CN110429491A - A kind of factory's power distribution cabinet - Google Patents

Abstract

The present invention relates to power distribution cabinet fields, it in particular is a kind of factory's power distribution cabinet, including cabinet, switch control assembly, clamping assembly and door lock assembly, pass through upper and lower toggle switch, realize the closure of control circuit, under the action of the spring, switch can rapidly reach working condition, and switch will not replace working condition on condition that an external force is not applied, the closure of one group of switch can be controlled simultaneously by the rotation of switch shaft, facilitate manipulation, by pulling knob distribution box global switch can be closed, it is suitble to the case where needing emergency power off, by adjusting the adjustable clamping level of clamping force of upper lower clip, facilitate power distribution cabinet mobile, square tube is very common in factory, can blocking for power distribution cabinet leans against different location, facilitate work, the locking device of power distribution cabinet can lock chamber door, as shrinking device corrodes, it can not It opens, firmly pulls knob, slotted socket can be opened along slot, and chamber door can be opened.

Description

A kind of factory's power distribution cabinet

Technical field

The present invention relates to power distribution cabinet fields, are in particular a kind of factory's power distribution cabinets.

Background technique

In the environment of plant, power distribution cabinet in the prior art usually will appear power distribution cabinet and job site at a distance of not square too far Just control, switching group inconvenience control respectively and chamber door corrodes the problem of failing to open, premised on these problems, invented this Equipment.

Summary of the invention

The purpose of the present invention is achieved through the following technical solutions:

The present invention relates to power distribution cabinet fields, are in particular a kind of factory's power distribution cabinet, including cabinet, switch control group Fit, clamping assembly and door lock assembly, the switch control assembly are connected with cabinet, clamping assembly and cabinet It is connected, door lock assembly is connected with cabinet.

As advanced optimizing for the technical program, a kind of factory's power distribution cabinet of the present invention, the cabinet includes top box Plate, left boxboard, right boxboard, lower boxboard, hinge, chamber door, switch control hole, rearing-box plate and knob, four side of rearing-box plate respectively with it is upper Boxboard, left boxboard, right boxboard, lower boxboard are connected, and top box board ends are connected with left boxboard, right boxboard respectively, lower boxboard two End is connected with left boxboard, right boxboard respectively, and left boxboard is rotatablely connected with hinge, and hinge and chamber door are rotatablely connected, chamber door and drawing Palmistry connection.

As advanced optimizing for the technical program, a kind of factory's power distribution cabinet of the present invention, the switch control combination Body includes switch, switch connection frame, connecting shaft I, slide-bar, I sliding rail of connecting shaft, slide plate, switch spring, spring retainer piece, connection Axis II, switch bracket, connecting shaft III, knob I, slide plate I, slide plate sliding rail, slide plate limit film I, slide plate limit film II, switch shaft, Group switch control column, group switch tension spring, switch-box, master switch sliding slot, master switch knob, handhold column, knob axis, knob connect Connect frame, master switch frame I, pull ring I, master switch frame II, pull ring II, master switch frame III, master switch frame IV, master switch tension spring and switch Group switchs the frame that is connected with switch and is connected, and switch connection frame is connected with connecting shaft I, and connecting shaft I and I sliding rail of connecting shaft slide Connection, I sliding rail of connecting shaft is located on slide-bar, and the slide plate upper end frame that is connected with switch is in contact, and slide plate is slidably connected with slide-bar, switchs Spring is socketed on slide-bar, and switch spring both ends are contacted with slide plate, spring retainer piece respectively, and spring retainer piece is connected with slide-bar Connect, slide-bar and connecting shaft II are rotatablely connected, and connecting shaft II is connected with switch bracket, switch bracket and connecting shaft III be connected It connects, switch bracket is connected with rearing-box plate, and connecting shaft III and switch are rotatablely connected, and sets that there are three through slot, switch shafts on switch shaft On three through slots be socketed in three switch on, knob I is connected with slide plate I, and slide plate I is connected with slide plate limit film I, slide plate I, slide plate limit film I is slidably connected with slide plate sliding rail, and slide plate sliding rail is located on switch shaft, and slide plate limit film II is connected with switch shaft It connects, two group switch control columns are connected with knob I, and two group switch control columns are inserted in switch control hole, two sides switch Control hole is located at left boxboard, on right boxboard, and intermediate switch control hole is located on switch-box, switch control hole do not penetrate left boxboard, The group switch tension spring both ends of right boxboard and switch-box, two sides switching group are contacted with two knobs I, left boxboard, right boxboard respectively, and two The group switch tension spring of side switching group is in tensional state, the group switch tension spring both ends of intermediate switch group respectively with knob I, switch Case contact, the group switch tension spring of intermediate switch group are in tensional state, and switch shaft and left boxboard, right boxboard are all that rotation connects It connects, switch shaft and switch-box are rotatablely connected, and switch-box is connected with rearing-box plate, and handhold column is connected with rearing-box plate, always opens Knob is closed to be connected with knob axis, knob axis and knob connection frame rotation connection, knob connection frame are connected with master switch frame I, Master switch frame I is connected with pull ring I, and pull ring I is connected with master switch frame II, and master switch frame II is connected with pull ring II, pull ring II is connected with master switch frame III, and master switch frame III is connected with master switch frame IV, and IV both ends of master switch frame are total with two respectively Switch tension spring lower end is connected, and two master switch tension spring upper ends are connected with upper boxboard.

