CN210296147U - Novel ABB inlet wire mechanism - Google Patents

Abstract

The utility model provides a novel ABB inlet wire mechanism, including mechanism panel, closing shaft, output shaft and ground connection axle, mechanism panel includes front panel, rear panel and installation panel, and closing shaft is last to be connected with drive plate and first spring drive plate, and output shaft is last to be connected with first cam, second cam, ground connection drive plate and closing drive plate, and ground connection axle is last to be connected with drive plate and second spring drive plate, the utility model discloses compact structure, reasonable in design, the transmission is accurate, and the divide-shut brake is stable, sensitive, and in the divide-shut brake process, the signal lamp can be triggered by second cam and micro-gap switch, and signal indication is accurate, and the sign rotates the show, can striking suggestion staff inlet wire mechanism's operating condition, promotes the security of operation, and the design of electromagnetic lock can lock the ground connection axle, prevents mistake combined floodgate, maloperation, promotes safe effect, and the setting of interlocking mechanism can connect external mechanism, is convenient for function expansion.

Description

Novel ABB inlet wire mechanism

Technical Field

The utility model relates to an electrical switching equipment technical field, especially a novel ABB inlet wire mechanism.

Background

The ABB switch is an international switch, widely used in the field of power transmission and distribution, and is an extremely important switch device.

The ABB switch that uses at present often the structure is too traditional, and the transmission precision is relatively poor, consequently leads to divide closing stability and sensitivity lower, and performance is not good moreover, lacks sufficient maloperation safeguard procedures, has certain potential safety hazard, and simultaneously, the state indication mode of most ABB switch is single, and is not striking enough, and is not strong to staff's warning effect.

SUMMERY OF THE UTILITY MODEL

The utility model is directed to the above-mentioned problem to a novel ABB inlet wire mechanism is proposed.

The specific technical scheme is as follows:

a novel ABB wire inlet mechanism comprises a mechanism panel, a switch-on shaft, an output shaft and a grounding shaft, and is characterized in that the mechanism panel comprises a front panel, a rear panel and an installation panel, the front panel, the rear panel and the installation panel are fixedly connected through a plurality of support rods and are mutually parallel, and the switch-on shaft, the output shaft and the grounding shaft are vertically arranged with the mechanism panel and are rotatably connected with the mechanism panel through shaft sleeves;

an upper driving plate and a first spring driving plate are fixedly connected to the switching-on shaft in sequence, a first cam, a second cam, a grounding driving plate and a switching-on driving plate are fixedly connected to the output shaft in sequence, a lower driving plate and a second spring driving plate are connected to the grounding shaft in sequence, the lower driving plate is fixedly connected to the grounding shaft, and the second spring driving plate is rotatably connected to the grounding shaft through a bearing;

the first cam and the second cam are positioned on one side of the front panel, and the upper driving plate, the first spring driving plate, the grounding driving plate, the closing driving plate, the lower driving plate and the second spring driving plate are positioned between the front panel and the rear panel;

the upper driving plate is connected with the closing driving plate through a first connecting plate, one end of the first connecting plate is hinged with the closing driving plate, a strip-shaped first sliding groove is formed in the other end of the first connecting plate, the first connecting plate is connected with the upper driving plate through the first sliding groove in a sliding mode, the grounding driving plate is connected with the lower driving plate through a second connecting plate, an arc-shaped second sliding groove is formed in the outer end of the lower driving plate, one end of the second connecting plate is hinged with the grounding driving plate, and the other end of the second connecting plate is in sliding fit with the second sliding groove in;

the number of the first spring driving plates is 2, the 2 first spring driving plates are arranged in parallel and are fixedly connected through a first shaft rod, an outer sleeve is connected to the first shaft rod, and one end of the outer sleeve is rotatably connected with the first shaft rod; the number of the second spring drive plates is 2, the 2 second spring drive plates are arranged in parallel and are fixedly connected through a second shaft rod, an inner sleeve is connected to the second shaft rod, and one end of the inner sleeve is rotatably connected with the second shaft rod;

the outer sleeve and the inner sleeve are mutually sleeved, spring seats are arranged on the outer sleeve and the inner sleeve, energy storage springs are arranged on the outer sleeve and the inner sleeve, and two ends of each energy storage spring are pressed on the spring seats.

