CN116809739A - Automation equipment for manufacturing automobile parts - Google Patents

Abstract

The application relates to the field of automobile accessory machining, in particular to automatic equipment for manufacturing automobile accessories, which comprises a supporting device, wherein the supporting device is used for positioning and guiding, a discharging bin is detachably arranged at the position, close to the middle, of the upper end face of the supporting device, a feeding guide groove is formed in the inner end face of the discharging bin in a penetrating mode, the feeding guide groove is used for feeding, and a guiding device is arranged at the bottom end of the tail of the supporting device. When the sheet metal plate is processed, the servo motor can synchronously drive the driving conical helical gear and the driving sprocket through the servo planetary reducer and the connecting shaft, so that the driving conical helical gear can provide power for circulating feeding for the material pushing plate through the guide device and the transmission guide plate, and meanwhile, the driving sprocket can provide power for punching of the regulating and controlling device, and further, the material pushing plate is matched with the feeding of the material pushing plate, the sheet metal plate is subjected to non-intermittent punching processing operation, and the automation degree and efficiency of processing of the automobile sheet metal parts by equipment are effectively improved.

Description

Automation equipment for manufacturing automobile parts

Technical Field

The application relates to the technical field of automobile accessory processing equipment, in particular to automation equipment for manufacturing automobile accessories.

Background

The auto parts are various, and wherein sheet metal component is one of the most important auto parts, and current sheet metal component is when processing, adopts the mode of punching press mostly, and then carries out quick shaping to the accessory of needs processing.

The publication number is: CN114367570a, a disclosed application patent, a stamping device for producing and processing auto parts, comprising a machine table, wherein the outer surface of the upper end of the machine table is provided with a hydraulic stamping table, and the middle part of the machine table is provided with a stamping column. The application relates to stamping equipment for automobile part production and processing, which comprises a machine table, a hydraulic stamping table, a discharging device, a stamping column, a top plate, a light curtain early warning device, a hydraulic stamping power device and a control device.

Although the above-mentioned equipment can carry out processing operations to panel beating class auto-parts, but it is not enough to auto-parts carries out the automation degree of material loading, processing and unloading, and it is also not enough to have the precision of fixing a position to auto-parts when carrying out processing simultaneously, has reduced its precision of processing, and above-mentioned equipment is inconvenient to carry out quick regulation and control for it has not enough to other type sheet metal parts's processing adaptability, so needs an auto-parts to make the automation equipment of usefulness in order to solve the problem that above-mentioned the proposition.

Disclosure of Invention

The present application is directed to an automated device for manufacturing automobile parts, which solves the problems set forth in the background art.

In order to achieve the above purpose, the present application provides the following technical solutions: the utility model provides an automation equipment that auto-parts was made usefulness, includes strutting arrangement, strutting arrangement is used for location and direction, strutting arrangement's up end is close to middle part department detachable and is provided with down the feed bin, the interior terminal surface of feed bin link up inside and outside the feed guide groove of having seted up down, just the feed guide groove is used for the material loading, strutting arrangement's afterbody bottom is provided with guider, guider is used for adjusting pushing stroke, and is located strutting arrangement's up end is close to down feed bin department is provided with regulation and control device, regulation and control device with carry out the meshing through the chain between the strutting arrangement, just regulation and control device with strutting arrangement's lateral part is provided with the chain layer board, regulation and control device's lower terminal surface pass through the drive baffle with strutting arrangement's bottom rotates to be connected, strutting arrangement's lower terminal surface just is provided with the positioner that is used for the location in regulation and control device department.

Preferably, the regulation and control device includes the section bar frame, the up end center department of section bar frame is provided with the support frame, the inside symmetry rotation joint of support frame has arc tooth synchronous pulley, two sets of carry out the meshing through arc tooth hold-in range between the arc tooth synchronous pulley, the fixed joint in the inside center department of arc tooth synchronous pulley has rectangular lead screw, the up end of support frame just is provided with step motor to one of them a set of arc tooth synchronous pulley department, the up end center department rotation joint of section bar frame has driven conical spur gear, the inner terminal surface center department of section bar frame passes through driven conical spur gear slip joint has drive assembly, drive assembly's outer terminal surface slip joint has processing subassembly, the lower terminal surface symmetry of section bar frame is provided with the curb plate, is located the inboard symmetry of curb plate is provided with the slide rail, the up end lateral part of section bar frame is provided with spacing axle, be located the one end of spacing axle is provided with driven sprocket, be located the other end of driven sprocket be provided with driven conical spur gear engaged with.

