CN220691884U - Push-pull brake equipment for breaker detection - Google Patents

Abstract

The utility model discloses push-pull brake equipment for detecting a circuit breaker, and relates to the field of circuit breaker detection processes. The push-pull brake equipment for breaker detection comprises a frame, a vertical driving piece, a horizontal driving piece and a pushing assembly, wherein the vertical driving piece is arranged on the frame, and the horizontal driving piece is connected to the driving end of the vertical driving piece and can vertically move under the driving of the vertical driving piece; the driving end of the horizontal driving piece is connected with the pushing assembly and is used for driving the pushing assembly to horizontally move; the pushing assembly comprises two clamping plates, the two clamping plates are arranged in parallel, and a space for inserting a switch of the circuit breaker is formed between the two clamping plates at intervals. The utility model has the advantages of good equipment flexibility and even acting force on the breaker switch.

Description

Push-pull brake equipment for breaker detection

Technical Field

The utility model relates to the field of circuit breaker detection technology, in particular to push-pull brake equipment for circuit breaker detection.

Background

A circuit breaker is a commonly used circuit switching element for switching on, carrying and breaking a current under normal conditions or specified abnormal conditions. The circuit breaker usually needs to carry out a series of detection before leaving the factory, guarantees that the product is qualified. In some detection projects, a switch of the circuit breaker needs to be toggled back and forth to realize switching-on and switching-off of the circuit breaker.

In the current circuit breaker detection device, the switch of the circuit breaker is usually pushed back and forth by two push rods arranged at two sides of the switch of the circuit breaker. The mode of stirring the circuit breaker switch is strict in requirement on the installation position of the push rod, the push rod is required to be aligned with the switch of the circuit breaker, the flexibility of equipment is poor, and the movement track of the conventional poking rod type circuit breaker switch is arc-shaped, so that the push rod and the circuit breaker switch are difficult to contact well.

Disclosure of Invention

The utility model aims to provide push-pull brake equipment for circuit breaker detection, which has the effects of good equipment flexibility and uniform acting force on a circuit breaker switch.

The technical aim of the utility model is realized by the following technical scheme:

the utility model provides a push-pull gate device for detecting a circuit breaker, which comprises a frame, a vertical driving piece, a horizontal driving piece and a pushing assembly, wherein the vertical driving piece is arranged on the frame, and is connected with the driving end of the vertical driving piece and can vertically move under the driving of the vertical driving piece; the driving end of the horizontal driving piece is connected with the pushing assembly and is used for driving the pushing assembly to horizontally move; the pushing assembly comprises two clamping plates, the two clamping plates are arranged in parallel, and a space for inserting a switch of the circuit breaker is formed between the two clamping plates at intervals.

Further, the frame comprises a base and a mounting side plate, wherein the mounting side plate is vertically arranged above the base; the vertical driving piece comprises a first air cylinder, the horizontal driving piece comprises a second air cylinder, the cylinder body of the first air cylinder is fixed on the mounting side plate, and the cylinder body of the second air cylinder is fixed on the piston rod of the first air cylinder.

Further, a guide chute is formed in the mounting side plate, and the length direction of the guide chute is perpendicular to the base; a guide sliding block is arranged outside the piston rod of the second cylinder, and the guide sliding block is arranged in the guide sliding groove; along the width direction of guide spout, the relative both sides of guide slider laminate in the both sides inner wall of guide spout, just guide slider can follow the length direction of guide spout slides.

Further, the push-pull brake device for breaker detection further comprises at least one guide rod, wherein the guide rod is arranged parallel to a piston rod of the second cylinder, and the guide rod is connected to the pushing assembly;

the installation curb plate is last be on a parallel with the direction spout is provided with auxiliary guide groove, auxiliary guide inslot complex has an auxiliary guide block, auxiliary guide block is last seted up the cooperation in the guiding hole of guide bar, auxiliary guide block can be followed auxiliary guide groove's length direction slides.

Further, the pushing assembly further comprises a pushing plate fixedly connected to the piston rod of the second cylinder, and the two clamping plates are vertically slidably arranged on the pushing plate.