The utility model provides an foretell novel ABB inlet wire mechanism, wherein, the fixed interlocking device that is equipped with in one side of front panel, interlocking device comprises mounting panel, sliding panel and interlocking lever, the mounting panel links to each other with front panel riveting fixed, be equipped with a plurality of direction slide opening on the sliding panel, it is a plurality of the direction slide opening includes first direction slide opening and second direction slide opening, first direction slide opening and second direction slide opening all are waist type hole, and the quantity of first direction slide opening is a plurality of, and the slip plane board is through first direction slide opening and mounting panel sliding fit, the quantity of second direction slide opening is 1 to the cover is on the output shaft, with output shaft sliding fit.

The novel ABB incoming line mechanism is characterized in that a plurality of micro switches are fixedly arranged on the front panel, are arranged on the periphery of the second cam and are triggered by a flange on the second cam.

In the above novel ABB wire feeding mechanism, the interlocking rod is slidably disposed on the support plate, one end of the interlocking rod is a contact, the other end of the interlocking rod is fixedly connected with the sliding panel, an interlocking return spring is sleeved on the interlocking rod, one end of the interlocking return spring is pressed against the sliding panel, and the other end of the interlocking return spring is pressed against the support plate;

the sliding panel is provided with a veneer which is always attached to the outer edge of the first cam under the action of the interlocking return spring, and the outer edge of the first cam is in a curve shape.

Foretell novel ABB inlet wire mechanism, wherein, the tip fixedly connected with of output shaft instructs the drive plate, be connected with the instruction axle on the front panel, it rotates continuously with the front panel through the axle sleeve to instruct the axle, and its tip is fixed in proper order and is equipped with first sign and instruction driven plate, instruct to link to each other through the third connecting plate between driven plate and the instruction drive plate.

Foretell novel ABB inlet wire mechanism, wherein, the tip fixed connection second indication board of output shaft.

Foretell novel ABB inlet wire mechanism, wherein, the fixed electromagnetic lock that is equipped with of one end of front panel, be connected with the locking lever on the electromagnetic lock, the tip of earthing shaft is opened there is the lockhole, the lockhole corresponds the cooperation with the locking lever.

The utility model has the advantages that:

the utility model provides a novel ABB inlet wire mechanism, including mechanism panel, closing shaft, output shaft and ground connection axle, mechanism panel includes front panel, rear panel and installation panel, closes and connects drive plate and first spring drive plate on the brake shaft, connects first cam, second cam, ground connection drive plate and closing drive plate on the output shaft, connects lower drive plate and second spring drive plate on the ground connection axle, the utility model discloses compact structure, reasonable in design, the transmission is accurate, divide-shut brake is stable, sensitive, and in the process of dividing and closing, the signal lamp can be triggered by second cam and micro-gap switch, and signal indication is accurate, and sign rotation show can striking suggestion staff inlet wire mechanism's operating condition, promotes the security of operation, and the design of electromagnetic lock can lock the ground connection axle, prevents mistake closing, maloperation, promotes the safety effect, and the setting of interlocking mechanism can connect external mechanism, is convenient for function expansion.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a perspective view of the present invention.

Fig. 3 is a front view of the present invention (without the first indication board and the second indication board).

Fig. 4 is a front view of the present invention (without the first indicator, the second indicator and the interlocking mechanism).

Fig. 5 is a schematic view of the assembly between the front and rear panels.

FIG. 6 is a schematic view of the positions of the first spring drive plate and the second spring drive plate.

Detailed Description

For making the technical scheme of the utility model clear more clearly and definitely, it is right to combine the embodiment below the utility model discloses it is further described, any right the utility model discloses technical scheme's technical characteristic carries out the scheme that equivalent replacement and conventional reasoning reachs and all falls into the utility model discloses protection scope.