Preferably, the processing assembly comprises a guide die holder, a limiting sliding shaft is arranged on the side part of the inner end surface of the guide die holder, ball sliding seats are symmetrically arranged on the side end surface of the guide die holder, a base is arranged at the center of the lower end surface of the guide die holder, and the base is used for being connected with a stamping die.

Preferably, the transmission assembly comprises a connecting swivel seat used for limiting, a limiting sliding shaft is rotatably clamped at the inner center of the connecting swivel seat, ball sliding sleeves are symmetrically arranged on the inner end face of the connecting swivel seat, a fixed guide shaft is arranged on the lower end face of the limiting sliding shaft, and a closed-loop sliding groove is formed in the outer end face of the fixed guide shaft.

Preferably, the supporting device comprises a processing platform, the lateral part of the processing platform is close to the end, a servo planetary reducer is arranged, the rear end face of the servo planetary reducer is provided with a servo motor, the lateral end face of the servo planetary reducer is provided with a connecting shaft, the middle part of the connecting shaft is provided with a driving conical helical gear, the end of the connecting shaft is provided with a driving sprocket, the lower end face of the processing platform is just right opposite to the connecting shaft, a limiting clamping seat is symmetrically arranged on the upper end face of the processing platform, a pushing plate is slidably clamped on the upper end face of the processing platform, a first clamping shaft is arranged on the center of the lower end face of the pushing plate, a photoelectric switch emitter and a photoelectric switch receiver are respectively arranged on the inner end face of the processing platform and close to the middle part of the processing platform, the photoelectric switch emitter and the photoelectric switch receiver are opposite to each other and are located on the same straight line, the inner end face of the processing platform is close to the photoelectric switch receiver and is provided with a proximity switch, the upper end face of the processing platform is provided with a belt conveyor, and the lower end face of the processing platform is just opposite to the bottom of the belt conveyor is provided with a blanking plate.

Preferably, the guiding device comprises a rotary disc used for supporting, a screw rod module is arranged on the upper end face of the rotary disc close to the outside, a ball sliding table is arranged on the upper end face of the screw rod module in a threaded sliding mode, a second clamping shaft is arranged at the center of the upper end face of the ball sliding table, and a driven conical helical gear is fixedly arranged at the center of the lower end face of the rotary disc.

Preferably, the positioning device comprises a cylinder seat, a double-shaft cylinder is arranged in the cylinder seat, a push rod is arranged on the inner end surface of the double-shaft cylinder, a clamping table is arranged on the upper end surface of the push rod, and two groups of positioning blocks are symmetrically arranged on the upper end surface of the clamping table.

Preferably, the driven conical straight gear is in sliding clamping connection with the transmission assembly, the side end face of the driven conical straight gear is in meshed connection with the driving conical straight gear, the tooth diameters of the driven conical straight gear and the driving conical straight gear are equal, and the rectangular screw rod is in threaded sliding connection with the connecting swivel base through the ball sliding sleeve.

Preferably, the closed-loop chute is matched with the limiting sliding shaft, and the guide die holder is matched with the limiting sliding shaft through the closed-loop chute so as to be in sliding clamping connection with the outer end face.

Preferably, the up end of band conveyer with the interior terminal surface bottom parallel and level of processing platform, photoelectric switch transmitter, photoelectric switch receiver carry out electric connection with biax cylinder, proximity switch with band conveyer carries out electric connection, the locating piece top all is provided with the fillet that is used for the location.

