CN101814705A - A draw-in and out device for circuit breaker and breaker with the same - Google Patents

Abstract

This invention discloses a device for a breaker including: a principal shaft is in form of manual rotation; a moveable plate is engaged with the threaded portion of the principal shaft and moved forward and backward with the principal shaft; a second rack that is moved forward and backward with the principal rack; a pinion that is rotated with the moving of the principal rack; a connection rod that transfers the drive force to change the master site of breaker body; a tow pinion that transfers the drive force from the connection rod; a slide rail that moves the breaker body; a second rack that is engaged with the tow gear and moves the slide rail horizontally with the rotation of the tow gear.

Description

The Withdrawable device and circuit breaker that are used for circuit breaker with this device

Technical field

The present invention relates to circuit breaker, relate in particular to Withdrawable device that is used for circuit breaker and circuit breaker with this device.

Background technology

Circuit breaker comprises as the vacuum circuit-breaker of primary cut-out with as the air circuit of low-voltage circuit breaker.Vacuum circuit-breaker is widely used as several kilovolts of main circuit breakers to the high-tension circuit of hundreds of thousands volt of blocking-up.Air circuit is installed in transformer in electric power input and distributor circuit after, and be widely used as the main circuit breaker that blocking voltage is lower than the low-voltage circuit of hundreds of volts.Why being called air circuit is because it can extinguish airborne electric arc.

This circuit breaker can be divided into fixedly circuit breaker and can extract circuit breaker out.But, can extract circuit breaker out because it is convenient to detect and maintenance and being widely adopted.Circuit breaker be can extract out and breaker body, carriage and Withdrawable device comprised.

Breaker body comprises the switching mechanism that connects or disconnects circuit and typically is configured to the hold concurrently controller of terminal part of overcurrent relay.Carriage can be linked in external power source and the electric load, and has the terminal part or the disconnection from it that can be connected to the terminal part of main body according to indentation (connection), detection and extraction (disconnection) position of breaker body.Carriage is in order to support breaker body.Withdrawable device is installed in the carriage, makes that breaker body can indentation and extraction.

The present invention relates to be used for to extract out the Withdrawable device of circuit breaker.Be used for causing following great number of issues according to the Withdrawable device of this circuit breaker of prior art.

That is, be used for can producing an interval (period) according to the Withdrawable device of the circuit breaker of prior art, this at interval in, indentation or the actuating force of extracting breaker body out are transmitted by phased manner.Therefore, the impact that takes place when applying the electric power of delay at once may damage or make the deformed element of the transmitting electric power of a part that is configured to Withdrawable device, thereby reduces the useful life of circuit breaker.

Summary of the invention

Therefore, in order to overcome defective of the prior art, one object of the present invention is to provide a kind of Withdrawable device that is used for circuit breaker, and it can avoid being configured in transmitting electric power parts damages or distortion in the described withdrawing device by transmitting electric power routinely.

Another object of the present invention is to provide the circuit breaker with this Withdrawable device.

In order to realize these and other advantage and according to purpose of the present invention, as embodying and general description at this, a kind of Withdrawable device that is used for circuit breaker is provided in a scheme, comprise: can be manually or the main shaft by the mobile process rotation, its be configured to provide actuating force with the main body that drives circuit breaker to indentation or extract the position out; Power transfer unit with the parts that always are connected to main shaft and breaker body, continuously actuating force is delivered to breaker body from main shaft, main body can move to indentation or extract the position out like this; With the guidance unit that is configured to guide the actuating force transfer unit to move.

In another scheme of the present invention, a kind of Withdrawable device that is used for circuit breaker is provided, it is provided with and is electrically connected to power supply and electric load and has carriage in order to the side plate that supports breaker body, with can move to link position, the main body of detection position and open position, main body is electrically connected to carriage on link position, even main body and carriage electricity disconnects on the detection position, also can provide control power supply and input/output signal, main body and main shaft electricity disconnects on open position, the control power supply will be cut off and can not input/output signal like this, this device comprises: have the main shaft of threaded portion, it can manually rotate by connecting handle; With the portable plate that mesh the threaded portion of main shaft, when the rotation of the threaded portion of main shaft, its threaded portion along with main shaft moves forward and backward; Be arranged on first tooth bar of the upper surface of portable plate, it can move forward and backward along with moving forward and backward of portable plate; With the pinion that corresponding first tooth bar engages, it can rotate along with first the moving forward and backward of tooth bar; Coaxially be connected to the connecting rod of pinion, rotate, and be configured to provide actuating force to move to allow circuit breaker by the revolving force of gear transmission from childhood; Traction gear, an end of each traction gear are connected to corresponding connecting rod to transmit the actuating force from connecting rod; Second tooth bar that engages with traction gear, it is configured to convert the revolving force of traction gear to horizontal actuator force; With the rail plate that is configured to move horizontally with second tooth bar, it also supports second tooth bar, thereby and the main body that is connected to circuit breaker drive the main body of circuit breaker.

In another one scheme of the present invention, a kind of circuit breaker is provided, it is provided with and is electrically connected to power supply and electric load and has carriage in order to the side plate that supports breaker body, with can move to link position, the main body of detection position and open position, main body is electrically connected to carriage on link position, even main body and carriage electricity disconnects on the detection position, the I/O with signal of providing of control power supply also is provided, main body and carriage electricity disconnects on open position, power supply will cut off and can not input/output signal like this, this circuit breaker comprises: have the main shaft of threaded portion, it can manually rotate by connecting handle; With the portable plate that mesh the threaded portion of main shaft, when the rotation of the threaded portion of main shaft, described portable plate moves forward and backward along with the threaded portion of main shaft; Be installed in first tooth bar of the upper surface of portable plate, it can move forward and backward along with moving forward and backward of portable plate; With the pinion that corresponding tooth bar engages, it can rotate along with first the moving forward and backward of tooth bar; Coaxially be connected to the connecting rod of pinion, it rotates by the revolving force of gear transmission from childhood, and is configured to provide actuating force to move to allow circuit breaker; Traction gear, an end of each traction gear are connected to corresponding connecting rod to transmit the power from connecting rod; Second tooth bar that engages with traction gear, it is configured to the revolving force of traction gear is changed into horizontal actuator force; With the rail plate that is configured to move horizontally with second tooth bar, and support second tooth bar, thereby its main body that is connected to circuit breaker drives the main body of circuit breaker.

