CN223440935U - Continuous stamping and discharging device for automobile parts - Google Patents

Abstract

The utility model discloses a continuous stamping and discharging device for automobile parts, which relates to the technical field of automobile parts processing and comprises an operation table, wherein a feeding mechanism, a stamping mechanism and a discharging mechanism are sequentially arranged on the operation table from left to right, the feeding mechanism and the discharging mechanism are both composed of a material taking assembly and a conveying assembly, the material taking assembly is arranged above the operation table, and the conveying assembly is arranged below the material taking assembly. According to the utility model, the feeding mechanism and the discharging mechanism which are formed by the material taking assembly and the conveying assembly are used for solving the problem that the processed parts are required to be manually taken out from the punching area after the automobile parts are punched and formed by the existing punching equipment, so that the processing efficiency is effectively improved, and the labor cost is reduced.

Description

Continuous stamping and discharging device for automobile parts

Technical Field

The utility model relates to the technical field of automobile part processing, in particular to a continuous stamping and discharging device for automobile parts.

Background

In the production of automobile parts, stamping equipment is often an indispensable device. The press forming is a common machining method, and is a machining forming method for obtaining a workpiece (stamping part) with a required shape and size by applying external force to plates, strips, pipes, sectional materials and the like by using a press machine and a die to make the workpiece plastically deform or separate, wherein the stamping part has the following main characteristics, namely the irreplaceable position relative to other machining methods, such as light weight and high rigidity products, good productivity, suitability for mass production, low cost, uniform quality products, high material utilization rate and good shearing property and recovery property.

Existing stamping equipment is after stamping forming automobile parts, often needs the manual work to take out the spare part that processes well from the punching press district and carries out next processing for labour consumption greatly increased, and influence machining efficiency.

Based on this, provide a car spare part continuous punching press discharging device now, can eliminate the drawback that current device exists.

Disclosure of utility model

The utility model aims to provide a continuous stamping and discharging device for automobile parts, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

The utility model provides a continuous punching press discharging device of automobile parts, includes the operation panel, last feed mechanism, punching press mechanism and the discharging mechanism of being equipped with in proper order from left to right of operation panel, feed mechanism, discharging mechanism are by getting material subassembly and conveying assembly and constitute, it establishes in the operation panel top to get material the subassembly, conveying assembly establishes in getting material the subassembly below.

Based on the technical scheme, the utility model also provides the following optional technical schemes:

In an alternative scheme, the operation table comprises a pedestal, a processing groove is formed in the top surface of the pedestal, a first mounting groove is formed in one end of the pedestal, a second mounting groove is formed in the other end of the pedestal, a material taking opening is formed in the top surface of the first mounting groove, and a material discharging opening is formed in the top surface of the second mounting groove.

In an alternative scheme, the stamping mechanism comprises a supporting component and a first telescopic rod, wherein the supporting component is arranged on the top surface of the pedestal, the first telescopic rod is arranged on the supporting component, the output end of the first telescopic rod is connected with a pressing plate, and a stamping die component is arranged below the pressing plate.

In an alternative scheme, the support assembly comprises four first support columns symmetrically arranged at four corners of the processing groove, the bottom ends of the first support columns are fixed on the top surface of the pedestal, a first mounting plate is arranged on the top surface of the first support columns, and the fixed ends of the first telescopic rods are fixed on the first mounting plate.

In an alternative scheme, the stamping die assembly comprises an upper die and a lower die, wherein the upper die is fixed on the bottom surface of the pressing plate, and the lower die is arranged in the processing groove.

In an alternative scheme, the material taking assembly comprises a track, a moving assembly and a material taking device, wherein the two tracks are symmetrically arranged on the bottom surface of the first mounting plate, the moving assembly is connected below the track, and the material taking device is connected below the moving assembly.

In an alternative scheme, a sliding groove is formed in the rail, a rack is arranged on the bottom surface of the rail, second support columns are arranged at two ends of the rail, and the second support columns are fixed on the top surface of the pedestal.

In an alternative scheme, the moving assembly comprises a sliding seat and a driving assembly, wherein the sliding seat is arranged in a sliding groove on a track in a sliding manner, the driving assembly is arranged on the upper portion of the sliding seat, and a groove is formed in the upper end of the sliding seat.

In an alternative scheme, the driving assembly comprises a gear and a first motor, the gear is arranged in the groove, the gear is rotationally connected with the sliding seat, the first motor is fixed on one side of the sliding seat, the output end of the first motor is connected with the gear, and the gear is in meshed connection with the rack.