Compared with the prior art, the application has the following beneficial effects:

1. when the sheet metal plate is processed, the servo motor can synchronously drive the driving conical helical gear and the driving sprocket through the servo planetary reducer and the connecting shaft, so that the driving conical helical gear can provide power for circulating feeding for the material pushing plate through the guide device and the transmission guide plate, and meanwhile, the driving sprocket can provide power for punching of the regulating and controlling device, and further, the material pushing plate is matched with the feeding of the material pushing plate, the sheet metal plate is subjected to non-intermittent punching processing operation, and the automation degree and efficiency of processing of the automobile sheet metal parts by equipment are effectively improved.

2. According to the application, the feeding guide groove and the positioning device are arranged, so that the photoelectric switch emitter and the photoelectric switch receiver can be matched with the positioning device to automatically position the sheet metal part when the sheet metal part is subjected to punching positioning and blanking, the punching accuracy is improved, and meanwhile, the proximity switch can be matched with the belt conveyor, so that the sheet metal part is subjected to automatic blanking, and the automation degree of equipment is improved.

3. According to the application, the regulating and controlling device is arranged, the stepping motor can synchronously provide power for two groups through the arc tooth synchronous belt and the arc tooth synchronous belt wheel, so that the rectangular screw rod can quickly and accurately regulate and control the stamping stroke of the processing assembly, and meanwhile, the guiding device can quickly regulate and control the feeding stroke of the material pushing plate, so that the adaptability of the equipment to different types of sheet metal processing is improved to the greatest extent.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the main structure of the present application;

FIG. 2 is a side view of the body of the present application;

FIG. 3 is a bottom view of the body of the present application;

FIG. 4 is a split view of the control device of the present application;

FIG. 5 is a partial enlarged view of the application at I;

FIG. 6 is a schematic diagram of a control device according to the present application;

FIG. 7 is a schematic view of a processing assembly according to the present application;

FIG. 8 is a schematic view of a transmission assembly according to the present application;

FIG. 9 is a schematic view of the support structure of the present application;

FIG. 10 is a partial enlarged view at II of the present application;

FIG. 11 is a bottom view of the support device of the present application;

FIG. 12 is a schematic view of a guide structure according to the present application;

FIG. 13 is a top view of the guide of the present application;

fig. 14 is a schematic structural view of a positioning device according to the present application.

In the figure: 1-chain supporting plate, 2-chain, 3-regulating device, 4-feeding guide groove, 5-blanking bin, 6-supporting device, 7-guiding device, 8-transmission guide plate, 9-positioning device, 31-supporting frame, 32-profile frame, machining component, 34-sliding rail, 35-transmission component, 36-side plate, 37-limiting shaft, 38-driven sprocket, 39-stepping motor, 310-driving conical spur gear, 311-driven conical spur gear, 312-rectangular screw rod, 313-arc tooth synchronous belt, 314-arc tooth synchronous pulley, 331-limiting sliding shaft, 332-guiding die holder, 333-ball sliding seat, 334-base, 351-limiting sliding shaft, 352-connecting rotating seat 353-ball sliding sleeve, 354-closed loop chute, 355-fixed guide shaft, 61-pushing plate, 62-servo motor, 63-servo planetary reducer, 64-driving conical helical gear, 65-connecting shaft, 66-driving sprocket, 67-processing platform, 68-photoelectric switch emitter, 69-belt conveyor, 610-blanking slide plate, 611-proximity switch, 612-photoelectric switch receiver, 613-first clamping shaft, 614-limit clamping seat, 71-screw module, 72-rotary disc, 73-second clamping shaft, 74-ball sliding table, 75-driven conical helical gear, 91-positioning block, 92-clamping table, 93-push rod, 94-cylinder seat, 95-double-shaft cylinder.

Detailed Description

In order that those skilled in the art will better understand the present application, a technical solution in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present application without making any inventive effort, shall fall within the scope of the present application.

It should be noted that the terms "first," "second," and the like in the description and the claims of the present application and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate in order to describe the embodiments of the application herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Example 1

Referring to fig. 1-14, an embodiment of the present application is provided: the utility model provides an automation equipment that auto-parts was made usefulness, includes strutting arrangement 6, strutting arrangement 6 is used for location and direction, and strutting arrangement 6's up end is close to middle part department and is provided with feed bin 5, and feed bin 5 is detachable construction, and convenient follow-up change is in order to adapt to the sheet metal plate of different grade type, and feed bin 5's inner end link up inside and outside and seted up material loading guide slot 4, and material loading guide slot 4 is the material loading usefulness, and when the raw materials still has half storehouse, staff accessible material loading guide slot 4 carries out the material loading.

