CN218252976U - Drilling device for power distribution cabinet assembly line - Google Patents

Abstract

The utility model relates to a switch board assembly technical field, especially a drilling equipment for switch board assembly line, including material loading conveyer belt, material loading platform, processing platform, unloading conveyer belt, drilling part and material loading subassembly, the processing platform is the level setting, material loading platform and unloading conveyer belt set up the both sides at the processing platform respectively, the material loading conveyer belt sets up the side at the material loading platform, the material loading subassembly sets up the top at the material loading platform, the drilling part includes spacing subassembly and drilling subassembly, spacing subassembly sets up the top at the processing platform, the drilling subassembly sets up in spacing subassembly. The utility model has the advantages that: through the setting of drilling parts, can fix spacingly to panel, the mutual acting force that produces when avoiding panel to be bored drives panel and removes, reduces the phenomenon emergence that drilling dislocation or drilling were arranged irregularly.

Description

Drilling device for power distribution cabinet assembly line

Technical Field

The utility model relates to a switch board assembly technical field, especially a drilling equipment for switch board assembly line.

Background

The switch board adopts advanced structure and the modular unit of assembling, has the security height, strong reliability, rationally distributed, convenient nimble advantage such as. In order to improve the installation precision and avoid deformation and stress caused by welding, the frame is made of special-shaped steel, has no welding structure and is positioned by all three-dimensional angle plates. The mechanical interlocking is adopted between the circuit breaker and the operating handle of the MCC cabinet drawer chamber, and the door can be opened when the handle is in a disconnection state, so that the personal safety is ensured. In order to prevent oxidation, the internal structure of the cabinet is galvanized; after acid washing and phosphorization treatment, the exterior is sprayed with electrostatic epoxy powder to prevent static electricity.

The material of the frame in the cabinet is usually stainless steel plate, and the stainless steel distribution box is mainly characterized by good antirust function and more durable service; in the processing of the stainless steel frame stainless steel plate, the stainless steel plate needs to be punched and drilled to facilitate the heat dissipation of elements in the electrical cabinet, and the stainless steel plate is generally drilled by a punching head and manually controlled to move; however, certain deviation usually occurs in the stainless steel plate in the moving process, and then when the hole is drilled, the hole patterns on the stainless steel plate are irregular and the holes are not regularly arranged, so that the heat dissipation effect in the electrical cabinet is reduced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the shortcoming among the prior art, provide a drilling equipment for switch board assembly line.

The purpose of the utility model is realized through the following technical scheme: the utility model provides a drilling equipment for switch board assembly line, includes material loading conveyer belt, material loading platform, processing platform, unloading conveyer belt, drilling part and material loading subassembly, the processing platform is the level setting, material loading platform and unloading conveyer belt set up the both sides at the processing platform respectively, the material loading conveyer belt sets up the side at the material loading platform, the material loading subassembly sets up the top at the material loading platform, the drilling part includes spacing subassembly and drilling subassembly, spacing subassembly sets up the top at the processing platform, the drilling subassembly sets up in spacing subassembly.

Preferably, spacing subassembly includes rectangle frame, spacing motor, hold-in range, four synchronizing wheels and four rotation posts, the rectangle frame is located the processing platform directly over, four rotate the post and be matrix distribution and rotate the bottom that sets up at the rectangle frame, and every bottom of rotating the post all rotates with the top of processing platform to be connected, spacing motor is installed at the top of rectangle frame, and the output of spacing motor runs through the rectangle frame and is connected, four with one rotation post the synchronizing wheel distribution cover is established on four rotation posts, the hold-in range cover is established on four synchronizing wheels, every all install the limiting plate on the outer wall of rotation post, and four limiting plates are the top of matrix distribution at the processing platform.

Preferably, the drilling assembly comprises a translation motor, a translation seat, a translation screw, a translation seat, a translation motor, a translation gear and a punching piece, the translation seat is horizontally arranged in the rectangular frame, the translation screw is rotatably arranged in the rectangular frame, the translation motor is arranged on the side wall of the rectangular frame, the output end of the translation motor penetrates through the rectangular frame and is connected with the translation screw, one end of the translation seat penetrates through one inner side wall of the rectangular frame and is sleeved on the translation screw, the other end of the translation seat is slidably connected with the other inner side wall of the rectangular frame, a sliding opening is formed in the top of the translation seat, the translation seat is slidably arranged in the sliding opening, a rack plate is arranged on the side wall of the translation seat, the translation motor is arranged at the top of the translation seat, the translation gear is arranged at the output end of the translation motor and is meshed with the rack plate, and the punching piece is arranged at the bottom of the translation seat.