Aforementioned and other purpose, feature, scheme and advantage of the present invention will become clearer in conjunction with the accompanying drawings from following detailed description of the present invention.

Description of drawings

For further understanding that invention is included in the specification and as the accompanying drawing of the part of present disclosure, showing embodiments of the invention, it is used from explanation one and explains principle of the present invention.

In the accompanying drawings,

Fig. 1 is and the stereogram that is used to be in the carriage that the Withdrawable device that removed the circuit breaker under the circuit breaker subjective situation is assembled together according to the present invention;

Fig. 2 illustrates the stereogram in order to terminal part that connects power supply and electric load and the terminal base that supports terminal part that is arranged in Fig. 1 carriage rear;

Fig. 3 is the plane graph that the configuration of terminal part among Fig. 2 is shown discretely;

Fig. 4 is the stereogram that illustrates according to the configuration of the Withdrawable device that is used for circuit breaker of the present invention;

Fig. 5 is the front view according to the configuration of the Withdrawable device that is used for circuit breaker of the present invention, shows the connection configuration between second connecting rod, traction gear, guidance unit and control terminal drive rods of all configuration Withdrawable devices especially;

Fig. 6 is the front view that illustrates according to the configuration of the Withdrawable device that is used for circuit breaker of the present invention;

Fig. 7 illustrates the front view that is configured to according to the configuration of the rail plate of the Withdrawable device that is used for circuit breaker of the present invention and second tooth bar;

Fig. 8 to Figure 11 illustrates in running orderly according to the front view that is used for the Withdrawable device of circuit breaker of the present invention, that is, Fig. 8 is the front view that is illustrated in the in running order Withdrawable device that is used for circuit breaker in disconnection (extraction) position; Fig. 9 is illustrated in the front view that the detection position is in the Withdrawable device that is used for circuit breaker of operating state; Figure 10 is the front view that is illustrated in the in running order Withdrawable device that is used for circuit breaker in initial connection (initial indentation) position; Figure 11 is illustrated in the front view that connects the in running order Withdrawable device that is used for circuit breaker in (being fully retracted) position fully;

Figure 12 to Figure 15 illustrates breaker body to be installed on the circuit breaker that has according to Withdrawable device of the present invention, and quilt is shifted onto the stereogram of retracted position by using handle, promptly, Figure 12 is a stereogram of extracting first rail plate and second rail plate from the carriage that breaker body also is not installed out, Figure 13 illustrates the stereogram that breaker body is installed to the carriage among Figure 12, Figure 14 illustrates second rail plate to be connected to breaker body, make the stereogram of breaker body indentation carriage by front surface, and Figure 15 illustrates handle is connected to main shaft breaker body is shifted onto the stereogram of complete link position with the hand propelled breaker body; And

Figure 16 to Figure 17 illustrates the Withdrawable device of breaker body that is used for according to the present invention respectively at initial link position and complete link position, the plane graph of the connection status between the terminal part of breaker body and the carriage terminal part, promptly, Figure 16 shows under the operating state of Figure 10 (being initial link position), initial connection status between the terminal part of breaker body and the terminal part of carriage, and Figure 17 shows under the operating state of Figure 11 (being complete link position), the complete connection status between the terminal part of breaker body and the terminal part of carriage.

Embodiment

By of the of the present invention preferred embodiment of reference accompanying drawing, can more be expressly understood purpose of the present invention and for achieving the above object configuration of the present invention and operating effect in this detailed description.

The Withdrawable device that is used for circuit breaker according to the present invention is installed in the carriage that supports breaker body, and electric connecting part is provided to dispatch from foreign news agency source and load side.Therefore, the configuration of carriage is described at first with reference to the accompanying drawings.

At first, only be and be used to be in the carriage that the Withdrawable device that removed the circuit breaker under the circuit breaker subjective situation is assembled together with reference to what the stereogram of Fig. 1 was described according to of the present invention.

As shown in Figure 1, carriage 10 has terminal, can be electrically connected to power supply and electric load by described terminal.Carriage 10 can comprise be connected to its rear side with the terminal base plate 11 that electrical connection is provided to external power and electric load and be positioned at terminal base plate 11 the place aheads (that is the right part of terminal base plate 11 in Fig. 1) according to Withdrawable device of the present invention.

Describe terminal base plate 11 briefly with reference to Fig. 2, Fig. 2 illustrates the stereogram in order to the terminal base plate of the terminal part that connects power supply and electric load and the terminal part that supports Fig. 1 that is arranged in the carriage rear portion.

Terminal base plate 11 can be made by the material that has the insulator of good mechanical strength such as synthetic resin etc., and as shown in Figure 2, terminal base plate 11 supports the three groups of terminal parts in top and the three groups of terminal parts in bottom.Three groups of terminal parts of three groups of terminal parts in top and bottom are configured to have three terminal parts of the three-phase line of the three-phase line that is connected to power supply or electric load.The terminal part of every phase is by being configured to a plurality of conductive plate layerings.Fig. 2 only shows the main body connecting terminal T2 of portion in the terminal part.

Describe the detailed configuration of terminal part among Fig. 2 with reference to Fig. 3, Fig. 3 is the plane graph that the configuration of terminal part among Fig. 2 is shown discretely.

As shown in Figure 3, terminal part can comprise T1 of external connection terminal portion and the main body connecting terminal T2 of portion.The long-term maintenance of the three-phase external connection terminal T1 of portion is connected with external power line or outer electric power load line.Therefore, the T1 of external connection terminal portion is configured to busbar (as becoming with copper), form on the whole "T"-shaped, the screwed hole that has that being used for the connecting hole that line connects and is used for fixing etc.On the other hand, the T2 of main body connecting terminal portion is the terminal part (seeing the T3 among Figure 16 and Figure 17) that is connected with the terminal part of breaker body.This main body connecting terminal T2 of portion is along with the indentation and the extraction of breaker body, is connected with corresponding main body terminal part relatively continually or disconnects.Therefore, the main body connecting terminal T2 of portion can be by being configured to a plurality of conductive plate layerings, and conductive plate keeps in touch pressure by flat spring (not providing Reference numeral).