The afterbody bottom of strutting arrangement 6 is provided with guider 7, guider 7 is used for adjusting the pushing away material stroke of pushing away flitch 61, and be located the up end of strutting arrangement 6 and be close to down feed bin 5 department and be provided with regulation and control device 3, mesh through chain 2 between regulation and control device 3 and the strutting arrangement 6 and be connected, and the lateral part of regulation and control device 3 and strutting arrangement 6 is provided with chain layer board 1, chain layer board 1 is used for supporting chain 2, the lower terminal surface of regulation and control device 3 rotates through drive baffle 8 and the bottom of strutting arrangement 6 to be connected, the lower terminal surface of strutting arrangement 6 is provided with the positioner 9 that is used for the location in regulation and control device 3 department.

As shown in fig. 4, 5 and 6, the regulating and controlling device 3 comprises a section bar frame 32, a supporting frame 31 is arranged at the center of the upper end face of the section bar frame 32, arc-shaped tooth synchronous pulleys 314 are symmetrically clamped in the supporting frame 31, two groups of arc-shaped tooth synchronous pulleys 314 are connected in a meshed manner through arc-shaped tooth synchronous belts 313, rectangular screw rods 312 are fixedly clamped in the center of the inner part of each arc-shaped tooth synchronous pulley 314, a stepping motor 39 is arranged at the position, opposite to one group of arc-shaped tooth synchronous pulleys 314, of the upper end face of the supporting frame 31, the two groups of arc-shaped tooth synchronous pulleys 314 are connected with the arc-shaped tooth synchronous belts 313 in a meshed manner, the two groups of rectangular screw rods 312 are synchronously driven, the accuracy of lifting displacement of a processing assembly 33 driven by the rectangular screw rods 312 is effectively improved, a driven conical straight gear 311 is clamped in the center of the upper end face of the section bar frame 32, the center of the inner end surface of the profile frame 32 is slidably clamped with a transmission component 35 through a driven conical straight gear 311, a limiting sliding shaft 351 and the driven conical straight gear 311 are slidably clamped, so that the limiting sliding shaft 351 can vertically displace inside the driven conical straight gear 311 when the driven conical straight gear 311 rotates, the subsequent regulation and control are convenient, the outer end surface of the transmission component 35 is slidably clamped with a processing component 33, the lower end surface of the profile frame 32 is symmetrically provided with a side plate 36, the inner side of the side plate 36 is symmetrically provided with a sliding rail 34, the side part of the upper end surface of the profile frame 32 is provided with a limiting shaft 37, one end of the limiting shaft 37 is provided with a driven sprocket 38, the other end of the driven sprocket 38 is provided with a driving conical straight gear 310 meshed with the driven conical straight gear 311,

referring to fig. 7, the processing component 33 includes a guide die holder 332, a limit sliding shaft 331 is disposed at a side portion of an inner end surface of the guide die holder 332, ball sliding bases 333 are symmetrically disposed at side end surfaces of the guide die holder 332, the ball sliding bases 333 at two sides can limit lateral directions of the guide die holder 332 through sliding fit with the sliding rails 34, stability of stamping the processing component 33 is improved, a base 334 is disposed at a center of a lower end surface of the guide die holder 332, the base 334 is used for connecting with a stamping die,

as shown in fig. 8, the transmission assembly 35 includes a connection swivel mount 352 for limiting, a rotation clamping connection is arranged at the inner center of the connection swivel mount 352, a chuck is arranged at the bottom of the limitation sliding shaft 351, the bottom of the chuck is connected with the rotation clamping connection by a shaft fixing guide shaft 355, the connection swivel mount 352 can be rotationally clamped with the limitation sliding shaft 351, a ball sliding sleeve 353 is symmetrically arranged at the inner end surface of the connection swivel mount 352, a fixing guide shaft 355 is arranged at the lower end surface of the limitation sliding shaft 351, and a closed-loop sliding groove 354 is arranged at the outer end surface of the fixing guide shaft 355.