As advanced optimizing for the technical program, a kind of factory's power distribution cabinet of the present invention, the clamping assembly packet Include knob II, slide plate II, slide plate limit film III, slide plate limit film IV, clamping control column, clamping shaft, clamping tension spring, clamping control It is hole, clamping bracing strut, bevel gear I, bevel gear II, jackshaft, upper clip axis, lower clip axis, upper snap-gauge I, upper snap-gauge II, rectangular Spring, lower snap-gauge I, lower snap-gauge II, countershaft-gear, lower clip shaft gear, jackshaft sprocket wheel, chain, upper clip axis sprocket wheel, cunning II sliding rail of plate and clamp bracing strut, knob II are connected with slide plate II, and slide plate II is connected with slide plate limit film III, slide plate II, Slide plate limit film III is slidably connected with II sliding rail of slide plate, and II sliding rail of slide plate is located on clamping shaft, slide plate limit film IV and clamping shaft It is connected, two clamping control columns are connected with knob II, and two clamping control columns are inserted in clamping control hole, clamping control Drilling is located on clamping bracing strut, and clamping shaft is connect with clamping shaft holder pivots, and clamping shaft is connected with bevel gear I, bevel gear I Connection is engaged with bevel gear II, bevel gear II is connected with jackshaft, and jackshaft is connected with countershaft-gear, jackshaft sprocket wheel It connects, countershaft-gear engages connection with lower clip shaft gear, and lower clip shaft gear is connected with lower clip axis, lower clip axis and two A lower snap-gauge I is connected, and two lower snap-gauges I are connected with two rectangular springs respectively, two rectangular springs respectively with two under Snap-gauge II is connected, jackshaft sprocket wheel, chain, the connection of upper clip axis sprocket wheel sprocket wheel chain, upper clip axis sprocket wheel and upper clip axis It is connected, upper clip axis is connected with two upper snap-gauges I, and two upper snap-gauges I are connected with two rectangular springs respectively, two sides Shape spring is connected with two upper snap-gauges II respectively, two clamp bracing struts respectively with jackshaft, upper clip axis, lower clip axis two End rotation connection, two clamp bracing struts are connected with rearing-box plate, countershaft-gear, lower clip shaft gear transmission ratio in Between axis sprocket wheel, upper clip axis sprocket ratio it is identical.

As advanced optimizing for the technical program, a kind of factory's power distribution cabinet of the present invention, the door lock assembly packet Chamber door button, slotted socket I, traveller, traveller connecting rod, chamber door button limit film, slotted socket II, lock pillar, skewback I is included to draw Spring, skewback I, door open button, door open button connecting shaft, door latch spring, door open button limit film, unlocking button, lockplate, locking Plate shaft, tension spring, latch bracket, skewback II and door lock slide plate, chamber door button and chamber door clearance fit, chamber door button and trough of belt set Cylinder I is connected, and slotted socket I and traveller clearance fit, traveller are connected with traveller connecting rod, traveller connecting rod and right boxboard phase Connection, slotted socket I are connected with chamber door button limit film, chamber door button limit film and traveller clearance fit, slotted socket II With traveller clearance fit, slotted socket II is connected with lock pillar, and I tension spring of skewback is socketed on lock pillar, I tension spring upper end of skewback and door Lock slide plate is connected, and I tension spring lower end of skewback is connected with skewback I, and I tension spring of skewback is in tensional state, door open button and enabling Button connecting shaft is connected, and door open button connecting shaft is connected with door open button limit film, and door latch spring is socketed in door open button In connecting shaft, door latch spring both ends are in contact with door open button, right boxboard respectively, and door latch spring is in compressive state, and enabling is pressed Button connecting shaft is slidably connected with right boxboard, and unlocking button is connected with lockplate, and lockplate is connected with skewback II, lockplate with The rotation connection of lockplate shaft, lockplate both ends of the shaft is connected with two latch brackets respectively, two latch brackets with door Lock slide plate is connected, and door lock slide plate is connected with right boxboard.

A kind of factory of the present invention has the beneficial effect that the closure that control circuit is realized by upper and lower toggle switch with power distribution cabinet, Under the action of the spring, switch can rapidly reach working condition, and switch will not be more on condition that an external force is not applied Change jobs state, can control the closure of one group of switch simultaneously by the rotation of switch shaft, facilitate manipulation, by pulling knob can Distribution box global switch is closed, it is suitble to the case where needing emergency power off, can be adjusted by adjusting the clamping force of upper lower clip Whole clamping level facilitates power distribution cabinet mobile, and square tube is very common in factory, and can blocking for power distribution cabinet leans against different location, convenient Work, the locking device of power distribution cabinet can lock chamber door, if locking device corrodes, fail to open, firmly pull knob, trough of belt set Cylinder can be opened along slot, and chamber door can be opened.

Detailed description of the invention

The present invention will be further described in detail with specific implementation method with reference to the accompanying drawing.

Fig. 1 is overall structure diagram of the invention；

Fig. 2 is one structural schematic diagram one of cabinet of the invention；

Fig. 3 is one structural schematic diagram two of cabinet of the invention；

Fig. 4 is two structural schematic diagram one of switch control assembly of the invention；

Fig. 5 is two design of part schematic diagram one of switch control assembly of the invention；

Fig. 6 is two partial cross sectional views of switch control assembly of the invention；

Fig. 7 is two design of part schematic diagram two of switch control assembly of the invention；

Fig. 8 is two structural schematic diagram two of switch control assembly of the invention；

Fig. 9 is two structural schematic diagram three of switch control assembly of the invention；

Figure 10 is two structural schematic diagram four of switch control assembly of the invention；

Figure 11 is three structural schematic diagram one of clamping assembly of the invention；

Figure 12 is three structural schematic diagram of clamping assembly, one partial sectional view of the invention；

Figure 13 is three structural schematic diagram two of clamping assembly of the invention；

Figure 14 is three structural schematic diagram three of clamping assembly of the invention；

Figure 15 is four structural schematic diagram one of door lock assembly of the invention；

Figure 16 is four structural schematic diagram two of door lock assembly of the invention；

Figure 17 is four partial enlargement diagram of door lock assembly of the invention.