In an alternative scheme, the material taking device comprises an air pump, a second telescopic rod and a sucker, wherein the air pump is fixed on a transverse plate, the transverse plate is fixed at the bottom end of a sliding seat, the second telescopic rod is a hollow rod, the second telescopic rod is connected to the air inlet end of the air pump, and the sucker is connected to the output end of the second telescopic rod.

In an alternative scheme, two moving assemblies and a material taking device are symmetrically arranged on the track, wherein one moving assembly and the material taking device are positioned above the material taking hole, and the other moving assembly and the material taking device are positioned above the material discharging hole.

In an alternative scheme, the conveying assembly comprises a conveying belt, a rolling shaft and a second motor, wherein the conveying belt is arranged in a first mounting groove and a second mounting groove, the rolling shaft is arranged on the inner side of the conveying belt, two ends of the rolling shaft are rotationally connected with a pedestal, the second motor is fixed on the outer side of the pedestal, and the output end of the second motor is connected with the rolling shaft.

Compared with the prior art, the utility model has the following beneficial effects:

According to the utility model, the feeding mechanism and the discharging mechanism which are formed by the material taking assembly and the conveying assembly are used for solving the problem that the processed parts are required to be manually taken out from the punching area after the automobile parts are punched and formed by the existing punching equipment, so that the processing efficiency is effectively improved, and the labor cost is reduced.

Drawings

FIG. 1 is a schematic view of the structure of one side of the present utility model.

Fig. 2 is a schematic structural diagram of the other side of the present utility model.

Fig. 3 is a schematic structural view of an operation table in the present utility model.

Fig. 4 is a schematic structural view of a pressing mechanism in the present utility model.

Fig. 5 is a schematic structural view of the material taking assembly according to the present utility model.

Fig. 6 is a schematic view of a conveying assembly according to the present utility model.

Reference numerals notes 100, operation table, 101, pedestal, 102, processing groove, 103, first installation groove, 104, second installation groove, 105, material taking opening, 106, material taking opening, 200, stamping mechanism, 201, first support column, 202, first installation plate, 203, first telescopic rod, 204, pressing plate, 205, upper die, 206, lower die, 300, material taking component, 301, track, 302, chute, 303, rack, 304, slide, 305, grooving, 306, gear, 307, first motor, 308, cross plate, 309, air pump, 310, second telescopic rod, 311, sucker, 312, second support column, 400, conveying component, 401, conveyor belt, 402, roller, 403, second motor.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent.

In one embodiment, as shown in fig. 1 and 2, an automobile part continuous stamping and discharging device comprises an operation table 100, a stamping mechanism 200, a material taking assembly 300 and a conveying assembly 400, wherein a feeding mechanism, the stamping mechanism 200 and a discharging mechanism are sequentially arranged on the operation table 100 from left to right, each feeding mechanism and each discharging mechanism is composed of the material taking assembly 300 and the conveying assembly 400, the material taking assembly 300 is arranged above the operation table 100, the conveying assembly 400 is arranged below the material taking assembly 300, in operation, a blank plate is sucked from the conveying assembly 400 at one end of the feeding mechanism through the material taking assembly 300 and is moved to the position below the stamping mechanism 200, then the blank plate is stamped through the stamping mechanism 200, then the processed plate is moved to the conveying assembly 400 at one side of the discharging mechanism through the material taking assembly 300, and the processed plate is separated through the conveying assembly 400 for next processing.

In one embodiment, as shown in fig. 3, the operation table 100 includes a base 101, a processing groove 102 is formed on the top surface of the base 101, a first mounting groove 103 is formed at one end of the base 101, a second mounting groove 104 is formed at the other end of the base 101, a material taking opening 105 is formed on the top surface of the first mounting groove 103, a material discharging opening 106 is formed on the top surface of the second mounting groove 104, in operation, a blank plate is sucked from the material taking opening 105 through the material taking assembly 300, and the processed plate is moved to the material discharging opening through the material taking assembly 300.

In one embodiment, as shown in fig. 1 and 4, the stamping mechanism 200 includes a support assembly and a first telescopic rod 203, the support assembly is disposed on the top surface of the stand 101, the first telescopic rod 203 is disposed on the support assembly, an output end of the first telescopic rod 203 is connected with a pressing plate 204, a stamping die assembly is disposed under the pressing plate 204, and in operation, the pressing plate 204 and the stamping die assembly are driven to stamp the blank plate by controlling the extension of the first telescopic rod 203.