Describe according to the configuration that is used for the Withdrawable device of circuit breaker of the present invention with reference to Fig. 4 to Fig. 6., in Figure 11, also protrude at Fig. 5, with the configured in one piece that more clearly shows some element or the connection status between them with overlap condition even be noted that the part that covers.

Fig. 4 is the stereogram that illustrates according to the configuration of the Withdrawable device that is used for circuit breaker of the present invention, Fig. 5 is the front view according to the configuration of the Withdrawable device that is used for circuit breaker of the present invention, show the connection configuration between second connecting rod, traction gear, guide slit and control terminal drive rods of all configuration Withdrawable devices especially, and Fig. 6 is the front view that illustrates according to the configuration of the Withdrawable device that is used for circuit breaker of the present invention.

The Withdrawable device that is used for circuit breaker according to the present invention can comprise main shaft 21, actuating force transfer unit (as 22,22a, 23,24,26a, 26b, 27,28,30 and 50), and guidance unit (as 12 and 12a).

Main shaft 21 can be by manual or motor-driven rotation, and provides actuating force to drive breaker body (seeing 60 among Figure 13 and Figure 14) to indentation (connection) position or extraction (disconnection) position.That is, as shown in figure 15, main shaft 21 can manually rotate by connecting handle H.Alternatively, main shaft 21 also can rotate such as tracker actions such as motor (not shown) by connecting.Here, although do not illustrate, main shaft 21 can comprise polygon (as the hexagon) link that connects handle H, and handle H can comprise that shape is connected groove accordingly with link.In addition, main shaft 21 also is provided with the threaded portion that is formed on its outer surface, and this threaded portion has the predetermined length with portable plate 22 engagements, and portable plate 22 just can be removed like this, hereinafter will explain in details.

According to the present invention, and the actuating force transfer unit (as 22,22a, 23,24,26a, 26b, 27,28,30 and 50) always can have the parts that are connected with breaker body with main shaft 21, constantly the actuating force of main shaft 21 is delivered to breaker body, like this, breaker body can move to indentation or extract the position out.

The actuating force transfer unit can comprise portable plate 22, the first tooth bar 22a, pinion 23, connecting rod 26a and 26b, traction gear 27, first rail plate 30 and second tooth bar 50.The actuating force transfer unit can further comprise gear back shaft 24 and connecting pin 28.

Portable plate 22 is connected to main shaft 21 by screwing, thereby relies on the rotation of main shaft 21 to move in the horizontal direction.As shown in Figure 4, portable plate 22 have in order to the screwed hole of the threaded portion of main shaft 21 engagement.Portable plate 22 is formed by " L " shape sheet metal that leans on.The first tooth bar 22a is positioned at the both sides of the rest portions of portable plate 22, thereby can move along with moving horizontally together of portable plate 22.The screwed hole of the threaded portion of engagement main shaft 21 is positioned on the vertical part of portable plate 22.

Preferably, a pair of first tooth bar 22a is formed at and leans on the board, thus lean on board vertically, extend along the part adjacent with two edges of the dependence board of portable plate 22.

Be provided with and engage the first tooth bar 22a, rotate along with moving of the first tooth bar 22a whereby with the corresponding a pair of pinion 23 of the first paired tooth bar 22a.Paired pinion 23 is supported by gear back shaft 24.

As shown in Figure 4, gear back shaft 24 extends in the direction perpendicular to main shaft 21.As shown in Figure 5, gear back shaft 24 extends through the axle link slot (not shown) of the lower guideway that is fixed on two side plate 12 bottoms.Pair of links 26a and 26b are connected respectively to the two ends of gear back shaft 24.Gear back shaft 24 is along with the rotation of paired pinion 23 is rotated together, thereby revolving force is delivered on connecting rod 26a and the 26b.

Connecting rod 26a and 26b coaxially are connected on the pinion 23, thereby rotate by the revolving force that passes from pinion 23.In more detail, connecting rod 26a and 26b coaxially are connected to gear back shaft 24 with pinion 23, thereby by rotating via the revolving force that gear back shaft 24 transmits from pinion 23.

Connecting rod 26a and 26b comprise lower link 26a and last connecting rod 26b.Lower link 26a and last connecting rod 26b interconnect with mutual locking by connecting pin (not providing Reference numeral).

Traction gear 27 is connected to connecting rod 26a and 26b, particularly, last connecting rod 26b, thus actuating force is delivered to the assembly from connecting rod 26a and 26b, that is, and with second tooth bar of explaining hereinafter 50.And each traction gear 27 also can be delivered to actuating force the corresponding control terminal drive rod of hereinafter explaining 29.Here, traction gear 27 is to name from the angle of serving as indentation or extracting the indentation/extraction gear of breaker body (seeing 60 Figure 13) out.One end of each traction gear 27 is connected to connecting rod 26b by connecting pin 28, forms the gear teeth portion with gear teeth at draw-gear 27 middle parts, and its other end extends to and connects control corresponding final drive bar 29 described below.As shown in Figure 5, traction gear 27 is separately positioned on two side plates 12.Traction gear 27 supports rotatably for being respectively fixed to two pivot HP on the side plate 12.

As shown in Figure 6, each first rail plate 30 can move in the horizontal direction, and is connected to breaker body (seeing 60 among Figure 13) with the running circuit breaker main body.As shown in Figure 7, each first rail plate 30 its top in the horizontal direction all is provided with the first slotted hole portion 32, and by connecting pin 41 support movably in the horizontal direction, connecting pin 41 is arranged in second rail plate, 40 places, outside that are inserted into first slotted hole 32.Therefore, because the first slotted hole portion 32 is supported by corresponding connecting pin 41, so first rail plate 30 can be extracted out towards front surface in the horizontal direction with respect to second rail plate 40, described front surface has the display and the operating unit of circuit breaker, and in the horizontal direction towards the rear surface indentation of circuit breaker.

Guide slit 33 can form and horizontal-extending in the bottom of each first rail plate 30, to guide the installation of corresponding second tooth bar 50 described below.