As shown in fig. 9, 10 and 11, the supporting device 6 comprises a processing platform 67, a servo planetary reducer 63 is arranged at the side part of the processing platform 67 near the end, a servo motor 62 is arranged at the rear end face of the servo planetary reducer 63, the servo planetary reducer 63 can provide enough torque for a transmission connecting shaft 65 to improve the rotation stability of the connecting shaft 65, a connecting shaft 65 is arranged at the side end face of the servo planetary reducer 63, a driving conical helical gear 64 is arranged at the middle part of the connecting shaft 65, a driving sprocket 66 is arranged at the end of the connecting shaft 65, limit clamping seats 614 are symmetrically arranged at the positions, opposite to the connecting shaft 65, of the lower end face of the processing platform 67, the inner parts of the two groups of limit clamping seats 614 and the rotary disc 72 are in rotation limit, the running stability of the rotary disc 72 at the bottom of the processing platform 67 can be improved, a pushing plate 61 is in sliding clamping connection with the upper end face of the processing platform 67, and a first clamping shaft 613 is arranged at the center of the lower end face of the pushing plate 61, the first clamping shaft 613 can be conveniently connected with a second clamping shaft 73 through a transmission guide plate 8, further the transmission stability is improved, a photoelectric switch emitter 68 and a photoelectric switch receiver 612 are respectively arranged at the position, close to the middle, of the inner end face of the processing platform 67, the photoelectric switch emitter 68 and the photoelectric switch receiver 612 are opposite to each other and are positioned on the same straight line, meanwhile, the photoelectric switch emitter 68 can shoot a light source into the photoelectric switch receiver 612, the sheet metal part is conveniently detected, a proximity switch 611 is arranged at the position, close to the photoelectric switch receiver 612, of the inner end face of the processing platform 67, a workpiece with a straight line detection distance is conveniently detected by the proximity switch 611, the subsequent blanking is conveniently carried out, a belt conveyor 69 is arranged at the position, close to the proximity switch 611, of the upper end face of the processing platform 67, the conveyer belt inside the belt conveyer 69 is of a rubber coating structure, so that the friction force between the belt conveyer 69 and the outside of the sheet metal part can be improved, the conveying efficiency is further improved, and the lower end face of the processing platform 67 is just provided with a blanking slide 610 to the bottom of the belt conveyer 69.

As shown in fig. 12 and 13, the guiding device 7 includes a rotary disc 72 for supporting, the upper end surface of the rotary disc 72 is provided with a screw rod module 71 near the outside, and the upper end surface of the screw rod module 71 is in threaded sliding connection with a ball sliding table 74, the center of the upper end surface of the ball sliding table 74 is provided with a second clamping shaft 73, the center of the lower end surface of the rotary disc 72 is fixedly provided with a driven conical helical gear 75, the driven conical helical gear 75 is a helical gear, the meshing area with the driving conical helical gear 64 can be increased, and further the meshing torque and stability can be improved.

As shown in fig. 14, the positioning device 9 includes a cylinder seat 94, a double-shaft cylinder 95 is provided in the cylinder seat 94, the double-shaft cylinder 95 is provided with double shafts, the clamping table 92 can be prevented from being deflected by radial force to affect positioning, the inner end surface of the double-shaft cylinder 95 is provided with a push rod 93, the upper end surface of the push rod 93 is provided with the clamping table 92, the upper end surface of the clamping table 92 is symmetrically provided with two groups of positioning blocks 91, and the tops of the two groups of positioning blocks 91 are provided with round corners, so that the sheet metal parts can be positioned conveniently.

The driven conical straight gear 311 is in sliding clamping connection with the transmission assembly 35, the side end face of the driven conical straight gear 311 is in meshed connection with the driving conical straight gear 310, the tooth number radiuses of the driven conical straight gear 311 and the tooth number radiuses of the driving conical straight gear 310 are equal, the stability of transmission is conveniently improved, the rectangular screw rod 312 is in threaded sliding connection with the connection swivel base 352 through the ball sliding sleeve 353, and the subsequent rapid regulation and control on the stamping formation of the processing assembly 33 can be conveniently achieved.