In figure: cabinet 1；Upper boxboard 1-1；Left boxboard 1-2；Right boxboard 1-3；Lower boxboard 1-4；Hinge 1-5；Chamber door 1-6；It opens Close control hole 1-7；Rearing-box plate 1-8；Shake hands 1-9；Switch control assembly 2；Switch 2-1；Switch connection frame 2-2；I 2- of connecting shaft 3；Slide-bar 2-4；I sliding rail 2-5 of connecting shaft；Slide plate 2-6；Switch spring 2-7；Spring retainer piece 2-8；II 2-9 of connecting shaft；Switch branch Frame 2-10；III 2-11 of connecting shaft；I 2-12 of knob；I 2-13 of slide plate；Slide plate sliding rail 2-14；I 2-15 of slide plate limit film；Slide plate limit II 2-16 of piece；Switch shaft 2-17；Group switch control column 2-18；Group switch tension spring 2-19；Switch-box 2-20；Master switch sliding slot 2- 21；Master switch knob 2-22；Handhold column 2-23；Shake hands axis 2-24；Shake hands connection frame 2-25；I 2-26 of master switch frame；Pull ring Ⅰ2-27；II 2-28 of master switch frame；II 2-29 of pull ring；III 2-30 of master switch frame；IV 2-31 of master switch frame；Master switch tension spring 2-32； Switching group 2-33；Clamping assembly 3；II 3-1 of knob；II 3-2 of slide plate；III 3-3 of slide plate limit film；IV 3-4 of slide plate limit film；Card Tight control column 3-5；Clamping shaft 3-6；Clamping tension spring 3-7；Clamping control hole 3-8；Clamping bracing strut 3-9；I 3-10 of bevel gear；Cone II 3-11 of gear；Jackshaft 3-12；Upper clip axis 3-13；Lower clip axis 3-14；Upper I 3-15 of snap-gauge；Upper II 3-16 of snap-gauge；It is rectangular Spring 3-17；Lower I 3-18 of snap-gauge；Lower II 3-19 of snap-gauge；Countershaft-gear 3-20；Lower clip shaft gear 3-21；Jackshaft sprocket wheel 3-22；Chain 3-23；Upper clip axis sprocket wheel 3-24；II sliding rail 3-25 of slide plate；Clamp bracing strut 3-26；Door lock assembly 4；Chamber door Button 4-1；I 4-2 of slotted socket；Traveller 4-3；Traveller connecting rod 4-4；Chamber door button limit film 4-5；II 4-6 of slotted socket；Lock Column 4-7；I tension spring 4-8 of skewback；I 4-9 of skewback；Door open button 4-10；Door open button connecting shaft 4-11；Door latch spring 4-12；It opens the door Button limit film 4-13；Unlocking button 4-14；Lockplate 4-15；Lockplate shaft 4-16；Tension spring 4-17；Latch bracket 4-18； II 4-19 of skewback, door lock slide plate 4-20.

Specific embodiment

The present invention is described in further detail below in conjunction with the accompanying drawings.

It is fixedly connected described in the present apparatus and refers to and be fixed by the modes such as weld, be screwed, in conjunction with different Use environment uses different fixed forms；The rotation connection refers to by drying bearing on axis, on axis or axis hole It is provided with spring catch ring recess, the axial restraint of bearing is realized in circlip groove by the way that circlip to be stuck in, realizes rotation；Described It is slidably connected and refers to and be attached by sliding of the sliding block in sliding slot or guide rail；Described hingedly refers to by hinge, pin Movable connection type is carried out on the union pieces such as axis and short axle；It is close by sealing ring or O-ring realization at required sealing Envelope.

Specific embodiment 1:

Illustrate present embodiment, a kind of factory's power distribution cabinet, including the combination of cabinet 1, switch control below with reference to Fig. 1-17 Body 2, clamping assembly 3 and door lock assembly 4, the switch control assembly 2 are connected with cabinet 1, clamping assembly 3 with Cabinet 1 is connected, and door lock assembly 4 is connected with cabinet 1.

Specific embodiment 2:

Illustrate present embodiment below with reference to Fig. 1-17, present embodiment is described further embodiment one, described Cabinet 1 include upper boxboard 1-1, left boxboard 1-2, right boxboard 1-3, lower boxboard 1-4, hinge 1-5, chamber door 1-6, switch control hole 1-7, rearing-box plate 1-8 and knob 1-9, tetra- side rearing-box plate 1-8 respectively with upper boxboard 1-1, left boxboard 1-2, right boxboard 1-3, nowel Plate 1-4 is connected, and the both ends upper boxboard 1-1 are connected with left boxboard 1-2, right boxboard 1-3 respectively, the lower both ends boxboard 1-4 respectively with Left boxboard 1-2, right boxboard 1-3 are connected, and left boxboard 1-2 and hinge 1-5 are rotatablely connected, and hinge 1-5 and chamber door 1-6 rotation connect It connects, chamber door 1-6 is connected with knob 1-9.

Specific embodiment 3:

Illustrate present embodiment below with reference to Fig. 1-17, present embodiment is described further embodiment one, described Switch control assembly 2 include switch 2-1, switch connection frame 2-2, I 2-3 of connecting shaft, slide-bar 2-4, I sliding rail 2-5 of connecting shaft, Slide plate 2-6, switch spring 2-7, spring retainer piece 2-8, II 2-9 of connecting shaft, switch bracket 2-10, III 2-11 of connecting shaft, knob I 2-12, I 2-13 of slide plate, slide plate sliding rail 2-14, I 2-15 of slide plate limit film, II 2-16 of slide plate limit film, switch shaft 2-17, group are opened Close control column 2-18, group switch tension spring 2-19, switch-box 2-20, master switch sliding slot 2-21, master switch knob 2-22, handhold Column 2-23, knob axis 2-24, knob connection frame 2-25, I 2-26 of master switch frame, I 2-27 of pull ring, II 2-28 of master switch frame, pull ring II 2-29, III 2-30 of master switch frame, IV 2-31 of master switch frame, master switch tension spring 2-32 and switching group 2-33, switch 2-1 and switch Connection frame 2-2 is connected, and switch connection frame 2-2 is connected with I 2-3 of connecting shaft, and I 2-3 of connecting shaft and I sliding rail 2-5 of connecting shaft are sliding Dynamic connection, I sliding rail 2-5 of connecting shaft are located on slide-bar 2-4, and the upper end the slide plate 2-6 frame 2-2 that is connected with switch is in contact, slide plate 2-6 and Slide-bar 2-4 is slidably connected, and switch spring 2-7 is socketed on slide-bar 2-4, the both ends switch spring 2-7 respectively with slide plate 2-6, spring Limit film 2-8 contact, spring retainer piece are connected with slide-bar 2-4, and slide-bar 2-4 and II 2-9 of connecting shaft are rotatablely connected, connecting shaft II 2-9 is connected with switch bracket 2-10, switch bracket 2-10 and III 2-11 of connecting shaft be connected, switch bracket 2-10 and rear cabinet Plate 1-8 is connected, and III 2-11 of connecting shaft and switch 2-1 are rotatablely connected, set on switch shaft 2-17 there are three through slot, switch shaft 2-17 On three through slots be socketed on three switch 2-33, I 2-12 of knob is connected with I 2-13 of slide plate, and I 2-13 of slide plate and slide plate limit I 2-15 of bit slice is connected, and I 2-13 of slide plate, I 2-15 of slide plate limit film and slide plate sliding rail 2-14 are slidably connected, slide plate sliding rail 2-14 On switch shaft 2-17, II 2-16 of slide plate limit film is connected with switch shaft 2-17, two group switch control column 2-18 with I 2-12 of knob is connected, and two group switch control column 2-18 are inserted in the 1-7 of switch control hole, and two sides switch control hole 1-7 is located at On left boxboard 1-2, right boxboard 1-3, intermediate switch control hole 1-7 is located on switch-box 2-20, and switch control hole 1-7 does not penetrate a left side It is revolved respectively with two at the group switch both ends tension spring 2-19 of boxboard 1-2, right boxboard 1-3 and switch-box 2-20, two sides switching group 2-33 The group switch tension spring 2-19 of I 2-12 of button, left boxboard 1-2, right boxboard 1-3 contact, two sides switching group 2-33 is in tensional state, The group switch both ends tension spring 2-19 of intermediate switch group 2-33 are contacted with I 2-12 of knob, switch-box 2-20 respectively, intermediate switch group 2- 33 group switch tension spring 2-19 is in tensional state, and switch shaft 2-17 and left boxboard 1-2, right boxboard 1-3 are all rotation connection, Switch shaft 2-17 and switch-box 2-20 is rotatablely connected, and switch-box 2-20 is connected with rearing-box plate 1-8, and handhold column 2-23 is with after Boxboard 1-8 is connected, and master switch knob 2-22 is connected with knob axis 2-24, and knob axis 2-24 and knob connection frame 2-25 are rotated Connection, knob connection frame 2-25 are connected with I 2-26 of master switch frame, and I 2-26 of master switch frame is connected with I 2-27 of pull ring, pull ring I 2-27 is connected with II 2-28 of master switch frame, and II 2-28 of master switch frame is connected with II 2-29 of pull ring, II 2-29 of pull ring with always open It closes III 2-30 of frame to be connected, III 2-30 of master switch frame is connected with IV 2-31 of master switch frame, IV both ends 2-31 of master switch frame difference It is connected with two lower ends master switch tension spring 2-32, two master switch upper ends tension spring 2-32 are connected with upper boxboard 1-1.

Specific embodiment 4:

Illustrate present embodiment below with reference to Fig. 1-17, present embodiment is described further embodiment one, described Clamping assembly 3 include II 3-1 of knob, II 3-2 of slide plate, III 3-3 of slide plate limit film, IV 3-4 of slide plate limit film, clamping control Column 3-5, clamping shaft 3-6, clamping tension spring 3-7, clamping control hole 3-8, clamping bracing strut 3-9, I 3-10 of bevel gear, bevel gear II 3-11, jackshaft 3-12, upper clip axis 3-13, lower clip axis 3-14, I 3-15 of upper snap-gauge, II 3-16 of upper snap-gauge, rectangular spring 3- 17, lower I 3-18 of snap-gauge, II 3-19 of lower snap-gauge, countershaft-gear 3-20, lower clip shaft gear 3-21, jackshaft sprocket wheel 3-22, chain 3-23, upper clip axis sprocket wheel 3-24, slide plate II sliding rail 3-25 and clamp bracing strut 3-26, II 3-1 of knob and II 3-2 phase of slide plate Connection, II 3-2 of slide plate are connected with III 3-3 of slide plate limit film, II 3-2 of slide plate, III 3-3 of slide plate limit film and II sliding rail 3- of slide plate 25 are slidably connected, and II sliding rail 3-25 of slide plate is located on clamping shaft 3-6, and IV 3-4 of slide plate limit film is connected with clamping shaft 3-6, and two A clamping control column 3-5 is connected with II 3-1 of knob, and two clamping control column 3-5 are inserted in clamping control hole 3-8, blocks Tight control hole 3-8 is located on clamping bracing strut 3-9, and clamping shaft 3-6 and clamping bracing strut 3-9 are rotatablely connected, clamping shaft 3-6 and cone I 3-10 of gear is connected, and I 3-10 of bevel gear engages connection, II 3-11 of bevel gear and jackshaft 3-12 phase with II 3-11 of bevel gear Connection, jackshaft 3-12 are connected with countershaft-gear 3-20, jackshaft sprocket wheel 3-22, countershaft-gear 3-20 and lower clip axis Gear 3-21 engagement connection, lower clip shaft gear 3-21 is connected with lower clip axis 3-14, lower clip axis 3-14 with two under block I 3-18 of plate is connected, and two lower I 3-18 of snap-gauge are connected with two rectangular spring 3-17 respectively, and two rectangular spring 3-17 points It is not connected with two lower II 3-19 of snap-gauge, jackshaft sprocket wheel 3-22, chain 3-23, upper clip axis sprocket wheel 3-24 sprocket wheel chain connect It connecing, upper clip axis sprocket wheel 3-24 is connected with upper clip axis 3-13, and upper clip axis 3-13 is connected with two upper I 3-15 of snap-gauge, I 3-15 of snap-gauge are connected with two rectangular spring 3-17 respectively on two, and two rectangular spring 3-17 go up snap-gauges with two respectively II 3-16 is connected, two clamp bracing strut 3-26 respectively with jackshaft 3-12, upper clip axis 3-13, the both ends lower clip axis 3-14 Rotation connection, two clamp bracing strut 3-26 are connected with rearing-box plate 1-8, countershaft-gear 3-20, lower clip shaft gear 3- 21 transmission ratio is identical as jackshaft sprocket wheel 3-22, upper clip axis sprocket wheel 3-24 transmission ratio.