Fig. 7 illustrates the front view that is configured to according to the configuration of the rail plate of the Withdrawable device that is used for circuit breaker of the present invention and second tooth bar.

As shown in Figure 7, second tooth bar 50 that is provided with at the Withdrawable device that is used for circuit breaker according to the present invention is positioned at first rail plate 30.Therefore, second tooth bar 50 is supported by first rail plate 30.Second tooth bar 50 can be mounted to and can move horizontally by fixed support element 50a in the scope of guide slit 33, and described guide slit 33 is formed at the bottom of first rail plate 30.

Fixed support element 50a is configured to the form of ellipse, and it integrally extends from second tooth bar 50, perhaps is provided with individually and is connected to second tooth bar 50 then.Fixed support element 50a can be fixed on the position of any hope in the guide slit 30 by adopting the screw bolt and nut (not shown).Alternatively, screw bolt and nut unclamps, and moving horizontally fixed support element 50a in guide slit 33, and then fixes screw bolt and nut, whereby fixed support element 50a is fixedly mounted on the position after moving.

Convert the rotary driving force of each traction gear transmission to horizontal actuator force by second tooth bar 50 being connected to traction gear 27, the second tooth bars 50, such first rail plate 30 can flatly move to indentation or extract the position out.Therefore, the breaker body (seeing 60 among Figure 13) that is connected with first rail plate 30 can flatly move to indentation or extract the position out.Thereby, can be configured to flatly move in order to make each second tooth bar 50 be connected to corresponding traction gear 27, the second tooth bars 50, allow to adjust second tooth bar 50 installation site in the horizontal direction thus.Therefore, in the production process of circuit breaker, can suitably handle the error in the time of to appear at assembling second tooth bar 50 and traction gear 27 effectively.

Continuation is with reference to Fig. 7, first slotted hole 32 makes each first rail plate 30 be connected with corresponding rail plate 40 with connecting pin 41, first slotted hole 32 flatly is formed at the top of first rail plate 30, and connecting pin 41 inserts first slotted hole 32 by second rail plate 40.

Each second rail plate 40 all is provided with and the guiding slotted hole of first slotted hole, the 32 corresponding formation of first rail plate 30 (not shown owing to covered by first rail plate 30 in Fig. 7), and the guiding slotted hole is used to guide moving horizontally of connecting pin 41.Because connecting pin 41 inserts the guiding slotted hole and first slotted hole 32 that passes second rail plate 40, so first rail plate 30 and second rail plate 40 can interconnect and be directed to move in the horizontal direction.

In addition, each first rail plate 30 and corresponding second rail plate 40 can move in the horizontal direction by connecting pin 41.That is, the state shown in Fig. 7 is the state of the left end of the connecting pin 41 guiding slotted hole that is positioned at second rail plate 40.In this state, second tooth bar 50 can move horizontally at left-hand by the traction gear among Fig. 6 27, thereby first rail plate 30 is moved at left-hand.Each first rail plate 30 may remain on left-hand and flatly move (that is, moving) on the indentation direction among Fig. 7, until connecting pin 41 by figure in the right-hand member of first slotted hole 32 limit.

In addition, move horizontally with the left side of first rail plate 30, as shown in Figure 10 and Figure 11, breaker body can move to link position.When the projection 31 that is formed at each first rail plate, 30 top was inserted in the groove (seeing the 60a among Figure 13) that is formed at relatively on the breaker body, breaker body can move horizontally along with moving horizontally of first rail plate 30.

Simultaneously, when the state of first rail plate 30 from Fig. 7 moved horizontally (that is, move to extract out direction) in dextrad, connecting pin 41 will contact with the right-hand member of the guiding slotted hole of second rail plate 40, and pushing it, second rail plate 40 can move horizontally in dextrad further whereby.Here, as shown in Figure 5, can guide moving horizontally of second rail plate 40 by the upper rail UR and the lower guideway LR of the upper and lower that is respectively fixed to side plate 12.Although not shown in the drawings, flatly extend the upper and lower of a pair of bootstrap block (not shown) rear surface of each second rail plate 40 from Fig. 7, in order to engage with upper rail UR and lower guideway LR.

Simultaneously, still with reference to Fig. 5 and Fig. 6, be configured in (promptly according to the guidance unit of the Withdrawable device that is used for circuit breaker of the present invention, 12 and 12a) can guide moving of connecting pin 28, connecting pin 28 connect the actuating force transfer units (as: 22,22a, 23,24,26a, 26b, 27,28,30 and 50), particularly connecting rod (that is, 26a and 26b) arrives traction gear 27. Induction element 12 and 12a can comprise the side plate 12 of the carriage 10 that supports breaker body and be positioned at the guiding slotted hole 12a of portion on each side plate 12, connects connecting pin 28 mobile of connecting rod (being 26a and 26b) and traction gear 27 in order to guiding.

With reference to Fig. 5, unaccounted Reference numeral LR1 represents lower guideway cylinder (lower railroller), in order to reducing frictional force, to guide corresponding second rail plate 40 moving in the horizontal direction smoothly to the following bootstrap block that extends from the rear surface of each second rail plate 40.In addition, unaccounted Reference numeral TP1 and TP2 represent respectively in upper end position and the bottom position of Fig. 1 to the carriage shown in Fig. 3 10.

Simultaneously, as shown in Figure 6, can further comprise control terminal drive rod 29 according to circuit breaker of the present invention, each control terminal drive rod 29 all is connected to traction gear 27, so that the control power supply to be provided, and automatically connect control terminal according to the position of breaker body (see Figure 13 60) and connect or disconnect from it, with input/output signal.

Each control terminal drive rod 29 all is provided with groove, inserts the described groove from corresponding traction gear 27 outstanding ends, vertically moves thereby can or be rotated counterclockwise up and down with the clockwise of traction gear 27.