Preferably, the punching piece comprises a punching frame, a punching cylinder, a punching plate and a punching head, the punching frame is arranged at the bottom of the transverse moving seat, the punching cylinder is arranged on the inner bottom wall of the punching frame, the output end of the punching cylinder penetrates through the punching frame and extends downwards, the punching plate is arranged at the output end of the punching cylinder, and the punching head is arranged at the bottom of the punching plate.

Preferably, the material loading subassembly includes material loading motor, material loading screw rod, movable plate, push pedal and baffle, the material loading screw rod rotates and sets up in the material loading platform, the material loading motor sets up on the lateral wall of material loading platform, and the output of material loading motor runs through the material loading platform and is connected with the material loading screw rod, the movable plate slides and sets up in the material loading platform, and the movable plate cover is established on the material loading screw rod, the push pedal is located the top of material loading platform, and the movable plate runs through the material loading platform and is connected with the push pedal, the baffle sets up on one end of push pedal, the riser is installed at the top of material loading platform, and the riser is located the other end of push pedal, has seted up the opening on the lateral wall of riser.

Preferably, the processing table is provided with a scrap cleaning assembly, the scrap cleaning assembly is located beside the rectangular frame, the scrap cleaning assembly comprises scrap cleaning seats, a scrap cleaning motor, a lifting screw, a guide rod, a scrap cleaning plate, an electric cylinder and two L-shaped seats, the scrap cleaning seats are inserted into the top of the processing table, the two L-shaped seats are symmetrically arranged on the top of the processing table and located on two sides of the scrap cleaning seats respectively, the guide rod and the lifting screw are rotatably arranged at the bottoms of the two L-shaped seats respectively, the guide rod and the bottom of the lifting screw penetrate through the scrap cleaning seats and are rotatably connected with the processing table, the scrap cleaning motor is mounted on the top of one L-shaped seat, the output end of the scrap cleaning motor penetrates through the L-shaped seats and is connected with the lifting screw, the top of the scrap cleaning seat is provided with an auxiliary plate, the electric cylinder is arranged on the side wall of the auxiliary plate, the output end of the electric cylinder penetrates through the auxiliary plate and extends outwards, and the scrap cleaning plate is arranged on the output end of the electric cylinder.

The utility model has the advantages of it is following:

when a plate moves to a processing table through a feeding assembly, a limiting motor drives a rotating column to rotate, the four rotating columns are connected with four synchronous wheels which are respectively sleeved on the four rotating columns through synchronous belts, the four rotating columns rotate together, four limiting plates are converted into rectangles and are pushed to the positions between the rectangles, and meanwhile the four limiting plates can be abutted to the four outer walls of the plate, so that the plate is fixed and limited on the processing table.

Secondly, after panel drilling is completed, according to the thickness of panel, the clear bits motor drive lifting screw rotates, makes the clear bits seat of cover on lifting screw reciprocate, and later, the clear bits board of electric cylinder drive removes, makes the clear bits board clear up the piece on panel surface.

Drawings

Fig. 1 is a schematic perspective view of a first viewing angle of the present invention;

fig. 2 is a schematic perspective view of a second viewing angle of the present invention;

FIG. 3 is a schematic perspective view of the drilling assembly of the present invention;

fig. 4 is an exploded view of the drilling assembly of the present invention;

fig. 5 is a schematic perspective view of the feeding assembly of the present invention;

fig. 6 is a schematic view of the three-dimensional structure of the scrap-removing assembly of the present invention.