Specific embodiment 5:

Illustrate present embodiment below with reference to Fig. 1-17, present embodiment is described further embodiment one, described Door lock assembly 4 include chamber door button 4-1, I 4-2 of slotted socket, traveller 4-3, traveller connecting rod 4-4, chamber door button limit Piece 4-5, II 4-6 of slotted socket, lock pillar 4-7, I tension spring 4-8 of skewback, I 4-9 of skewback, door open button 4-10, door open button connecting shaft 4-11, door latch spring 4-12, door open button limit film 4-13, unlocking button 4-14, lockplate 4-15, lockplate shaft 4-16, Tension spring 4-17, latch bracket 4-18, II 4-19 of skewback and door lock slide plate 4-20, chamber door button 4-1 and chamber door 1-6 clearance fit, Chamber door button 4-1 is connected with I 4-2 of slotted socket, I 4-2 of slotted socket and traveller 4-3 clearance fit, and traveller 4-3 and traveller connect Extension bar 4-4 is connected, and traveller connecting rod 4-4 is connected with right boxboard 1-3, I 4-2 of slotted socket and chamber door button limit film 4-5 It is connected, chamber door button limit film 4-5 and traveller 4-3 clearance fit, II 4-6 of slotted socket and traveller 4-3 clearance fit, trough of belt II 4-6 of sleeve is connected with lock pillar 4-7, and I tension spring 4-8 of skewback is socketed on lock pillar 4-7, and I upper end tension spring 4-8 of skewback and door lock are sliding Plate 4-20 is connected, and I lower end tension spring 4-8 of skewback is connected with I 4-9 of skewback, and I tension spring 4-8 of skewback is in tensional state, and enabling is pressed Button 4-10 is connected with door open button connecting shaft 4-11, and door open button connecting shaft 4-11 is connected with door open button limit film 4-13 Connect, door latch spring 4-12 is socketed on door open button connecting shaft 4-11, the both ends door latch spring 4-12 respectively with door open button 4-10, Right boxboard 1-3 is in contact, and door latch spring 4-12 is in compressive state, and door open button connecting shaft 4-11 and right boxboard 1-3 sliding connect It connects, unlocking button 4-14 is connected with lockplate 4-15, and lockplate 4-15 is connected with II 4-19 of skewback, lockplate 4-15 and lock Fixed board shaft 4-16 rotation connection, the both ends lockplate shaft 4-16 are connected with two latch bracket 4-18 respectively, two door locks Bracket 4-18 is connected with door lock slide plate 4-20, and door lock slide plate 4-20 is connected with right boxboard 1-3.