Control terminal drive rod 29 can be connected to the control terminal (not shown) on the carriage, that is, and and the control signal connector on the carriage.Therefore, along with control terminal drive rod 29 upwards or move down, the control terminal on the carriage, that is, the control signal connector on the carriage is also upper and lower to be moved.Breaker body can be provided with carriage on the control signal connector that links of control terminal (that is the control signal connector on the carriage).Control signal connector on the carriage can have a plurality of connecting pins and a plurality of pin-and-holes that are connected for the connecting pin insertion respectively with main body side control signal connector, and vice versa.Control terminal on carriage promptly, when the control signal connector on the carriage moves down, just is connected to main body side control signal connector.On the other hand, the control terminal on carriage promptly, when the control signal connector on the carriage moves up, just disconnects with main body side control signal connector and (having separated).

In the present invention, because traction gear 27 turns clockwise or is rotated counterclockwise connection or the open position that depends on breaker body, so control terminal on the carriage, that is, the control signal connector on the carriage depends on the connection of breaker body or open position is upper and lower together moves.Therefore, the control terminal on the carriage, that is, the control signal connector on the carriage can be automatically be connected to host computer side control signal connector or disconnects from it according to the connection of breaker body or open position.

The operation of the circuit breaker and the Withdrawable device thereof of above-mentioned structure is described now, with reference to the accompanying drawings.

At first, describe with reference to Figure 12 to Figure 15 breaker body is installed to operation in the carriage.

If the user with the hands promptly is positioned at the handle (not providing Reference numeral) of two first rail plate 30 front sides, handle is pulled out two side plates 12 of carriage 10, as shown in figure 12, until no longer extracting out, then a pair of as shown in figure 12 first rail plate 30 and a pair of second rail plate 40 farthest are drawn to the front side of carriage 10.

As shown in figure 13, projection 31 (see figure 7)s of first rail plate 30 are inserted among the groove 60a that is formed on breaker body 60 both side surface.Therefore, breaker body 60 is connected to first rail plate 30 that supports it.

As shown in figure 14, when using the front surface of hand propelled breaker body 60, main body 60 is guided by the guiding slotted hole of upper rail UR, lower guideway LR, connecting pin 41, first slotted hole 32 and second rail plate 40.Along with moving of breaker body 60, two first rail plates 30 and two second rail plates 40 are all in the indentation carriage 10.Position shown in Figure 14 be the terminal part of the terminal part of main body 60 and carriage 10 from (disconnection), and the open position that disconnects each other of bracket side control terminal and main body side control terminal (control connection device) as shown in Figure 6.

As shown in figure 15, handle H is connected to the handle connecting hole of the main shaft that is arranged in carriage 10 front surface bottoms (see Fig. 6 21), with rotary main shaft 21.For example, when turning clockwise handle H, main shaft 21 is rotated in a clockwise direction, and breaker body can move to detection position or connection (indentation) position like this.Relatively, when being rotated counterclockwise handle H, main shaft 21 rotates in the counterclockwise direction, and breaker body can move to disconnection (extraction) position like this.

Here, link position is meant the position that breaker body is electrically connected with carriage.The detection position is meant such position: breaker body and carriage disconnect and being electrically connected, but owing to be connected between the terminal part on the carriage and the main body side terminal part, can supply with the control power supply, so can input/output signal.Open position is meant such position: breaker body disconnects with carriage and being electrically connected (promptly, disconnected from each other as Fig. 3 and terminal part T2 and T3 shown in Figure 17), owing to disconnect between control terminal on the carriage and the main body side control terminal, the supply of control power supply is cut off, therefore can not input/output signal.

The operating state of circuit breaker and Withdrawable device thereof is described now with reference to Fig. 8 to Figure 11.

The detection position that the operation described is the open position operation (move) of breaker body from Fig. 8 in Fig. 9, the initial link position in Figure 10, the complete link position in Figure 11.

In the state that Figure 14 describes, promptly, be electrically connected (promptly with the carriage disconnection in breaker body, disconnect each other as Fig. 3 and terminal part T2 and T3 shown in Figure 17), and the terminal part on the carriage and breaker body side control terminal part from, the supply of controlling power supply like this is cut off, extraction (disconnection) position that can not input/output signal, drive by tracker action, perhaps use the handle H manual actuation shown in Figure 15, main shaft 21 is turned clockwise such as the motor (not shown).

Therefore, the portable plate 22 that tightens to main shaft 21 moves horizontally in dextrad along the threaded portion of main shaft 21, and the position of the position of described main shaft 21 from Fig. 8 in Fig. 9 turns clockwise.Along with portable plate among the figure 22 moves horizontally in dextrad, a pair of pinion 23 that engages with the first tooth bar 22a on being positioned at portable plate 22 is along being rotated counterclockwise.The gear back shaft 24 of axial support pinion 23 is also along being rotated counterclockwise.Therefore, lower link 26a and the pinion 23 that is connected to gear back shaft 24 coaxially is rotated counterclockwise.

Being rotated counterclockwise of lower link 26a make to be gone up connecting rod 26b and moved up, and the traction gear 27 that is connected to connecting rod 26b by connecting pin 28 turns clockwise around pivot HP like this.Here, along with moving up of last connecting rod 26b, guiding connecting pin 28 makes progress along the guiding slotted hole 12a of two side plates 12.

Further, as shown in Figure 9, along with traction gear 27 turns clockwise around pivot HP, an end of each traction gear 27 separates with the groove of control corresponding final drive merit 29, and therefore, control terminal drive rod 29 moves down by himself gravity.Along with control terminal drive rod 29 moves down, be connected on the carriage for the treatment of together the control terminal drive rod 29 that moves control terminal (promptly, in order to transmit the connector of power supply and control signal), be connected to breaker body side control terminal (that is, in order to transmit the connector of power supply and control signal) thereby move down together.

Therefore, the terminal part of carriage and circuit breaker (that is, being used for two terminal parts of power supply and electric load) disconnects each other, causes the cut-out of circuit (main circuit).But, owing to,, whether work well to require the corresponding circuit breaker of controller inspection so circuit breaker is positioned at the detection position in order to finish to controller power supply and being connected of transmitting control signal.

Inspection positions in Fig. 9, if drive by tracker action (not shown) such as motor, perhaps use the handle H manual actuation among Figure 15, main shaft 21 is further turned clockwise, the portable plate 22 that then tightens to main shaft 21 further moves horizontally in dextrad along the threaded portion of main shaft 21, and the position of the position of described main shaft 21 from Fig. 9 in Figure 10 turns clockwise.