The closed-loop chute 354 is matched with the limiting slide shaft 331, the guide die holder 332 is matched with the limiting slide shaft 331 through the closed-loop chute 354 so as to be in sliding clamping connection with the outer end face of the limiting slide shaft 335, the closed-loop structure of the closed-loop chute 354 can be in sliding fit with the limiting slide shaft 331, the circulating driving processing assembly 33 can move up and down, and stamping efficiency is improved.

The upper end face of the belt conveyor 69 is flush with the bottom of the inner end face of the processing platform 67, the photoelectric switch emitter 68 and the photoelectric switch receiver 612 are electrically connected with the double-shaft air cylinder 95, the sheet metal part fed with the material is conveniently and subsequently positioned, and the proximity switch 611 is electrically connected with the belt conveyor 69.

Working principle: before use, a user can position a sheet metal plate to be processed into the blanking bin 5 through the feeding guide groove 4, so that the blanking bin 5 can provide enough sheet metal plates for feeding conveniently, and meanwhile, a die matched with the sheet metal plates can be installed at the bottom of the base 334;

during processing, a worker can start the device by controlling the panel, firstly, the servo motor 62 is started to drive the servo planetary reducer 63 to rotate, and the servo planetary reducer 63 can provide enough power and torque for the connecting shaft 65, so that the connecting shaft 65 can synchronously drive the driving conical helical gear 64 and the driving sprocket 66 to rotate;

when feeding, the driving conical helical gear 64 can drive the driven conical helical gear 75 at the bottom to carry out meshing rotation, so that the driven conical helical gear 75 can drive the rotary disc 72 to carry out circumferential rotation under the limit of the two groups of limit clamping bases 614, and meanwhile, the rotary disc 72 can synchronously drive the second clamping shaft 73 to carry out synchronous rotation, so that the second clamping shaft 73 can drive the pushing plate 61 to carry out circulating back and forth displacement at the bottom of the blanking bin 5 through the transmission guide plate 8, further, clip type circulating feeding is completed, the second clamping shaft 73 can directly push the sheet metal plate to be positioned at the bottom center of the regulating and controlling device 3, the sheet metal plate is convenient to process, and meanwhile, staff can also regulate the guiding position of the second clamping shaft 73 through the screw rod module 71, and further regulate the pushing stroke of the pushing plate 61 on the sheet metal plate, so that the sheet metal plates of different types can be adaptively fed;

when the driving conical helical gear 64 rotates during punching, the driving sprocket 66 can synchronously rotate, the driving sprocket 66 can drive the driven sprocket 38 to rotate in a meshed manner through the chain 2, so that the driven sprocket 38 can drive the limiting sliding shaft 351 to rotate through the driving conical straight gear 310 and the driven conical straight gear 311, the limiting sliding shaft 351 can slide and limit through the closed-loop sliding groove 354 and the limiting sliding shaft 331, and further the processing assembly 33 can be driven to circularly move up and down between the two groups of side plates 36, so that the base 334 can be matched with the pushing plate 61 to feed the sheet metal plate, and further the sheet metal plate is subjected to non-intermittent punching shaping operation through a bottom punching die, so that the processing efficiency of the sheet metal plate is improved;

if the sheet metal plates of different types are processed, at this time, a user can start the stepping motor 39, the stepping motor 39 can synchronously drive the two groups of rectangular screw rods 312 to rotate through the arc tooth synchronous belt 313 and the arc tooth synchronous belt pulley 314, so that the two groups of rectangular screw rods 312 can drive the connecting swivel mount 352 to vertically displace through the ball sliding sleeve 353, and further the connecting swivel mount 352 can synchronously drive the fixed guide shaft 355 to vertically displace, thereby accurately adjusting the stamping formation of the processing assembly 33 and further adapting to stamping of different sheet metal parts;