The novel ABB wire inlet mechanism comprises a mechanism panel 1, a closing shaft 2, an output shaft 3 and a grounding shaft 4, and is characterized in that the mechanism panel 1 comprises a front panel 5, a rear panel 7 and an installation panel 8, the front panel 5, the rear panel 7 and the installation panel 8 are fixedly connected through a plurality of support rods 9 and are parallel to each other, and the closing shaft 2, the output shaft 3 and the grounding shaft 4 are perpendicular to the mechanism panel 1 and are rotatably connected with the mechanism panel 1 through shaft sleeves;

an upper driving plate 10 and a first spring driving plate 11 are fixedly connected to the switching-on shaft 2 in sequence, a first cam 12, a second cam 13, a grounding driving plate 14 and a switching-on driving plate 15 are fixedly connected to the output shaft 3 in sequence, a lower driving plate 16 and a second spring driving plate 17 are connected to the grounding shaft 4 in sequence, the lower driving plate 16 is fixedly connected with the grounding shaft 4, and the second spring driving plate 17 is rotatably connected with the grounding shaft 4 through a bearing;

the first cam 12 and the second cam 13 are positioned on one side of the front panel 5, and the upper driving plate 10, the first spring driving plate 11, the ground driving plate 14, the closing driving plate 15, the lower driving plate 16 and the second spring driving plate 17 are positioned between the front panel 5 and the rear panel 7;

the upper driving plate 10 is connected with a closing driving plate 15 through a first connecting plate, one end of the first connecting plate 18 is hinged with the closing driving plate 15, a strip-shaped first sliding groove 19 is formed in the other end of the first connecting plate 18, the first connecting plate 18 is connected with the upper driving plate 10 in a sliding mode through the first sliding groove 19, the grounding driving plate 14 is connected with a lower driving plate 16 through a second connecting plate 20, an arc-shaped second sliding groove 21 is formed in the outer end of the lower driving plate 16, one end of the second connecting plate 20 is hinged with the grounding driving plate 14, and the other end of the second connecting plate 20 is in sliding fit with the second sliding groove;

the number of the first spring driving plates 11 is 2, the 2 first spring driving plates 11 are arranged in parallel and are fixedly connected through a first shaft rod 22, an outer sleeve 23 is connected to the first shaft rod 22, and one end of the outer sleeve 23 is rotatably connected with the first shaft rod 22; the number of the second spring driving plates 17 is 2, the 2 second spring driving plates 17 are arranged in parallel and are fixedly connected through a second shaft rod 24, an inner sleeve 25 is connected to the second shaft rod 24, and one end of the inner sleeve 25 is rotatably connected with the second shaft rod 24;

the outer sleeve 23 and the inner sleeve 25 are sleeved with each other, spring seats 26 are arranged on the outer sleeve 23 and the inner sleeve 25, energy storage springs 27 are arranged on the outer sleeve 23 and the inner sleeve 25, and two ends of each energy storage spring 27 are pressed against the spring seats 26.

In the above novel ABB incoming line mechanism, a plurality of micro switches 44 are fixedly arranged on the front panel 5, and the micro switches 44 are arranged on the periphery of the second cam 13 and are triggered by the flange on the second cam 13.

The novel ABB wire inlet mechanism is characterized in that an interlocking mechanism 28 is fixedly arranged on one side of the front panel 5, the interlocking mechanism 28 is composed of a support plate 29, a sliding panel 30 and an interlocking rod 31, the support plate 29 is fixedly connected with the front panel 5 in a riveting mode, a plurality of guide sliding holes 32 are formed in the sliding panel 30, the guide sliding holes 32 comprise first guide sliding holes 321 and second guide sliding holes 322, the first guide sliding holes 321 and the second guide sliding holes 322 are waist-shaped holes, the first guide sliding holes 321 are multiple in number, the sliding panel 30 is in sliding fit with the support plate 29 through the first guide sliding holes 321, and the second guide sliding holes 322 are 1 in number, are sleeved on the output shaft 3 and are in sliding fit with the output shaft 3.

In the above novel ABB wire feeding mechanism, the interlocking rod 31 is slidably disposed on the support plate 29, one end of the interlocking rod 31 is a contact, the other end of the interlocking rod is fixedly connected to the sliding panel 30, the interlocking return spring 33 is sleeved on the interlocking rod 31, one end of the interlocking return spring 33 is pressed against the sliding panel 30, and the other end of the interlocking return spring is pressed against the support plate 29;

the sliding panel 30 is provided with a veneer 34, the veneer 34 is always attached to the outer edge of the first cam 12 under the action of the interlocking return spring 33, and the outer edge of the first cam 12 is in a curve shape.