Along with portable plate among the figure 22 the moving horizontally of dextrad, a pair of pinion 23 that engages with the first tooth bar 22a on being positioned at portable plate 22 is further along being rotated counterclockwise.The gear back shaft 24 of axial support pinion 23 is also further along being rotated counterclockwise.Therefore, lower link 26a and the pinion 23 that is connected to gear back shaft 24 further coaxially is rotated counterclockwise.

Being rotated counterclockwise of lower link 26a further makes connecting rod 26b move up, and the traction gear 27 that is connected to connecting rod 26b by connecting pin 28 further turns clockwise around pivot HP like this.Here, along with last connecting rod 26b moves up, further guide connecting pin 28 to make progress along the guiding slotted hole 12a of two side plates 12.

Further, as shown in figure 10, along with traction gear 27 further turns clockwise around pivot HP, second tooth bar 50 that is connected to traction gear 27 moves to state Figure 10 from the status level of Fig. 9 in the drawings.Along with second tooth bar 50 among the figure the moving horizontally of left-hand, in Fig. 6, come as can be seen, first rail plate 30 that second tooth bar 50 is positioned at moves horizontally in identical direction.

Therefore, as shown in Figure 7, breaker body (seeing 60 among Figure 13) also moves horizontally in identical direction (being left-hand) by the actuating force of transmitting via concave part (seeing the 60a among Figure 13), and described concave part is formed on the side surface of main body to engage with the projection 31 of first rail plate 30.Here, the main body side terminal part T3 shown in Figure 16 is positioned at initial indentation (connection) state that contacts with bracket side terminal part T2.

In addition, because an end of each traction gear 27 all separates with the groove of control corresponding final drive bar 29, thereby keep the bracket side control terminal (promptly, in order to transmit the connector of power supply and control signal) be connected to the main body side control terminal (promptly, connector in order to transmission power supply and control signal) state, that is the state that the control power supply can be provided and transmit control signal.Therefore, carriage terminal part and breaker body terminal part begin to contact with each other, thereby are in circuit (main circuit) between power supply and the electric load via the initial connection status of circuit breaker (that is initial indentation state).

Simultaneously, on initial indentation (connection) position in Figure 10, if drive by tracker action (not shown) such as motor, perhaps use the handle H manual actuation of Figure 15, main shaft 21 is further turned clockwise, the portable plate 22 that then tightens to main shaft 21 further moves horizontally in dextrad along the threaded portion of main shaft 21, and the position of the position of described main shaft 21 from Figure 10 in Figure 11 turns clockwise.

Along with portable plate among the figure 22 the moving horizontally of dextrad, a pair of pinion 23 that engages with the first tooth bar 22a on being positioned at portable plate 22 is further along being rotated counterclockwise.The gear back shaft 24 of axial support pinion 23 is also further along being rotated counterclockwise.Therefore, lower link 26a and the pinion 23 that is connected to gear back shaft 24 further coaxially is rotated counterclockwise.

Being rotated counterclockwise of lower link 26a further moves up connecting rod 26b, and the traction gear 27 that is connected to connecting rod 26b by connecting pin 28 turns clockwise further around pivot HP like this.Here, along with last connecting rod 26b moves up, further the guiding slotted hole 12a by two side plates 12 upwards guides connecting pin 28, arrives the upper end of guiding slotted hole 12a until connecting pin 28.

Further, as shown in figure 11, along with traction gear 27 further turns clockwise around pivot HP, second tooth bar 50 that engages with traction gear 27 is moved horizontally to state Figure 11 from the state of Figure 10 at left-hand in the drawings.Along with second tooth bar 50 among the figure moves horizontally at left-hand, in Fig. 6, come as can be seen, first rail plate 30 that supports second tooth bar 50 also moves horizontally in identical direction.

Therefore, as shown in Figure 7, breaker body (seeing 60 among Figure 13) moves horizontally in identical direction (being left-hand) by concave part (seeing the 60a among Figure 13), and described concave part is formed on the projection 31 of side surface to engage first rail plate 30 of main body.Here, as shown in figure 17, main body side terminal part T3 is positioned at the state that is fully retracted (connection status fully) of the terminal part of indentation bracket side in depth T2.

In addition, one end of each traction gear 27 all separates with the groove of control corresponding final drive bar 29, thereby the control terminal on the maintenance carriage (promptly, in order to transmit the connector of power supply and control signal) be connected to the main body side control terminal (promptly, connector in order to transmission power supply and control signal) state, that is the state that the control power supply can be provided and transmit control signal.Therefore, the carriage terminal part contacts each other fully with the main body terminal part, thereby is in circuit (main circuit) between power supply and the electric load via the complete connection status (that is, being fully retracted state) of circuit breaker.

Next circuit breaker operation to disconnection (extraction) position of Fig. 8 from connection (indentation) position of Figure 11 is described.

In the state that Figure 11 describes, promptly, in such indentation (connection) position: breaker body is electrically connected (promptly with carriage, terminal part T2 and T3 among Fig. 3 and Figure 17 are connected to each other), the bracket side control terminal is connected with the main body side control terminal, can supply with control power supply and input/output signal like this, by driving the tracker action (not shown) such as motor, perhaps use the handle H shown in Figure 15, main shaft 21 is rotated counterclockwise.Therefore, the portable plate 22 that tightens to main shaft 21 moves horizontally at left-hand along the threaded portion of main shaft 21, and the position of described main shaft 21 from Figure 11 is rotated counterclockwise through the position of position in Fig. 9 among Figure 10.

Along with portable plate among the figure 22 the moving horizontally of left-hand, a pair of pinion 23 that engages with the first tooth bar 22a on being positioned at portable plate 22 is along turning clockwise.The gear back shaft 24 of axial support pinion 23 also turns clockwise.Therefore, lower link 26a and the pinion 23 that is connected to gear back shaft 24 coaxially turns clockwise.Turning clockwise of lower link 26a moves down connecting rod 26b, and the traction gear 27 that is connected to connecting rod 26b by connecting pin 28 is rotated counterclockwise around pivot HP like this.Here, along with last connecting rod 26b moves down, guiding connecting pin 28 is downward along the guiding slotted hole 12a of two side plates 12.