A kind of factory's power distribution cabinet of the invention, its working principle is that: the downward upper end toggle switch 2-1 drives switch 2-1 Lower end is moved upwards around III 2-11 of connecting shaft, and the lower end switch 2-1 drives switch connection frame 2-2 to move upwards, and switchs connection frame 2-2 I 2-3 of connecting shaft upward sliding in I sliding rail 2-5 of connecting shaft is driven, I 2-3 of connecting shaft drives the upper end slide-bar 2-4 to move upwards, sliding Axis 2-4 is moved upwards around II 2-9 of connecting shaft, and switch connection frame 2-2 no longer limits slide plate 2-6, and slide plate 2-6 is in switch spring 2- Along slide-bar 2-4 upward sliding under 7 thrust, when I 2-3 of connecting shaft slides into the I sliding rail vertex 2-5 of connecting shaft, connection frame 2-2 is switched Slide plate 2-6 is limited again, slide plate 2-6 is stopped on slide-bar 2-4 and slided, and dials up the upper end switch 2-1, drives switch 2-1 Lower end is moved downward around III 2-11 of connecting shaft, and the lower end switch 2-1 drives switch connection frame 2-2 to move downward, and switchs connection frame 2-2 I 2-3 of connecting shaft slide downward in I sliding rail 2-5 of connecting shaft is driven, I 2-3 of connecting shaft drives the upper end slide-bar 2-4 to move downward, sliding Axis 2-4 is moved downward around II 2-9 of connecting shaft, and switch connection frame 2-2 no longer limits slide plate 2-6, and slide plate 2-6 is in switch spring 2- Along slide-bar 2-4 slide downward under 7 thrust, when I 2-3 of connecting shaft slides into the I sliding rail vertex 2-5 of connecting shaft, connection frame 2-2 is switched Slide plate 2-6 is limited again, slide plate 2-6 stops at slide-bar 2-4 lower slider, and upper and lower toggle switch 2-1 is two kinds of switch states, and two Kind state is completed rapidly, to can control connecting and disconnecting of the circuit, dial up switch 2-1 circuit communication under the action of switch spring 2-7, Downward toggle switch 2-1 circuit disconnects, and extracts I 2-12 of knob, and I 2-12 of knob drives I 2-13 of slide plate in slide plate sliding rail 2-14 Sliding, I 2-13 of slide plate drives I 2-15 of slide plate limit film to slide in slide plate sliding rail 2-14, when I 2-15 of slide plate limit film slides into cunning It is limited when the plate sliding rail 2-14 end by II 2-16 of slide plate limit film, I 2-12 of knob cannot be extracted, I 2-12 drive group of knob switch Control column 2-18 is extracted from the 1-7 of switch control hole, rotates clockwise I 2-12 of knob, and I 2-12 of knob passes through I 2-13 band of slide plate Dynamic switch shaft 2-17 is rotated, and the through slot on switch shaft 2-17 drives switch 2-1 to rotate down, and circuit disconnects, and is switched again by group It controls in column 2-18 insertion switch control hole 1-7, I 2-12 of knob is not able to rotate, and switch shaft 2-17 is not able to rotate, switch 2-1 quilt Limit, cannot stir, and rotate counterclockwise I 2-12 of knob, and I 2-12 of knob drives switch shaft 2-17 rotation by I 2-13 of slide plate, opens Closing the through slot on axis 2-17 drives switch 2-1 to be rotated up, and circuit is connected, again will group switch control column 2-18 insertion switch control In drilling 1-7, I 2-12 of knob is not able to rotate, and switch shaft 2-17 is not able to rotate, and switch 2-1 is limited, and cannot be stirred, reset group In switch control column 2-18, switch control column 2-18 insertion switch control hole 1-7, I 2-12 of knob is not able to rotate, switch shaft 2-17 It is not able to rotate, switch 2-1 can be stirred up and down, pull downward on master switch knob 2-22, and master switch knob 2-22 drives knob axis 2-24 is moved down, and knob axis 2-24 drives knob connection frame 2-25 to move down, and knob connection frame 2-25 drives master switch frame I 2-26 is moved down, and I 2-26 of master switch frame drives I 2-27 of pull ring, I 2-27 of pull ring that II 2-28 of master switch frame is driven to move down, II 2-28 of master switch frame drives II 2-29 of pull ring to move down, and II 2-29 of pull ring drives III 2-30 of master switch frame to move down, always III 2-30 of switch frame drives IV 2-31 of master switch frame to move down, and IV 2-31 of master switch frame drives master switch tension spring 2-32 to stretch, Continue to stretch downwards when I 2-27 of pull ring, II 2-29 of pull ring and switch 2-1 are contacted, under entirety switch 2-1 is dialled, all circuits It disconnects, master switch knob 2-22 is socketed on handhold column 2-23, and entirety switch 2-1 cannot be dialed up, and circuit can not connect It is logical, II 3-1 of knob is pulled up, II 3-1 of knob drives II 3-2 of slide plate to slide in II sliding rail 3-25 of slide plate, and II 3-2 of slide plate drives slide plate III 3-3 of limit film is slided in II sliding rail 3-25 of slide plate, sliding when III 3-3 of slide plate limit film slides into the II sliding rail 3-25 end of slide plate III 3-3 of plate limit film is limited by IV 3-4 of slide plate limit film, and II 3-1 of knob cannot be extracted, and clamping controls column 3-5 and controls from clamping It is extracted in the 3-8 of hole, rotates counterclockwise II 3-1 of knob, II 3-1 of knob drives clamping shaft 3-6 rotation, clamping by II 3-2 of slide plate Axis 3-6 band I 3-10 of dynamic bevel gear is rotated, and bevel gear I 3-10 band II 3-11 of dynamic bevel gear is rotated, and II 3-11 of bevel gear drives intermediate Axis 3-12 rotation, jackshaft 3-12 drive countershaft-gear 3-20, jackshaft sprocket wheel 3-22 rotation, and countershaft-gear 3-20 drives Lower clip shaft gear 3-21 rotation, lower clip shaft gear 3-21 drive lower clip axis 3-14 rotation, and lower clip axis 3-14 drives two A I 3-18 of lower snap-gauge is rotated down, and two lower I 3-18 of snap-gauge drive two rectangular spring 3-17 to rotate down, two rectangular bullets Spring 3-17 drives two lower II 3-19 of snap-gauge to rotate down, and jackshaft sprocket wheel 3-22 drives upper clip axis sprocket wheel by chain 3-23 3-24 rotation, upper clip axis sprocket wheel 3-24 drive upper clip axis 3-13 to be rotated up, and upper clip axis 3-13 drives two upper snap-gauges I 3-15 is rotated up, and two upper I 3-15 of snap-gauge drive two rectangular spring 3-17 to be rotated up, and two rectangular spring 3-17 drive Two upper II 3-16 of snap-gauge are rotated up, and separate between two upper II 3-16 of snap-gauge and two lower II 3-19 of snap-gauge, square tube is caught in Between two upper lower II gaps 3-19 of snap-gauge of snap-gauge II 3-16 and two, II 3-1 of knob is rotated clockwise, repeats power by knob II 3-1 is transmitted to the transmission process of two upper lower II 3-19 of snap-gauge of snap-gauge II 3-16 and two, and power is oppositely oriented, two upper snap-gauges Gap between II 3-16 and two lower II 3-19 of snap-gauge becomes smaller, and square tube is clamped, and cabinet is immovable, puts down II 3-1 of knob, rotation II 3-1 of button return under clamping tension spring 3-7 effect, clamping control column 3-5 reinsert clamping control hole 3-8, and II 3-1 of knob is not It is able to rotate, gripping mechanism locking, cabinet is clamped, and chamber door 1-6 is closed around hinge 1-5, presses lower chamber door button 4-1, chamber door is pressed Button 4-1 drives I 4-2 of slotted socket to be socketed on traveller 4-3, and I 4-2 of slotted socket drives chamber door button limit film 4-5 and trough of belt II 4-6 of sleeve contact, chamber door button limit film 4-5 push II 4-6 of slotted socket mobile, and II 4-6 of slotted socket drives lock pillar 4-7 Mobile, lock pillar 4-7 drives the inclined-plane and II 4-19 contact of incline plane of skewback of I 4-9 of skewback, continues to press chamber door button 4-1, I 4-9 of skewback Plane and II 4-19 plane contact of skewback, I 4-9 of skewback is locked, cannot rebound, chamber door 1-6 is in I 4-2 of slotted socket and cunning Can not be opened under the cooperation of column 4-3, press door open button 4-10, door open button 4-10 drive door open button connecting shaft 4-11 to Preceding movement, door open button connecting shaft 4-11 drive door open button limit film 4-13 to move forward, door open button limit film 4-13 band Dynamic unlocking button 4-14 is moved forward, and unlocking button 4-14 drives the upper end lockplate 4-15 to move forward, the lower end lockplate 4-15 It is moved backward around lockplate shaft 4-16, the lower end lockplate 4-15 drives II 4-19 of skewback to move backward, the plane of I 4-9 of skewback It not being contacted with II 4-19 plane of skewback, I 4-9 of skewback limit releases, and I 4-9 of skewback is sprung back under the pulling force of I tension spring 4-8 of skewback, Lock pillar 4-7 drives II 4-6 of slotted socket to contact with chamber door button limit film 4-5, and chamber door button limit film 4-5 drives slotted socket I 4-2 is disconnected with traveller 4-3, and I 4-2 of slotted socket drives chamber door button 4-1 pop-up, and chamber door 1-6 is no longer locked at this time, Door open button 4-10 is unclamped, under door latch spring 4-12 effect, door open button 4-10 resets.