Further, two long sliding grooves which are vertically arranged in parallel are formed in each clamping plate, vertical sliding blocks matched with the long sliding grooves are arranged on the pushing plates, the vertical sliding blocks can slide along the length direction of the long sliding grooves, and two ends of each vertical sliding block respectively penetrate through the long sliding grooves of the two clamping plates and are connected with a release stopping plate; the width of the anti-falling plate is larger than that of the long chute.

Further, the pushing plate comprises a first base plate, a connecting plate and a second base plate, wherein the first base plate is connected with a piston rod of the second cylinder, the second base plate is arranged on one side, far away from the second cylinder, of the first base plate, the first base plate and the second base plate are arranged at intervals, and the connecting plate is connected between the first base plate and the second base plate; the second base plate is located between the two clamping plates, and the vertical sliding block is arranged on the second base plate.

Further, an abutting block is arranged on the second substrate and is simultaneously abutted against one side of the two clamping plates, which are opposite to each other.

Further, a transmission mechanism is arranged on the frame and used for conveying the circuit breaker, and the installation side plate is arranged on one side of the transmission mechanism and parallel to the transmission mechanism.

Further, the push-pull brake device for breaker detection further comprises a clamping mechanism, wherein the clamping mechanism comprises a first clamping cylinder and a second clamping cylinder which are arranged on the frame, the first clamping cylinder and the second clamping cylinder are respectively positioned on two sides of the transmission mechanism, and the first clamping cylinder and the second clamping cylinder are oppositely arranged.

In summary, the utility model has the following beneficial effects:

according to the push-pull brake equipment for detecting the circuit breaker, disclosed by the utility model, the switch of the circuit breaker is pushed by the pushing component to realize switching-on and switching-off of the circuit breaker, so that the circuit breaker can be detected conveniently. The push-pull brake equipment for breaker detection drives the horizontal driving piece and the pushing assembly to vertically move through the vertical driving piece so that the pushing assembly leaves or is attached to a breaker switch; the horizontal driving piece horizontally drives the pushing component to slide so as to push the switch of the breaker to be opened or closed. The pushing assembly comprises two clamping plates, and the breaker switch is placed between the two clamping plates, so that the reciprocating stirring of the breaker switch can be realized by only arranging a group of horizontal push rods and a group of pushing assemblies. By adopting the structure, the whole flexibility of the device is good, the requirement on the setting position precision of the vertical driving piece and the horizontal driving piece is low, the position of the pushing component can be adjusted through the horizontal driving piece and the vertical driving piece, and the device is suitable for stirring of various different breaker switches.

Drawings

Fig. 1 is a schematic perspective view of a push-pull brake apparatus for detecting a circuit breaker according to an embodiment of the present utility model.

Fig. 2 is a front view schematically showing a push-pull brake device for breaker detection according to an embodiment of the present utility model.

Fig. 3 is an exploded view of a pushing assembly according to an embodiment of the present utility model.

Fig. 4 is a schematic front view of a pushing assembly according to an embodiment of the present utility model.

In the figure:

1000. push-pull brake equipment for breaker detection; 100. a frame; 110. a base; 120. installing a side plate; 121. a guide chute; 122. an auxiliary guide groove; 200. a transmission mechanism; 210. a conveyor belt; 300. a clamping mechanism; 310. a first clamping cylinder; 320. a second clamping cylinder; 400. a vertical drive; 500. a horizontal driving member; 510. a guide slide block; 511. a release-stopping plate; 520. a reinforcing rod; 530. an auxiliary guide block; 540. a guide hole; 550. a guide rod; 600. a pushing assembly; 610. a pushing plate; 611. a first substrate; 612. a second substrate; 613. a vertical sliding block; 614. an abutment block; 615. a connecting plate; 620. a clamping plate; 621. a long chute; 700. a circuit breaker.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