Further, as Figure 10 and shown in Figure 9, although be rotated counterclockwise around pivot HP at traction gear 27, but an end of each traction gear 27 not with the state of the engage grooves of control corresponding final drive bar 29 in, this end of traction gear 27 is in the state that separates with the groove of control corresponding final drive bar 29.

Therefore, bracket side control terminal (that is, being used to transmit the terminal of power supply and control signal) is in the state that is connected with breaker body side control terminal (that is, being used to transmit the terminal of power supply and control signal).But owing to being rotated counterclockwise of traction gear 27, second tooth bar 50 that engages with traction gear 27 is moved horizontally to the position of Figure 10 in the drawings in dextrad from the position of Figure 11.Therefore, as shown in Figure 6, first rail plate 30 with second tooth bar 50 moves horizontally on identical direction.

Here, as shown in Figure 7, the breaker body (seeing 60 among Figure 13) that is connected to the projection 31 of first rail plate 30 by the concave part (seeing the 60a among Figure 13) that is formed on the main body side surface also can move horizontally along identical direction (that is dextrad) in the drawings.Therefore, carriage terminal part and main body terminal part (that is) all corresponding to the terminal of power supply and electric load, that is, main body side terminal part T3 and bracket side terminal part T2 (being found in Figure 16 and Figure 17) are separated from one another, thus blocking-up current supply circuit (main circuit).But, finished in order to power and being connected of transmitting control signal to controller, whether circuit breaker is positioned at the detection position, work well to require the corresponding circuit breaker of controller inspection.

Inspection positions in Fig. 9, if by driving tracker action (not shown) such as motor, perhaps use the handle H among Figure 15, main shaft 21 further is rotated counterclockwise, the portable plate 22 that then tightens to main shaft 21 further moves horizontally at left-hand along the threaded portion of main shaft 21, and the position of the position of described main shaft 21 from Fig. 9 in Fig. 8 is rotated counterclockwise.

Here, along with portable plate among the figure 22 the moving horizontally of left-hand, a pair of pinion 23 that engages with the first tooth bar 22a on being positioned at portable plate 22 is further along turning clockwise.The gear back shaft 24 of axial support pinion 23 is also along turning clockwise.

Therefore, lower link 26a and the pinion 23 that is connected to gear back shaft 24 further coaxially turns clockwise.Turning clockwise of lower link 26a further makes connecting rod 26b move down, and the traction gear 27 that is connected to connecting rod 26b by connecting pin 28 further is rotated counterclockwise around pivot HP like this.Here, along with last connecting rod 26b moves down, further guide connecting pin 28 downward along the guiding slotted hole 12a of two side plates 12.

Further, as shown in Figure 8, along with traction gear 27 further is rotated counterclockwise around pivot HP, second tooth bar 50 that engages with traction gear 27 is moved horizontally to state Fig. 8 from the state of Fig. 9 in dextrad in the drawings.Along with second tooth bar 50 among the figure the moving horizontally of dextrad, in Fig. 6, come as can be seen, first rail plate 30 that second tooth bar 50 is positioned at moves horizontally in identical direction.Therefore, as shown in Figure 7, side surface is formed with the breaker body (seeing 60 among Figure 13) of the concave part (seeing the 60a among Figure 13) of the projection 31 that is connected to first rail plate 30, moves horizontally along identical direction (that is the dextrad among the figure).

Therefore, main body side terminal part T3 is in disconnection (extraction) state that disconnects fully with bracket side terminal part T2.In addition, when an end of each traction gear 27 is connected to the groove of control corresponding final drive bar 29, and when therefore traction gear 27 is rotated counterclockwise, on push away control terminal drive rod 29 and move up.

Therefore, breaker body can be in the bracket side control terminal (promptly, in order to transmit the connector of power supply and control signal) and the main body side control terminal is (promptly, connector in order to transmission power supply and control signal) disconnection (extraction) state that disconnects, that is, the power supply that is used to control is cut off and state that can not transmission of control signals.

As mentioned above, Withdrawable device or the circuit breaker that is used for circuit breaker according to the present invention comprises gear and the coaxial connecting rod that is connected to gear that always is connected to the actuating force transfer unit, to dispose continuous actuating force transmission.Therefore, can prevent to have guaranteed the long life of circuit breaker when breaker body indentation or extraction because the impulsive force that is applied causes the assembly of Withdrawable device to damage or distortion.And prevented when extracting out suddenly moving forward, thereby guaranteed user's safety effectively.

Withdrawable device or the circuit breaker that is used for circuit breaker according to the present invention is provided with the induction element that moves in order to the guiding transfer unit.Therefore, when power supply is used for indentation or extracts breaker body out, can limit the level of displacement with guide member, thereby when extracting breaker body out, the useful life of circuit breaker can be longer, and can guarantee user's safety more effectively.

The foregoing description and advantage only are exemplary, and are not to be used to limit the present invention.This instruction can easily be applied to the equipment of other type.This explanation is an illustrative, and is not used in the scope of restriction claim.Many for a person skilled in the art replacements, modifications and variations are conspicuous.Feature in the exemplary embodiment described herein, structure, method and further feature can make up by the whole bag of tricks, to obtain the exemplary embodiment of extra and/or replaceability.

Because eigen can be presented as various ways under the situation that does not break away from its characteristic, so it should be understood that, the foregoing description is not limited by any details of foregoing description, unless otherwise specified, but need be interpreted as in additional claim institute restricted portion, therefore, all drop in claim border and the scope, and the modification and the retouching that perhaps are equal in these borders and the scope all should be included in the additional claim.

Claims (11)

1. Withdrawable device that is used for circuit breaker comprises:

Main shaft, it rotates by manual or tracker action, and is configured to provide actuating force that the main body of circuit breaker is driven into indentation or extracts the position out;

The actuating force transfer unit, it has parts always connected to one another, continuously actuating force is delivered to the main body of described circuit breaker from described main shaft, so that described main body can move to indentation or extract the position out; And

Guidance unit, it is configured to guide moving of described actuating force transfer unit.