Certainly, above description is not limitation of the present invention, and the present invention is also not limited to the example above, the art The variations, modifications, additions or substitutions that those of ordinary skill is made within the essential scope of the present invention also belong to guarantor of the invention Protect range.

Claims (5)

1. a kind of factory's power distribution cabinet, including cabinet (1), switch control assembly (2), clamping assembly (3) and door lock combination Body (4), it is characterised in that: the switch control assembly (2) is connected with cabinet (1), clamping assembly (3) and cabinet (1) it is connected, door lock assembly (4) is connected with cabinet (1).

2. a kind of factory's power distribution cabinet according to claim 1, it is characterised in that: the cabinet (1) includes upper boxboard (1- 1), left boxboard (1-2), right boxboard (1-3), lower boxboard (1-4), hinge (1-5), chamber door (1-6), switch control hole (1-7), after Boxboard (1-8) and knob (1-9), four side of rearing-box plate (1-8) respectively with upper boxboard (1-1), left boxboard (1-2), right boxboard (1- 3), lower boxboard (1-4) is connected, and upper boxboard (1-1) both ends are connected with left boxboard (1-2), right boxboard (1-3) respectively, nowel The both ends plate (1-4) are connected with left boxboard (1-2), right boxboard (1-3) respectively, and left boxboard (1-2) and hinge (1-5) rotation connect It connects, hinge (1-5) and chamber door (1-6) are rotatablely connected, and chamber door (1-6) is connected with knob (1-9).

3. a kind of factory's power distribution cabinet according to claim 1, it is characterised in that: switch control assembly (2) packet Include switch (2-1), switch connection frame (2-2), connecting shaft I (2-3), slide-bar (2-4), I sliding rail of connecting shaft (2-5), slide plate (2- 6), switch spring (2-7), spring retainer piece (2-8), connecting shaft II (2-9), switch bracket (2-10), connecting shaft III (2-11), Knob I (2-12), slide plate I (2-13), slide plate sliding rail (2-14), slide plate limit film I (2-15), slide plate limit film II (2-16), Switch shaft (2-17), group switch control column (2-18), group switch tension spring (2-19), switch-box (2-20), master switch sliding slot (2- 21), master switch knob (2-22), handhold column (2-23), knob axis (2-24), knob connection frame (2-25), master switch frame I (2-26), pull ring I (2-27), master switch frame II (2-28), pull ring II (2-29), master switch frame III (2-30), master switch frame IV (2-31), master switch tension spring (2-32) and switching group (2-33), switch (2-1) frame (2-2) that is connected with switch are connected, and switch connects It connects frame (2-2) to be connected with connecting shaft I (2-3), connecting shaft I (2-3) is slidably connected with I sliding rail of connecting shaft (2-5), connecting shaft I Sliding rail (2-5) is located on slide-bar (2-4), and the upper end slide plate (2-6) frame (2-2) that is connected with switch is in contact, slide plate (2-6) and slide-bar (2-4) is slidably connected, and switch spring (2-7) is socketed on slide-bar (2-4), the both ends switch spring (2-7) respectively with slide plate (2- 6), spring retainer piece (2-8) contacts, and spring retainer piece is connected with slide-bar (2-4), and slide-bar (2-4) and connecting shaft II (2-9) turn Dynamic connection, connecting shaft II (2-9) are connected with switch bracket (2-10), switch bracket (2-10) and connecting shaft III (2-11) and phase Connection, switch bracket (2-10) are connected with rearing-box plate (1-8), connecting shaft III (2-11) and switch (2-1) rotation connection, switch It is set on axis (2-17) there are three through slot, three through slots on switch shaft (2-17) are socketed on three switches (2-33), knob I (2-12) is connected with slide plate I (2-13), and slide plate I (2-13) is connected with slide plate limit film I (2-15), and slide plate I (2-13) is slided Plate limit film I (2-15) is slidably connected with slide plate sliding rail (2-14), and slide plate sliding rail (2-14) is located on switch shaft (2-17), slide plate Limit film II (2-16) is connected with switch shaft (2-17), and two group switch control columns (2-18) are connected with knob I (2-12) It connects, two group switch control columns (2-18) are inserted in switch control hole (1-7), and two sides switch control hole (1-7) is located at left boxboard On (1-2), right boxboard (1-3), intermediate switch control hole (1-7) is located on switch-box (2-20), and switch control hole (1-7) is not worn Saturating left boxboard (1-2), right boxboard (1-3) and switch-box (2-20), the group of two sides switching group (2-33) switch tension spring (2-19) two End is contacted with two knobs I (2-12), left boxboard (1-2), right boxboard (1-3) respectively, the group switch of two sides switching group (2-33) Tension spring (2-19) is in tensional state, group switch both ends tension spring (2-19) of intermediate switch group (2-33) respectively with I (2- of knob 12), switch-box (2-20) contacts, and group switch tension spring (2-19) of intermediate switch group (2-33) is in tensional state, switch shaft (2-17) and left boxboard (1-2), right boxboard (1-3) are all rotation connection, and switch shaft (2-17) and switch-box (2-20) rotation connect It connects, switch-box (2-20) is connected with rearing-box plate (1-8), and handhold column (2-23) is connected with rearing-box plate (1-8), master switch Knob (2-22) is connected with knob axis (2-24), and knob axis (2-24) and knob connection frame (2-25) rotation connection, knob connect It connects frame (2-25) to be connected with master switch frame I (2-26), master switch frame I (2-26) is connected with pull ring I (2-27), I (2- of pull ring 27) it is connected with master switch frame II (2-28), master switch frame II (2-28) is connected with pull ring II (2-29), pull ring II (2-29) It is connected with master switch frame III (2-30), master switch frame III (2-30) is connected with master switch frame IV (2-31), master switch frame IV The both ends (2-31) are connected with two master switch tension spring (2-32) lower ends respectively, two master switch tension spring upper ends (2-32) and top box Plate (1-1) is connected.