The utility model provides an foretell novel ABB inlet wire mechanism, wherein, the tip fixedly connected with of output shaft 3 instructs drive plate 35, be connected with instruction axle 36 on the front panel 5, instruction axle 36 rotates with front panel 5 through the axle sleeve and links to each other, and its tip is fixed in proper order and is equipped with first sign 37 and instructs driven plate 38, instruct driven plate 38 and instruct and link to each other through third connecting plate 39 between the drive plate 35.

In the above-mentioned novel ABB incoming line mechanism, the end of the output shaft 3 is fixedly connected with the second indication board 40.

In the above novel ABB incoming line mechanism, an electromagnetic lock 41 is fixedly arranged at one end of the front panel 5, a lock rod 42 is connected to the electromagnetic lock 41, a lock hole 43 is formed at the end of the grounding shaft 4, and the lock hole 43 is correspondingly matched with the lock rod 42;

a limiting rod 45 is arranged on one side of the second spring driving plate 17, and the limiting rod 44 is fixedly connected between the front panel 5 and the rear panel 7 to prevent the second spring driving plate 17 from being pressed and moved due to the compression of the energy storage spring 27;

the novel ABB wire inlet mechanism is used for switching on and off of a switching device;

switching off the switch: the closing shaft rotates clockwise under the action of an external operating mechanism, so that the upper driving plate and the first spring driving plate are driven to rotate;

at the moment, the rotating upper driving plate drives the output shaft to rotate through the first connecting plate and the closing driving plate, so as to drive the second indicating plate, the grounding driving plate and the indicating driving plate to rotate;

meanwhile, the rotating first spring driving plate controls an energy storage spring to compress and store energy, the electromagnetic lock works, the lock rod extends and extends into the lock hole to lock the grounding shaft, and the brake is switched off;

switching on a switch: the electromagnetic lock works, the lock rod contracts and is separated from the lock hole, the grounding shaft is unlocked, the energy storage spring releases energy storage, the first spring driving plate resets and drives the closing shaft to rotate, and the rotating closing shaft drives the output shaft and the grounding shaft to rotate through transmission to complete closing and grounding;

meanwhile, when the output shaft rotates, the first cam, the second cam and the second indicating board are driven to rotate, the first indicating board is indirectly driven to rotate, the rotating first indicating board and the rotating second indicating board indicate the opening and closing state of the ABB wire inlet mechanism, the rotating first cam extrudes the veneer, so that the displacement of the sliding panel and the interlocking rod is controlled, an external interlocking component is triggered, and a flange of the rotating second cam can trigger a microswitch, so that the switching of a switch of external equipment or an external indicating signal lamp is realized;

the utility model discloses compact structure, reasonable in design, the transmission is accurate, divide-shut brake is stable, sensitive, divide-shut brake in-process, the signal lamp can be triggered by second cam and micro-gap switch, signal indication is accurate, the sign rotates the show, can striking suggestion staff inlet wire mechanism's operating condition, the security of promotion operation, the design of electromagnetic lock can carry out the locking to the earth shaft, prevent that the mistake from closing a floodgate, the maloperation, promote safe effect, outside interlocking device can be connected in interlocking device's setting, the function of being convenient for is extended.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (7)

1. A novel ABB wire inlet mechanism comprises a mechanism panel, a switch-on shaft, an output shaft and a grounding shaft, and is characterized in that the mechanism panel comprises a front panel, a rear panel and an installation panel, the front panel, the rear panel and the installation panel are fixedly connected through a plurality of support rods and are mutually parallel, and the switch-on shaft, the output shaft and the grounding shaft are vertically arranged with the mechanism panel and are rotatably connected with the mechanism panel through shaft sleeves;