2. device according to claim 1, wherein said actuating force transfer unit comprises:

Portable plate, itself and described main shaft mesh, and are configured to when described main axis rotation in the horizontal direction with described main axle moving;

First tooth bar, it is arranged on the described portable plate to move horizontally with described portable plate and moves;

Pinion, it engages with corresponding first tooth bar, to move with described first tooth bar and rotate;

The gear back shaft, it is configured to axially support described pinion, and rotates with described pinion;

Connecting rod, it is connected to the gear back shaft coaxial with described pinion, and is configured to rotate by the revolving force from described pinion transmission;

Traction gear, each traction gear all are connected to corresponding connecting rod to transmit the actuating force from described connecting rod;

Second tooth bar, it engages with described traction gear, converts horizontal actuator force to the rotation with each described traction gear; And

Rail plate, it is configured to move in the horizontal direction with described second tooth bar, and supports described second tooth bar, and the main body that is connected to described circuit breaker is to drive the main body of described circuit breaker.

3. device according to claim 1, wherein said guidance unit comprises:

Guide slit portion, it is formed on two side plates of described carriage, and described guide slit portion supports the main body of described circuit breaker and is configured to guide moving of connecting pin, and described connecting rod and traction gear are connected to each other by described connecting pin.

4. Withdrawable device that is used for circuit breaker, be provided with and be electrically connected to power supply and electric load and have carriage in order to the side plate of the main body that supports described circuit breaker, and can move to link position, the main body of the circuit breaker of detection position and open position, main body at the described circuit breaker of described link position is electrically connected to carriage, even main body and carriage electricity at the described circuit breaker in described detection position disconnect, control power supply and signal I/O also are provided, main body and carriage electricity at the described circuit breaker of described open position disconnect, thereby cut off the power supply that is used to control and do not have the signal I/O, this device comprises:

Main shaft, it has the threaded portion, and manually rotates by connecting handle;

Portable plate, the threaded portion engagement of itself and main shaft, described just when rotated portable plate moves forward and backward when the threaded portion of main shaft;

First tooth bar, it is installed in the upper surface of portable plate, with moving forward and backward and move forward and backward with portable plate;

Pinion, it engages with corresponding tooth bar, and moving forward and backward and rotate with first tooth bar;

The gear back shaft, it is configured to axially support described pinion and rotates with described pinion;

Connecting rod, it is connected to the gear back shaft coaxial with pinion, rotating by the revolving force from the pinion transmission, and is configured to provide actuating force to move with the main body that allows circuit breaker;

Traction gear, it is supported on the side plate rotatably, and each traction gear all has the corresponding connecting rod of being connected to transmit the end from the actuating force of connecting rod;

Second tooth bar, it engages with traction gear, and each second gear all is configured to convert the revolving force of corresponding traction gear to horizontal actuator force; And

Rail plate, it is configured to move horizontally with second tooth bar, and supports described second tooth bar, and be connected to circuit breaker main body so that the main body of circuit breaker move.

5. device according to claim 4, wherein said connecting rod comprises:

First connecting rod, it coaxially is connected to described pinion, rotates with the rotation with corresponding pinion; And

Second connecting rod, an end of each second connecting rod is connected to corresponding first connecting rod, and the other end of each second connecting rod is connected to corresponding traction gear, is delivered to described traction gear with the revolving force with described first connecting rod.

6. device according to claim 4 further comprises:

Guide slit portion, described guide slit portion is formed on described side plate place, and is configured to guide moving of connecting pin, and described connecting rod is connected to traction gear by described connecting pin.

7. device according to claim 4, wherein each rail plate all is provided with guide slit, and described guide slit is configured to guide corresponding second tooth bar, so that described second tooth bar is arranged on the different positions agley.

8. circuit breaker, it is provided with and is electrically connected to power supply and electric load and has carriage in order to the side plate that supports breaker body, and can move to link position, the main body of the circuit breaker of detection position and open position, main body at the described circuit breaker of described link position is electrically connected to carriage, even main body and carriage electricity at the described circuit breaker in described detection position disconnect, control power supply and signal I/O also are provided, main body and carriage electricity at the described circuit breaker of described open position disconnect, thereby cut off the power supply that is used to control and do not have the signal I/O, this circuit breaker comprises:

Main shaft, it has the threaded portion, and manually rotates by connecting handle;

Portable plate, the threaded portion engagement of itself and main shaft, described just when rotated portable plate moves forward and backward when the threaded portion of main shaft;

First tooth bar, it is installed in the upper surface of portable plate, with moving forward and backward and move forward and backward with portable plate;

Pinion, it engages with corresponding tooth bar, and moving forward and backward and rotate with first tooth bar;

The gear back shaft, it is configured to axially support described pinion and rotates with described pinion;

Connecting rod, it is connected to the gear back shaft coaxial with pinion, rotating by the revolving force from the pinion transmission, and is configured to provide actuating force to move with the main body that allows circuit breaker;

Traction gear, each traction gear all have the corresponding connecting rod of being connected to transmit the end from the actuating force of connecting rod;

Second tooth bar, it engages with traction gear, and each second gear all is configured to convert the revolving force of corresponding traction gear to horizontal actuator force; And

Rail plate, it is configured to move horizontally with second tooth bar, and supports described second tooth bar, and be connected to circuit breaker main body so that the main body of circuit breaker move.

9. circuit breaker according to claim 8 further comprises:

Guide slit portion, described guide slit portion is formed on described side plate place, and is configured to guide moving of connecting pin, and described connecting rod is connected to traction gear by described connecting pin.

10. circuit breaker according to claim 8 further comprises:

The control terminal drive rod, each described control terminal drive rod all is connected to corresponding traction gear, coming being dynamically connected certainly of drive controlling terminal according to the position of the main body of described circuit breaker or to disconnect, described control terminal is used to provide described power supply and signal I/O.

11. circuit breaker according to claim 8, wherein said connecting rod comprises:

First connecting rod, it coaxially is connected to described pinion, rotates with the rotation with corresponding pinion; And

Second connecting rod, an end of each second connecting rod is connected to corresponding first connecting rod, and the other end of each second connecting rod is connected to corresponding traction gear, is delivered to described traction gear with the revolving force with described first connecting rod.

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