In the figure: 1-feeding conveyor belt, 2-feeding table, 21-vertical plate, 3-processing table, 4-blanking conveyor belt, 5-drilling component, 51-limiting component, 511-rectangular frame, 512-limiting motor, 513-synchronous belt, 514-synchronous wheel, 515-rotating column, 516-limiting plate, 52-drilling component, 521-translation motor, 522-translation seat, 523-translation screw rod, 524-translation seat, 525-translation motor, 526-translation gear, 527-punching component, 5271-punching frame, 5272-punching cylinder, 5273-punching plate, 5274-punching head, 528-rack plate, 6-feeding component, 61-feeding motor, 62-feeding screw rod, 63-moving plate, 64-push plate, 65-baffle plate, 7-scrap-cleaning component, 71-scrap cleaning seat, 72-scrap cleaning motor, 73-lifting screw rod, 74-guide rod, 75-scrap cleaning plate, 76-electric cylinder, 77-L-shaped seat and 78-auxiliary plate.

Detailed Description

The invention will be further described with reference to the accompanying drawings, but the scope of the invention is not limited to the following description.

As shown in fig. 1 to 6, a drilling device for a power distribution cabinet assembly line comprises a feeding conveyor belt 1, a feeding table 2, a processing table 3, a discharging conveyor belt 4, a drilling part 5 and a feeding assembly 6, wherein the processing table 3 is horizontally arranged, the feeding table 2 and the discharging conveyor belt 4 are respectively arranged on two sides of the processing table 3, the feeding conveyor belt 1 is arranged beside the feeding table 2, the feeding assembly 6 is arranged on the top of the feeding table 2, the drilling part 5 comprises a limiting assembly 51 and a drilling assembly 52, the limiting assembly 51 is arranged on the top of the processing table 3, and the drilling assembly 52 is arranged in the limiting assembly 51.

Specifically, the limiting component 51 includes a rectangular frame 511, a limiting motor 512, a synchronous belt 513, four synchronous wheels 514 and four rotating columns 515, the rectangular frame 511 is located right above the processing table 3, the four rotating columns 515 are distributed in a matrix and rotate at the bottom of the rectangular frame 511, the bottom of each rotating column 515 is rotatably connected with the top of the processing table 3, the limiting motor 512 is mounted at the top of the rectangular frame 511, the output end of the limiting motor 512 penetrates through the rectangular frame 511 and is connected with one rotating column 515, the four synchronous wheels 514 are distributed and sleeved on the four rotating columns 515, the synchronous belt 513 is sleeved on the four synchronous wheels 514, each rotating column 515 is provided with a limiting plate 516 on the outer wall thereof, and the four limiting plates 516 are distributed at the top of the processing table 3 in a matrix manner, when a plate moves to the processing table 3 through the feeding component 6, the limiting motor 512 drives one rotating column 515 to rotate, the synchronous wheels 515 are connected with the four synchronous wheels 514, the synchronous wheels are respectively sleeved on the four rotating columns 515 through the synchronous belts 513, so that the four rotating columns 515 rotate together, the four rotating columns 515 rotate, and the four rotating columns 516 are pushed to the rectangular plate, and the processing table is pushed to the rectangular plate, and fixed between the four processing tables 516, thereby fixing the four processing columns and the four processing tables 3.

Specifically, the drilling assembly 52 includes a translation motor 521, a translation seat 522, a translation screw 523, a translation seat 524, a translation motor 525, a translation gear 526 and a punching element 527, the translation seat 522 is horizontally located in the rectangular frame 511, the translation screw 523 is rotatably disposed in the rectangular frame 511, the translation motor 521 is mounted on a side wall of the rectangular frame 511, an output end of the translation motor 521 penetrates through the rectangular frame 511 and is connected with the translation screw, one end of the translation seat 522 penetrates through an inner side wall of the rectangular frame 511 and is sleeved on the translation screw 523, the other end of the translation seat 522 is slidably connected with another inner side wall of the rectangular frame 511, a sliding port is formed in the top of the translation seat 522, the translation seat 524 is slidably disposed in the sliding port, a rack plate 528 is disposed on the side wall of the translation seat 522, the translation motor is mounted on the top of the translation seat 524, the translation gear 526 is disposed on the output end of the translation motor 525, the translation gear 526 is engaged with the rack plate 528, the punching element 527 is disposed at the bottom of the translation seat 524, after the plate is fixed, the translation motor 526 rotates to drive the translation screw 523, and drives the translation motor 523 to move a translation shaft 527 to drive a translation shaft of the translation seat 525 to move, so as to drive the translation motor 527, and to drive a punching element 527 to move on a punching element, and to punch a punching element 527 on a punching axis 527.