The present embodiment discloses a push-pull device 1000 for detecting a circuit breaker, referring to fig. 1 and 2, the push-pull device 1000 for detecting a circuit breaker includes a frame 100, a transmission mechanism 200, a clamping mechanism 300, a vertical driving piece 400, a horizontal driving piece 500, and a pushing assembly 600. The transmission mechanism 200 is disposed on the frame 100 and is used for conveying the circuit breaker 700. The clamping mechanism 300 is disposed on the frame 100 and located at both sides of the transmission mechanism 200, for clamping the circuit breaker 700. The vertical driving member 400 is vertically disposed on the frame 100, the horizontal driving member 500 is horizontally disposed above the frame 100, and the pushing assembly 600 is connected to the horizontal driving member 500. By the cooperation of the vertical driving piece 400 and the horizontal driving piece 500, the vertical and horizontal movement of the pushing assembly 600 is realized, so that the pushing assembly 600 is attached to the switch of the circuit breaker 700 and toggles the switch of the circuit breaker 700.

The rack 100 includes a base 110 and mounting side plates 120. The mounting side plate 120 is vertically disposed above the base 110. The vertical driving part 400 includes a first cylinder, the horizontal driving part 500 includes a second cylinder, the cylinder body of the first cylinder is fixed to the mounting side plate 120, the cylinder body of the second cylinder is fixed to the piston rod of the first cylinder, and the piston rod of the second cylinder passes through the mounting side plate 120 to drive the push assembly 600 to move.

Specifically, the mounting side plate 120 is provided with a guiding chute 121. The length direction of the guide chute 121 is perpendicular to the base 110. The piston rod of the second cylinder is sleeved with a guide sliding block 510, and the guide sliding block 510 is arranged in the guide sliding groove 121. Along the width direction of the guide chute 121, opposite sides of the guide slider 510 are attached to inner walls of both sides of the guide chute 121; along the length direction of the guide chute 121, the length of the guide slider 510 is smaller than the length of the guide chute 121, so that the guide slider 510 can slide along the length direction of the guide chute 121.

Therefore, the first cylinder drives the second cylinder to slide vertically more stably through the cooperation of the guide sliding block 510 and the guide sliding groove 121. The piston rod of the second cylinder passes through the guide slider 510 and slides with respect to the guide slider 510 to drive the push assembly 600 to move horizontally.

Wherein, the guide slider 510 is further connected with a reinforcing rod 520, one end of the reinforcing rod 520 is connected to the pushing assembly 600, and the other end of the reinforcing rod passes through the guide slider 510 and can slide horizontally relative to the guide slider 510.

The installation side plate 120 is provided with an auxiliary guide groove 122 parallel to the guide chute 121. An auxiliary guide block 530 is fitted into the auxiliary guide groove 122. The auxiliary guide block 530 is provided with a guide hole 540. A guide rod 550 is slidably mounted in the guide hole 540. The auxiliary guide block 530 is capable of sliding along the length direction of the auxiliary guide groove 122, so that the guide bar 550 is also capable of moving in the vertical direction.

Wherein the guide bar 550 is disposed parallel to the piston rod of the second cylinder, and one end of the guide bar 550, which is remote from the auxiliary guide block 530, is connected to the push assembly 600. Thereby enabling stable vertical sliding movement of the push assembly 600 without deflection.

Referring to fig. 1 to 4, the pushing assembly 600 includes a pusher plate 610 and two clamping plates 620. The piston rod of the second cylinder, the guide rod 550 and the reinforcing rod 520 are fixedly connected to one side of the push plate 610. Both clamping plates 620 are slidably disposed vertically on the pusher plate 610. The space between the two clamping plates 620 forms a space for the switch of the circuit breaker 700 to be placed. When the push-pull brake apparatus 1000 for circuit breaker detection is operated, the first and second cylinders drive the push assembly 600 to move so that the switch of the circuit breaker 700 is located between the two clamping plates 620. When the piston rod of the second cylinder is ejected, one clamping plate 620 pushes the switch of the circuit breaker 700 to be shifted towards one direction so as to switch on the circuit breaker 700, and when the piston rod of the second cylinder is retracted, the other clamping plate 620 pushes the switch of the circuit breaker 700 to be shifted towards the opposite direction so as to switch off the circuit breaker 700. So that the reciprocating toggling of the switch of the circuit breaker 700 can be realized by only arranging a group of horizontal push rods and a group of pushing assemblies 600. Therefore, the whole flexibility of the device is good, the requirements on the setting position precision of the vertical driving piece 400 and the horizontal driving piece 500 are low, the position of the pushing assembly 600 can be adjusted through the horizontal driving piece 500 and the vertical driving piece 400, and the device is suitable for stirring of the switches of various different circuit breakers 700.