when the pushing plate 61 is used for feeding, the pushing plate 61 can be attached to the bottom of the blanking bin 5, meanwhile, the rear part of the pushing plate 61 can limit the bottom of the blanking bin 5, further, the limiting of a sheet metal plate at the bottom is prevented, meanwhile, when the pushing plate 61 drives the sheet metal plate to move to be right below the processing assembly 33, the sheet metal plate blocks a light source emitted by the photoelectric switch emitter 68, the photoelectric switch receiver 612 does not receive the light source, a sensor is started, the double-shaft air cylinder 95 can be lifted, four groups of positioning blocks 91 can limit the sheet metal plate from all angles, and then the stamping of the processing assembly 33 is matched, so that the stamping and positioning accuracy is improved;

when the stamping is completed, the processing assembly 33 moves up, at this time, the biaxial air cylinder 95 automatically contracts after passing through the positioning time limit, the limit on the stamped sheet metal part is released, meanwhile, the pushing plate 61 can drive a new group of sheet metal parts to be positioned, at this time, the new group of sheet metal plates pushed by the pushing plate 61 can drive the stamped sheet metal part to move outwards, when the sheet metal part is displaced by a certain distance, the proximity switch 611 can detect the sheet metal part, and then the belt conveyor 69 is started, and the belt conveyor 69 can drive the sheet metal part displaced to the belt conveyor 69 to move forwards continuously until the sheet metal part falls into the blanking slide 610 to complete automatic material collection.

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

Claims (10)

1. The utility model provides an automation equipment that auto-parts was made usefulness, includes strutting arrangement (6), strutting arrangement (6) are used for location and direction, strutting arrangement (6)'s up end is close to middle part department detachable and is provided with feed bin (5), feed bin (4) have been seted up inside and outside the interior terminal surface link up of feed bin (5), just feed bin (4) are used for the material loading, its characterized in that: the automatic feeding device is characterized in that a guiding device (7) is arranged at the bottom end of the tail of the supporting device (6), the guiding device (7) is used for adjusting pushing strokes, the upper end face of the supporting device (6) is close to the position of the lower bin (5) and provided with a regulating and controlling device (3), the regulating and controlling device (3) is connected with the supporting device (6) in a meshed mode through a chain (2), a chain supporting plate (1) is arranged on the side portion of the supporting device (6), the lower end face of the regulating and controlling device (3) is connected with the bottom of the supporting device (6) in a rotating mode through a transmission guide plate (8), and a positioning device (9) used for positioning is arranged at the position of the regulating and controlling device (3) on the lower end face of the supporting device (6).

2. An automated equipment for the manufacture of automotive parts according to claim 1, wherein: the regulating device (3) comprises a section bar frame (32), a support frame (31) is arranged at the center of the upper end face of the section bar frame (32), arc tooth synchronous pulleys (314) are symmetrically clamped in the interior of the support frame (31), two groups of arc tooth synchronous pulleys (314) are connected in a meshed mode through arc tooth synchronous belts (313), rectangular screw rods (312) are fixedly clamped at the center of the interior of the arc tooth synchronous pulleys (314), a stepping motor (39) is arranged at the position, corresponding to one group of arc tooth synchronous pulleys (314), of the upper end face of the support frame (31), driven conical spur gears (311) are rotatably clamped at the center of the upper end face of the section bar frame (32), a transmission assembly (35) is slidably clamped at the center of the inner end face of the section bar frame (32) through the driven conical spur gears (311), a processing assembly (33) is slidably clamped at the outer end face of the transmission assembly (35), side plates (36) are symmetrically arranged on the lower end faces of the section bar frame (32), sliding rails (34) are symmetrically arranged on the inner sides of the side plates (36), a driven conical spur gear (311) is rotatably clamped at the center of the inner end face of the section bar frame (32), a driven shaft (37), a driving conical straight gear (310) meshed with the driven conical straight gear (311) is arranged at the other end of the driven sprocket (38).

3. An automated equipment for the manufacture of automotive parts according to claim 2, characterized in that: the processing assembly (33) comprises a guide die holder (332), a limiting sliding shaft (331) is arranged on the side part of the inner end face of the guide die holder (332), ball sliding seats (333) are symmetrically arranged on the side end face of the guide die holder (332), a base (334) is arranged at the center of the lower end face of the guide die holder (332), and the base (334) is used for being connected with a stamping die.