Specifically, the punching member 527 comprises a punching frame 5271, a punching cylinder 5272, a punching plate 5273 and a punching head 5274, the punching frame 5271 is arranged at the bottom of the transverse moving seat 524, the punching cylinder 5272 is arranged on the inner bottom wall of the punching frame 5271, the output end of the punching cylinder 5272 penetrates through the punching frame 5271 and extends downwards, the punching plate 5273 is arranged at the output end of the punching cylinder 5272, the punching head 5274 is arranged at the bottom of the punching plate 5273, the punching plate 5273 is driven to descend by the punching cylinder 5272, so that the punching head 5274 can punch holes on the surface of the plate, and the plate is fixed and limited by the four limiting plates 516, so that the plate is prevented from being driven to move by the mutual acting force generated when the plate is drilled, and the phenomenon of dislocation or irregular drilling arrangement is reduced.

Specifically, the feeding assembly 6 includes a feeding motor 61, a feeding screw 62, a moving plate 63, a pushing plate 64 and a baffle 65, the feeding screw 62 is rotatably disposed in the feeding table 2, the feeding motor 61 is disposed on a side wall of the feeding table 2, an output end of the feeding motor 61 penetrates through the feeding table 2 and is connected with the feeding screw 62, the moving plate 63 is slidably disposed in the feeding table 2, the moving plate 63 is sleeved on the feeding screw 62, the pushing plate 64 is located at a top of the feeding table 2, the moving plate 63 penetrates through the feeding table 2 and is connected with the pushing plate 64, the baffle 65 is disposed at one end of the pushing plate 64, a vertical plate 21 is mounted at the top of the feeding table 2, the vertical plate 21 is located at the other end of the pushing plate 64, an opening is formed in a side wall of the vertical plate 21, and by the feeding conveyor belt 1, can remove a plurality of panels in proper order to material loading platform 2 on, after panel removes material loading platform 2, panel can contradict with riser 21, later material loading motor 61 drive material loading screw 62 rotates, it establishes movable plate 63 on material loading screw 62 to drive the cover, make push pedal 64 can promote the panel on the material loading platform 2 to processing platform 3 on, the setting of baffle 65, can keep apart the next panel on material loading conveyer belt 1, after the panel on the processing platform 3 punches a hole and accomplishes, four limiting plate 516 rotate and the panel separation, one of them limiting plate 516 can rotate in the opening on riser 21, then push pedal 64 promotes next panel to processing platform 3 on, the panel extrusion after the completion of punching a hole is to unloading conveyer belt 4 on the while, carry out subsequent assembly line assembly work through unloading conveyer belt 4.

Specifically, the machining table 3 is provided with a scrap cleaning assembly 7, the scrap cleaning assembly 7 is located beside the rectangular frame 511, the scrap cleaning assembly 7 includes a scrap cleaning seat 71, a scrap cleaning motor 72, a lifting screw 73, a guide rod 74, a scrap cleaning plate 75, an electric cylinder 76 and two L-shaped seats 77, the scrap cleaning seat 71 is inserted into the top of the machining table 3, the two L-shaped seats 77 are symmetrically arranged on the top of the machining table 3, the two L-shaped seats 77 are respectively located on two sides of the scrap cleaning seat 71, the guide rod 74 and the lifting screw 73 are respectively rotatably arranged at the bottoms of the two L-shaped seats 77, the bottoms of the guide rod 74 and the lifting screw 73 both penetrate through the scrap cleaning seat 71 and are rotatably connected with the machining table 3, the scrap cleaning motor 72 is mounted at the top of one L-shaped seat 77, the output end of the scrap cleaning motor 72 penetrates through the L-shaped seat 77 and is connected with the lifting screw 73, the top of the scrap cleaning seat 71 is provided with the electric cylinder 78, the electric cylinder 76 is arranged on the side wall of the electric cylinder 78, the plate 76 extends through the plate 76, the scrap cleaning cylinder 75 is arranged on the plate 71 to drive the plate to move, and the scrap cleaning cylinder 75, the scrap cleaning cylinder 75 to drive the scrap cleaning cylinder to move up and down, and move, and down, and then the plate 73, the plate to drive the scrap cleaning cylinder to complete the scrap cleaning cylinder 75, and drill.