The pusher plate 610 includes a first base plate 611, a connecting plate 615, and a second base plate 612. The piston rod of the second cylinder, the guide rod 550 and the reinforcing rod 520 are all connected to the first base plate 611. The second substrate 612 is disposed on a side of the first substrate 611 away from the second cylinder, and the second substrate 612 is parallel to the first substrate 611. The first substrate 611 and the second substrate 612 are disposed at a distance, and the connection board 615 is connected between the first substrate 611 and the second substrate 612. One of the two clamping plates 620 is located at a side of the second substrate 612 remote from the first substrate 611, the other clamping plate 620 is located between the second substrate 612 and the first substrate 611, and the clamping plate 620 is parallel to the second substrate 612.

Two long sliding grooves 621 are arranged on each clamping plate 620 in a vertical parallel mode, and two vertical sliding blocks 613 matched with the long sliding grooves 621 are arranged on the second base plate 612. One end of the vertical slider 613 passes through the long chute 621 of one clamping plate 620, and the other end passes through the long chute 621 of the other clamping plate 620. And the vertical slider 613 can slide along the length direction of the long chute 621. Two ends of the vertical sliding block 613, which pass through the long sliding grooves 621 of the two clamping plates 620, are respectively connected with a release-stopping plate 511, and the width of the release-stopping plate 511 is larger than that of the long sliding groove 621. This allows for a vertically sliding mounting of the two clamping plates 620 to the pusher plate 610, while at the same time making the two clamping plates 620 less prone to falling off the pusher plate 610.

The second substrate 612 is further provided with an abutment block 614, and the abutment block 614 is simultaneously abutted against one side of the two clamping plates 620. Thus, the two clamping plates 620 are compactly connected with the pushing plate 610, and the distance between the two clamping plates 620 is constant, so that the clamping plates 620 can push the switch of the circuit breaker 700.

Referring to fig. 1, the transport mechanism 200 includes two parallel-disposed conveyor belts 210. Both conveyor belts 210 are mounted on the base 110. Both conveyor belts 210 are located on the same side of the mounting side plate 120 and are disposed parallel to the mounting side plate 120. The second cylinder is horizontally disposed above the conveyor belt 210. When the conveyor belts 210 convey the circuit breakers 700, the circuit breakers 700 are straddled on the two conveyor belts 210, so that the circuit breakers 700 are conveyed more stably and the volume and the cost of the conveyor belts 210 are reduced.

Referring to fig. 1, the clamping mechanism 300 includes a first clamping cylinder 310 and a second clamping cylinder 320 provided on the frame 100, the first clamping cylinder 310 and the second clamping cylinder 320 being located at both sides of the transmission mechanism 200, respectively, and the first clamping cylinder 310 and the second clamping cylinder 320 being provided opposite to each other. When the push-pull device for breaker detection works, the first clamping cylinder 310 and the second clamping cylinder 320 clamp the breaker 700 on the conveyor belt 210, so that the breaker 700 is prevented from being displaced when the push assembly 600 switches the breaker 700.

The foregoing description is only of the preferred embodiments of the utility model, and all changes and modifications that come within the meaning and range of equivalency of the structures, features and principles of the utility model are therefore intended to be embraced therein.

Claims (10)

1. The push-pull brake equipment for breaker detection is characterized by comprising a frame (100), a vertical driving piece (400), a horizontal driving piece (500) and a pushing assembly (600), wherein the vertical driving piece (400) is arranged on the frame (100), and the horizontal driving piece (500) is connected to the driving end of the vertical driving piece (400) and can vertically move under the driving of the vertical driving piece (400); the driving end of the horizontal driving piece (500) is connected with the pushing assembly (600) and is used for driving the pushing assembly (600) to horizontally move; the pushing assembly (600) comprises two clamping plates (620), wherein the two clamping plates (620) are arranged in parallel, and a space for inserting a switch of the circuit breaker (700) is formed between the two clamping plates (620).