4. An automated equipment for the manufacture of automotive parts according to claim 3, wherein: the transmission assembly (35) comprises a connecting swivel mount (352) used for limiting, a limiting sliding shaft (351) is rotatably clamped at the inner center of the connecting swivel mount (352), ball sliding sleeves (353) are symmetrically arranged on the inner end face of the connecting swivel mount (352), a fixed guide shaft (355) is arranged on the lower end face of the limiting sliding shaft (351), and a closed-loop sliding groove (354) is formed in the outer end face of the fixed guide shaft (355).

5. An automated equipment for manufacturing automobile parts according to claim 4, wherein: the supporting device (6) comprises a processing platform (67), a servo planetary reducer (63) is arranged at the side part of the processing platform (67) close to the end, a servo motor (62) is arranged at the rear end face of the servo planetary reducer (63), a connecting shaft (65) is arranged at the side end face of the servo planetary reducer (63), a driving conical helical gear (64) is arranged at the middle part of the connecting shaft (65), a driving chain wheel (66) is arranged at the end of the connecting shaft (65), a limit clamping seat (614) is symmetrically arranged at the lower end face of the processing platform (67) right opposite to the connecting shaft (65), a pushing plate (61) is slidably clamped at the upper end face of the processing platform (67), a first clamping shaft (613) is arranged at the center of the lower end face of the pushing plate (61), a photoelectric switch emitter (68) and a photoelectric switch receiver (612) are respectively arranged at the inner end face of the processing platform (67) close to the middle part, the photoelectric switch emitter (68) and the photoelectric switch receiver (612) are directly opposite to each other, the photoelectric switch receiver (612) are arranged at the same straight line and close to the receiving plane (612), and be located the up end of processing platform (67) is close to proximity switch (611) department is provided with band conveyer (69), the lower terminal surface of processing platform (67) just is provided with unloading slide (610) to band conveyer (69) bottom.

6. An automated equipment for manufacturing automobile parts according to claim 5, wherein: the guide device (7) comprises a rotary disc (72) used for supporting, a screw rod module (71) is arranged on the upper end face of the rotary disc (72) close to the outside, a ball sliding table (74) is arranged on the upper end face of the screw rod module (71) in a threaded sliding mode, a second clamping shaft (73) is arranged at the center of the upper end face of the ball sliding table (74), and a driven conical helical gear (75) is fixedly arranged at the center of the lower end face of the rotary disc (72).

7. An automated equipment for manufacturing automobile parts according to claim 6, wherein: the positioning device (9) comprises a cylinder seat (94), a double-shaft cylinder (95) is arranged in the cylinder seat (94), a push rod (93) is arranged on the inner end face of the double-shaft cylinder (95), a clamping table (92) is arranged on the upper end face of the push rod (93), and two groups of positioning blocks (91) are symmetrically arranged on the upper end face of the clamping table (92).

8. An automated equipment for manufacturing automobile parts according to claim 7, wherein: the driven conical straight gear (311) is in sliding clamping connection with the transmission assembly (35), the side end face of the driven conical straight gear (311) is in meshed connection with the driving conical straight gear (310), the tooth number radiuses of the driven conical straight gear (311) and the tooth number radiuses of the driving conical straight gear (310) are equal, and the rectangular screw rod (312) is in threaded sliding connection with the connecting swivel base (352) through the ball sliding sleeve (353).

9. An automated equipment for manufacturing automobile parts according to claim 8, wherein: the closed-loop sliding groove (354) is matched with the limiting sliding shaft (331), and the guide die holder (332) is matched with the limiting sliding shaft (331) through the closed-loop sliding groove (354) so as to be in sliding clamping connection with the outer end face of the guide die holder (335).

10. An automated equipment for manufacturing automobile parts according to claim 8, wherein: the upper end face of the belt conveyor (69) is flush with the bottom of the inner end face of the processing platform (67), the photoelectric switch emitter (68), the photoelectric switch receiver (612) are electrically connected with the double-shaft air cylinder (95), the proximity switch (611) is electrically connected with the belt conveyor (69), and round corners for positioning are arranged at the tops of the positioning blocks (91).