4. a kind of factory's power distribution cabinet according to claim 1, it is characterised in that: the clamping assembly (3) includes rotation Button II (3-1), slide plate II (3-2), slide plate limit film III (3-3), slide plate limit film IV (3-4), clamping control column (3-5), card Mandrel (3-6), clamping tension spring (3-7), clamping control hole (3-8), clamping bracing strut (3-9), bevel gear I (3-10), bevel gear II (3-11), jackshaft (3-12), upper clip axis (3-13), lower clip axis (3-14), upper snap-gauge I (3-15), II (3- of upper snap-gauge 16), rectangular spring (3-17), lower snap-gauge I (3-18), lower snap-gauge II (3-19), countershaft-gear (3-20), lower clip shaft gear (3-21), jackshaft sprocket wheel (3-22), chain (3-23), upper clip axis sprocket wheel (3-24), II sliding rail of slide plate (3-25) and clamp Bracing strut (3-26), knob II (3-1) are connected with slide plate II (3-2), slide plate II (3-2) and slide plate limit film III (3-3) phase Connection, slide plate II (3-2), slide plate limit film III (3-3) and II sliding rail of slide plate (3-25) are slidably connected, II sliding rail of slide plate (3-25) On clamping shaft (3-6), slide plate limit film IV (3-4) is connected with clamping shaft (3-6), and two clamping controls column (3-5) are equal It is connected with knob II (3-1), two clamping controls column (3-5) are inserted in clamping control hole (3-8), clamping control hole (3- 8) it is located on clamping bracing strut (3-9), clamping shaft (3-6) and clamping bracing strut (3-9) are rotatablely connected, clamping shaft (3-6) and cone Gear I (3-10) is connected, and bevel gear I (3-10) engages connection, bevel gear II (3-11) and centre with bevel gear II (3-11) Axis (3-12) is connected, and jackshaft (3-12) is connected with countershaft-gear (3-20), jackshaft sprocket wheel (3-22), jackshaft tooth Wheel (3-20) engages connection with lower clip shaft gear (3-21), and lower clip shaft gear (3-21) is connected with lower clip axis (3-14) Connect, lower clip axis (3-14) is connected with two lower snap-gauges I (3-18), two lower snap-gauges I (3-18) respectively with two rectangular bullets Spring (3-17) is connected, and two rectangular springs (3-17) are connected with two lower snap-gauges II (3-19) respectively, jackshaft sprocket wheel (3- 22), chain (3-23), the connection of upper clip axis sprocket wheel (3-24) sprocket wheel chain, upper clip axis sprocket wheel (3-24) and upper clip axis (3- 13) be connected, upper clip axis (3-13) is connected with two upper snap-gauges I (3-15), two upper snap-gauges I (3-15) respectively with two Rectangular spring (3-17) is connected, and two rectangular springs (3-17) are connected with two upper snap-gauges II (3-16) respectively, two cards Sub- bracing strut (3-26) is rotatablely connected with jackshaft (3-12), upper clip axis (3-13), the lower clip axis both ends (3-14) respectively, and two A clamp bracing strut (3-26) is connected with rearing-box plate (1-8), countershaft-gear (3-20), lower clip shaft gear (3-21) Transmission ratio is identical as jackshaft sprocket wheel (3-22), upper clip axis sprocket wheel (3-24) transmission ratio.

5. a kind of factory's power distribution cabinet according to claim 1, it is characterised in that: the door lock assembly (4) includes case Door button (4-1), slotted socket I (4-2), traveller (4-3), traveller connecting rod (4-4), chamber door button limit film (4-5), trough of belt Sleeve II (4-6), lock pillar (4-7), I tension spring of skewback (4-8), skewback I (4-9), door open button (4-10), door open button connecting shaft (4-11), door latch spring (4-12), door open button limit film (4-13), unlocking button (4-14), lockplate (4-15), lockplate Shaft (4-16), tension spring (4-17), latch bracket (4-18), skewback II (4-19) and door lock slide plate (4-20), chamber door button (4- 1) it is connected with chamber door (1-6) clearance fit, chamber door button (4-1) with slotted socket I (4-2), slotted socket I (4-2) and cunning Column (4-3) clearance fit, traveller (4-3) are connected with traveller connecting rod (4-4), traveller connecting rod (4-4) and right boxboard (1-3) It is connected, slotted socket I (4-2) is connected with chamber door button limit film (4-5), chamber door button limit film (4-5) and traveller (4- 3) clearance fit, slotted socket II (4-6) and traveller (4-3) clearance fit, slotted socket II (4-6) are connected with lock pillar (4-7) It connecing, I tension spring of skewback (4-8) is socketed on lock pillar (4-7), and I tension spring of the skewback upper end (4-8) is connected with door lock slide plate (4-20), I tension spring of the skewback lower end (4-8) is connected with skewback I (4-9), and I tension spring of skewback (4-8) is in tensional state, door open button (4- 10) it is connected with door open button connecting shaft (4-11), door open button connecting shaft (4-11) and door open button limit film (4-13) phase Connection, door latch spring (4-12) is socketed on door open button connecting shaft (4-11), the both ends door latch spring (4-12) respectively with enabling Button (4-10), right boxboard (1-3) are in contact, and door latch spring (4-12) is in compressive state, door open button connecting shaft (4-11) It is slidably connected with right boxboard (1-3), unlocking button (4-14) is connected with lockplate (4-15), lockplate (4-15) and skewback II (4-19) is connected, and lockplate (4-15) and lockplate shaft (4-16) are rotatablely connected, the lockplate shaft both ends (4-16) difference It is connected with two latch brackets (4-18), two latch brackets (4-18) are connected with door lock slide plate (4-20), and door lock is sliding Plate (4-20) is connected with right boxboard (1-3).