2. The push-pull brake device for breaker detection according to claim 1, wherein the frame (100) comprises a base (110) and a mounting side plate (120), the mounting side plate (120) being vertically arranged above the base (110); the vertical driving piece (400) comprises a first air cylinder, the horizontal driving piece (500) comprises a second air cylinder, the cylinder body of the first air cylinder is fixed on the mounting side plate (120), and the cylinder body of the second air cylinder is fixed on the piston rod of the first air cylinder.

3. The push-pull brake device for detecting a circuit breaker according to claim 2, wherein a guiding chute (121) is formed on the mounting side plate (120), and the length direction of the guiding chute (121) is perpendicular to the base (110); a guide sliding block (510) is arranged outside a piston rod of the second cylinder, and the guide sliding block (510) is arranged in the guide sliding groove (121); along the width direction of the guide chute (121), opposite sides of the guide slide block (510) are attached to inner walls of two sides of the guide chute (121), and the guide slide block (510) can slide along the length direction of the guide chute (121).

4. A push-pull brake device for detecting a circuit breaker according to claim 3, characterized in that it further comprises at least one guiding rod (550), said guiding rod (550) being arranged parallel to the piston rod of said second cylinder, said guiding rod (550) being connected to said pushing assembly (600);

the installation curb plate (120) are gone up and are on a parallel with direction spout (121) is provided with supplementary guide way (122), supplementary guide way (122) internal fit has an supplementary guide block (530), offer on supplementary guide block (530) cooperate in guiding hole (540) of guide bar (550), supplementary guide block (530) can be followed the length direction of supplementary guide way (122) slides.

5. The push-pull brake device for detecting a circuit breaker according to claim 2, wherein the pushing assembly (600) further comprises a pushing plate (610), the pushing plate (610) is fixedly connected to a piston rod of the second cylinder, and two clamping plates (620) are vertically slidably arranged on the pushing plate (610).

6. The push-pull brake device for breaker detection according to claim 5, wherein two long sliding grooves (621) which are vertically arranged in parallel are arranged on each clamping plate (620), a vertical sliding block (613) which is matched with the long sliding grooves (621) is arranged on the pushing plate (610), the vertical sliding block (613) can slide along the length direction of the long sliding grooves (621), and two ends of the vertical sliding block (613) respectively penetrate through the long sliding grooves (621) of the two clamping plates (620) and are connected with a disengagement stopping plate (511); the width of the anti-falling plate (511) is larger than that of the long chute (621).

7. The push-pull brake device for breaker detection according to claim 6, wherein the pushing plate (610) comprises a first base plate (611), a connecting plate (615) and a second base plate (612), the first base plate (611) is connected to a piston rod of the second cylinder, the second base plate (612) is disposed on a side of the first base plate (611) away from the second cylinder, the first base plate (611) and the second base plate (612) are disposed at intervals, and the connecting plate (615) is connected between the first base plate (611) and the second base plate (612); the second base plate (612) is located between the two clamping plates (620), and the vertical sliding block (613) is arranged on the second base plate (612).

8. The push-pull brake device for detecting a circuit breaker according to claim 7, wherein an abutting block (614) is provided on the second substrate (612), and the abutting block (614) is simultaneously abutted against one side of two clamping plates (620) which face each other.

9. The push-pull brake device for detecting a circuit breaker according to claim 2, wherein a transmission mechanism (200) is provided on the frame (100), the transmission mechanism (200) is used for conveying the circuit breaker (700), and the mounting side plate (120) is provided on one side of the transmission mechanism (200) and parallel to the transmission mechanism (200).

10. The push-pull brake device for breaker detection according to claim 9, further comprising a clamping mechanism (300), wherein the clamping mechanism (300) comprises a first clamping cylinder (310) and a second clamping cylinder (320) which are arranged on the frame (100), the first clamping cylinder (310) and the second clamping cylinder (320) are respectively positioned on two sides of the transmission mechanism (200), and the first clamping cylinder (310) and the second clamping cylinder (320) are arranged opposite to each other.