an upper driving plate and a first spring driving plate are fixedly connected to the switching-on shaft in sequence, a first cam, a second cam, a grounding driving plate and a switching-on driving plate are fixedly connected to the output shaft in sequence, a lower driving plate and a second spring driving plate are connected to the grounding shaft in sequence, the lower driving plate is fixedly connected to the grounding shaft, and the second spring driving plate is rotatably connected to the grounding shaft through a bearing;

the first cam and the second cam are positioned on one side of the front panel, and the upper driving plate, the first spring driving plate, the grounding driving plate, the closing driving plate, the lower driving plate and the second spring driving plate are positioned between the front panel and the rear panel;

the upper driving plate is connected with the closing driving plate through a first connecting plate, one end of the first connecting plate is hinged with the closing driving plate, a strip-shaped first sliding groove is formed in the other end of the first connecting plate, the first connecting plate is connected with the upper driving plate through the first sliding groove in a sliding mode, the grounding driving plate is connected with the lower driving plate through a second connecting plate, an arc-shaped second sliding groove is formed in the outer end of the lower driving plate, one end of the second connecting plate is hinged with the grounding driving plate, and the other end of the second connecting plate is in sliding fit with the second sliding groove in;

the number of the first spring driving plates is 2, the 2 first spring driving plates are arranged in parallel and are fixedly connected through a first shaft rod, an outer sleeve is connected to the first shaft rod, and one end of the outer sleeve is rotatably connected with the first shaft rod; the number of the second spring drive plates is 2, the 2 second spring drive plates are arranged in parallel and are fixedly connected through a second shaft rod, an inner sleeve is connected to the second shaft rod, and one end of the inner sleeve is rotatably connected with the second shaft rod;

the outer sleeve and the inner sleeve are mutually sleeved, spring seats are arranged on the outer sleeve and the inner sleeve, energy storage springs are arranged on the outer sleeve and the inner sleeve, and two ends of each energy storage spring are pressed on the spring seats.

2. The novel ABB incoming line mechanism as claimed in claim 1, wherein an interlocking mechanism is fixedly arranged on one side of the front panel, the interlocking mechanism is composed of a support plate, a sliding panel and an interlocking rod, the support plate is fixedly connected with the front panel in a riveting manner, a plurality of guide sliding holes are formed in the sliding panel, the guide sliding holes comprise a first guide sliding hole and a second guide sliding hole, the first guide sliding hole and the second guide sliding hole are both kidney-shaped holes, the number of the first guide sliding holes is multiple, the sliding panel is in sliding fit with the support plate through the first guide sliding holes, and the number of the second guide sliding holes is 1, and the second guide sliding holes are sleeved on the output shaft and are in sliding fit with the output shaft.

3. The ABB mechanism as claimed in claim 2, wherein said front panel has a plurality of micro-switches fixed thereon, said micro-switches being disposed around said second cam and being activated by a flange on said second cam.

4. The ABB incoming line mechanism as claimed in claim 3, wherein the interlocking lever is slidably disposed on the support plate, one end of the interlocking lever is a contact, the other end of the interlocking lever is fixedly connected with the sliding panel, an interlocking return spring is sleeved on the interlocking lever, one end of the interlocking return spring is pressed against the sliding panel, and the other end of the interlocking return spring is pressed against the support plate;

the sliding panel is provided with a veneer which is always attached to the outer edge of the first cam under the action of the interlocking return spring, and the outer edge of the first cam is in a curve shape.

5. The novel ABB incoming line mechanism as claimed in claim 4, wherein an indication driving plate is fixedly connected to an end portion of the output shaft, an indication shaft is connected to the front panel, the indication shaft is rotatably connected to the front panel through a shaft sleeve, a first indicating plate and an indication driven plate are fixedly arranged at end portions of the indication shaft in sequence, and the indication driven plate is connected to the indication driving plate through a third connecting plate.

6. The novel ABB incoming line mechanism of claim 5, wherein the end of the output shaft is fixedly connected with a second indicating plate.

7. The novel ABB incoming line mechanism as claimed in claim 6, wherein an electromagnetic lock is fixedly arranged at one end of the front panel, a lock rod is connected to the electromagnetic lock, a lock hole is formed at an end of the grounding shaft, and the lock hole is correspondingly matched with the lock rod.

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