The working process of the utility model is as follows: a plurality of plates can be sequentially moved onto the feeding table 2 through the feeding conveyor belt 1, after the plates are moved onto the feeding table 2, the plates can collide with the vertical plate 21, then the feeding motor 61 drives the feeding screw 62 to rotate to drive the moving plate 63 sleeved on the feeding screw 62 to move, so that the plate on the feeding table 2 can be pushed onto the processing table 3 by the pushing plate 64, the next plate on the feeding conveyor belt 1 can be isolated by the arrangement of the baffle plate 65, when the plates are moved onto the processing table 3, the limiting motor 512 drives one rotating column 515 to rotate, the four rotating columns 515 are connected with four synchronous wheels 514 respectively sleeved on the four rotating columns 515 through the synchronous belt 513, so that the four rotating columns 515 rotate together, the four limiting plates 516 are rotated into rectangles, the plates are pushed to be between the rectangles, and the four limiting plates 516 can collide with the four outer walls of the plates at the same time, thereby fixing and limiting the plate on the processing table 3, after the plate is fixed, the translation motor 521 drives the translation screw 523 to rotate to drive the translation seat 522 sleeved on the translation screw 523 to move, meanwhile, the translation motor 525 drives the translation gear 526 to rotate on the rack plate 528 meshed with the translation gear to drive the translation seat 524 to move, so as to realize the movement of the X axis and the Y axis of the punching head 5274, the punching cylinder 5272 drives the punching plate 5273 to descend, so that the punching head 5274 can perform drilling work on any position of the surface of the plate, after the plate is drilled, the scrap cleaning motor 72 drives the lifting screw 73 to rotate according to the thickness of the plate, so as to enable the scrap cleaning seat 71 sleeved on the lifting screw 73 to move up and down, then, the electric cylinder 76 drives the scrap cleaning plate 75 to move, so that the scrap cleaning plate 75 cleans the scraps on the surface of the plate, after the plate on the processing table 3 is punched and the scraps are cleaned, four limiting plates 516 rotate and are separated from the plate, one of the limiting plates 516 can rotate to the opening on the vertical plate 21, then the push plate 64 pushes the next plate to the processing table 3, the punched plate is extruded to the blanking conveyor belt 4, and subsequent assembly line assembly work is carried out through the blanking conveyor belt 4.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a switch board drilling equipment for assembly line which characterized in that: including material loading conveyer belt (1), material loading platform (2), processing platform (3), unloading conveyer belt (4), drilling part (5) and material loading subassembly (6), processing platform (3) are the level setting, material loading platform (2) and unloading conveyer belt (4) set up the both sides in processing platform (3) respectively, material loading conveyer belt (1) sets up the side in material loading platform (2), material loading subassembly (6) set up the top in material loading platform (2), drilling part (5) are including spacing subassembly (51) and drilling subassembly (52), spacing subassembly (51) set up the top in processing platform (3), drilling subassembly (52) set up in spacing subassembly (51).

2. The drilling device for the assembly line of the power distribution cabinet according to claim 1, characterized in that: spacing subassembly (51) include rectangle frame (511), spacing motor (512), hold-in range (513), four synchronizing wheel (514) and four rotation post (515), rectangle frame (511) are located processing platform (3) directly over, four rotation post (515) are the matrix distribution and rotate the bottom that sets up at rectangle frame (511), and every bottom of rotating post (515 all rotates with the top of processing platform (3) and is connected, install the top at rectangle frame (511) spacing motor (512), and the output of spacing motor (512) runs through rectangle frame (511) and is connected with one rotation post (515), four synchronizing wheel (514) distributes the cover and establishes on four hold-in range posts (515), establish on four synchronizing wheel (513) cover, every all install limiting plate (516) on the outer wall of rotation post (515), and four limiting plate (516) are the top of matrix distribution at processing platform (3).

