with logical sliding slot with described cut between sliding chamber, Bottom end and the trolley shoe cut slider top end face secure fit and connect are slidably connected in the logical sliding slot, far From the first rack is equipped in the top end surface for cutting sliding block described in the trolley shoe side, consolidate in the top end surface of the trolley shoe Equipped with the second motor, the top end be connected by power of second motor has the first gear stretched into first cavity, institute State and be equipped with the second cavity in the installation frame body on the upside of the first cavity, be equipped in installation frame body on rear side of first cavity Extended third cavity up and down, the top end of the third cavity assign slot to be connected setting with described, the third The bottom end of cavity cuts sliding chamber and is connected setting with described, and the third cavity is located at the upper side position of first rack, It is rotatably assorted in the third cavity and is connected with bottom maximum circumscribed circle and stretches into the sliding intracavitary and dynamic with first rack of cutting The second gear of force-fitting connection, is installed with third gear in the left end face of the second gear, on the upside of the second gear The third cavity in be rotatably assorted and be connected with sector gear, the 4th tooth is installed in the left end face of the sector gear Wheel, power is connected with the first transmission belt between the 4th gear and the third gear, described to assign groove bottom wall close It is equipped with lock sliding slot at forward position, is slidably connected with lock slide in the lock sliding slot, in the bottom end face of the lock slide Screw-thread fit is connected with the second screw rod for extending downwardly setting, be equipped in second cavity to the first gear and institute The locking transmission mechanism of the second screw rod power mating connection is stated, has spacing block set in the back end surface of the installation elements, The spacing block set is installed with installation inserted block far from the installation elements side, and electronics control is installed on the second motor outer wall Device processed, the electronic control unit and second motor are electrically connected, and the electronic control unit is controlling described the The velocity of rotation of two motors, and then realize the velocity of rotation that the first gear is controlled by second motor.

2. a kind of electric reactive compensating device according to claim 1, it is characterised in that：The locking transmission mechanism includes The first rotating shaft and rotation being rotatably assorted in the part that connection is arranged between first cavity and second cavity are matched Close the second shaft in the part that connection is arranged between the lock sliding slot and second cavity, first rotating shaft top end End is installed with the first pulley stretched into second cavity, and the first rotating shaft bottom end, which is installed with, stretches into first sky 5th gear of intracavitary, the 5th gear are located at the leftward position of the first gear, and the second shaft top end is stretched Enter in the lock sliding slot and connect with the bottom end secure fit of second screw rod, the bottom end of second screw rod is solid Equipped with the second belt wheel stretched into second cavity, power is connected between the first pulley and second belt wheel Second belt wheel.

3. a kind of electric reactive compensating device according to claim 1, it is characterised in that：The rear side end of the installation inserted block It is equipped with sliding slot in face, is slidably connected with grafting sliding block in the sliding slot, is set in the back end surface of the grafting sliding block There is the conductive header to be connected with the power supply slot, is equipped with and the sliding slot in the bottom end face of the grafting sliding block Be connected the guide runner of setting, and top end is slidably connected in the guide runner and is connected with the grafting sliding block secure fit The slider guide connect, is slidably connected with front and back extended slide guide bar in the slider guide, and front and back the two of the slide guide bar Side end is connect with the front and rear wall secure fit of the guide runner respectively, is located at outside the slide guide bar on the left of the slider guide It is equipped with the top pressure spring of top pressure mating connection, is installed on the bottom end face of the slider guide to move in turn with the sector Second rack of force-fitting connection, the bottom end face close to the installation inserted block of the spacing block set side are equipped with lock crossbeam.