3. The drilling device for the assembly line of the power distribution cabinet according to claim 2, characterized in that: the drilling assembly (52) comprises a translation motor (521), a translation seat (522), a translation screw (523), a translation seat (524), a translation motor (525), a translation gear (526) and a punching piece (527), wherein the translation seat (522) is horizontally arranged in a rectangular frame (511), the translation screw (523) is rotatably arranged in the rectangular frame (511), the translation motor (521) is installed on the side wall of the rectangular frame (511), the output end of the translation motor (521) penetrates through the rectangular frame (511) and is connected with the translation screw (523), one end of the translation seat (522) penetrates through an inner side wall of the rectangular frame (511) and is sleeved on the translation screw (523), the other end of the translation seat (522) is connected with the other inner side wall of the rectangular frame (511) in a sliding mode, a sliding port is formed in the top of the inner side wall of the translation seat (522), the translation seat (524) is arranged in a sliding port, a rack plate (528) is arranged on the side wall of the translation seat (522), the translation motor (525) is installed at the top of the translation seat (524), the translation gear (526) is arranged on the side wall of the rack plate (525) and is meshed with the punching piece (527), and the output end of the punch seat (526).

4. The drilling device for the assembly line of the power distribution cabinet according to claim 3, wherein: the punching piece (527) comprises a punching frame (5271), a punching cylinder (5272), a punching plate (5273) and a punching head (5274), wherein the punching frame (5271) is arranged at the bottom of the transverse moving seat (524), the punching cylinder (5272) is arranged on the inner bottom wall of the punching frame (5271), the output end of the punching cylinder (5272) penetrates through the punching frame (5271) and extends downwards, the punching plate (5273) is arranged at the output end of the punching cylinder (5272), and the punching head (5274) is arranged at the bottom of the punching plate (5273).

5. The drilling device for the assembly line of the power distribution cabinet according to claim 1, wherein: feeding subassembly (6) include material loading motor (61), material loading screw rod (62), movable plate (63), push pedal (64) and baffle (65), material loading screw rod (62) rotate to set up in material loading platform (2), material loading motor (61) set up on the lateral wall of material loading platform (2), and the output of material loading motor (61) runs through material loading platform (2) and is connected with material loading screw rod (62), movable plate (63) slide to set up in material loading platform (2), and movable plate (63) cover is established on material loading screw rod (62), push pedal (64) are located the top of material loading platform (2), and movable plate (63) run through material loading platform (2) and are connected with push pedal (64), baffle (65) set up in one end of push pedal (64), riser (21) are installed at the top of material loading platform (2), and riser (21) are located the other end of push pedal (64), have seted up the opening on the lateral wall of riser (21).

6. The drilling device for the assembly line of the power distribution cabinet according to claim 2, characterized in that: the processing table (3) is provided with a scrap cleaning component (7), the scrap cleaning component (7) is positioned beside the rectangular frame (511), the scrap cleaning component (7) comprises a scrap cleaning seat (71), a scrap cleaning motor (72), a lifting screw (73), a guide rod (74), a scrap cleaning plate (75), an electric cylinder (76) and two L-shaped seats (77), the scrap cleaning seat (71) is inserted at the top of the processing table (3), the two L-shaped seats (77) are symmetrically arranged at the top of the processing table (3), and two L-shaped seats (77) are respectively positioned at two sides of the scrap cleaning seat (71), the guide rod (74) and the lifting screw rod (73) are respectively and rotatably arranged at the bottoms of the two L-shaped seats (77), the bottoms of the guide rod (74) and the lifting screw rod (73) penetrate through the scrap cleaning seat (71) and are rotationally connected with the processing table (3), the scrap cleaning motor (72) is arranged at the top of an L-shaped seat (77), and the output end of the scrap cleaning motor (72) penetrates through the L-shaped seat (77) to be connected with the lifting screw rod (73), an auxiliary plate (78) is arranged at the top of the scrap removing seat (71), the electric cylinder (76) is arranged on the side wall of the auxiliary plate (78), and the output end of the electric cylinder (76) penetrates through the auxiliary plate (78) and extends outwards, the chip cleaning plate (75) is arranged on the output end of the electric cylinder (76).

Images