In one embodiment, as shown in fig. 1 and 4, the supporting assembly comprises four first supporting columns 201 symmetrically arranged at four corners of the processing groove 102, the bottom ends of the first supporting columns 201 are fixed on the top surface of the base 101, a first mounting plate 202 is arranged on the top surface of the first supporting columns 201, the fixed ends of the first telescopic rods 203 are fixed on the first mounting plate 202, and the output ends of the first telescopic rods 203 are aligned with the center of the processing groove 102, so that stamping quality is ensured.

In one embodiment, as shown in fig. 1 and 4, the stamping die assembly includes an upper die 205 and a lower die 206, the upper die 205 is fixed on the bottom surface of the pressing plate 204, the lower die 206 is disposed in the processing groove 102, the upper die 205 and the lower die 206 are aligned and installed, and in operation, a blank plate is placed on the upper end of the lower die 206, and the upper die 205 is driven to press downwards by the first telescopic rod 203, so that the upper die 205 and the lower die 206 simultaneously press the blank plate.

In one embodiment, as shown in fig. 5, the material taking assembly 300 includes a track 301, a moving assembly and a material taking device, where the two tracks 301 are symmetrically disposed on the bottom surface of the first mounting plate 202, the moving assembly is connected below the track 301, the material taking device is connected below the moving assembly, and in operation, the moving assembly drives the material taking device to move along the track 301, and the material taking device sucks the parts.

In one embodiment, as shown in fig. 5, a chute 302 is provided on the rail 301, a rack 303 is provided on the bottom surface of the rail 301, and second support columns 312 are provided at two ends of the rail 301, where the second support columns 312 are fixed on the top surface of the stand 101, and in operation, the moving assembly drives the extractor to slide along the chute 302.

In one embodiment, as shown in fig. 5, the moving assembly includes a sliding seat 304 and a driving assembly, the sliding seat 304 is slidably disposed in a sliding groove 302 on the track 301, the driving assembly is disposed on an upper portion of the sliding seat 304, a slot 305 is disposed at an upper end of the sliding seat 304, and in operation, the driving assembly drives the sliding seat 304 to slide along the sliding groove 302, so as to drive the extractor to move.

In one embodiment, as shown in fig. 5, the driving assembly includes a gear 306 and a first motor 307, the gear is disposed in the slot 305, the gear 306 is rotationally connected with the slide 304, the first motor 307 is fixed on one side of the slide 304, the output end of the first motor 307 is connected with the gear 306, the gear 306 is in meshed connection with the rack 303, and in operation, the gear 306 is driven to rotate by the first motor 307, so that the slide 304 moves along the track 301.

In one embodiment, as shown in fig. 5, the material taking device comprises an air pump 309, a second telescopic rod 310 and a sucker 311, wherein the air pump 309 is fixed on a transverse plate 308, the transverse plate 308 is fixed at the bottom end of a sliding seat 304, the second telescopic rod 310 adopts a hollow rod, the second telescopic rod 310 is connected to the air inlet end of the air pump 309, the sucker 311 is connected to the output end of the second telescopic rod 310, and in operation, the sucker 311 is abutted against the surface of a part through the second telescopic rod 310, and then air is sucked from one end of the sucker 311 through the air pump 309, so that the sucker 311 sucks the part.

In one embodiment, as shown in fig. 1 and 5, two moving assemblies and extractors are symmetrically arranged on the track 301, wherein one moving assembly and extractor is located above the material outlet 105, the other moving assembly and extractor is located above the material outlet 106, the moving assembly and extractor above the material outlet 105 is used for feeding, and the moving assembly and extractor above the material outlet 106 is used for discharging.

In one embodiment, as shown in fig. 6, the conveying assembly 400 includes a conveying belt 401, a roller 402 and a second motor 403, the conveying belt 401 is disposed in the first mounting groove 103 and the second mounting groove 104, the roller 402 is disposed inside the conveying belt 401, two ends of the roller 402 are rotatably connected with the stand 101, the second motor 403 is fixed outside the stand 101, an output end of the second motor 403 is connected with the roller 402, and in operation, the roller 402 is driven to rotate by the second motor 403, so that the conveying belt 401 is driven to rotate around the roller 402, and thus, a part is driven to move along the conveying belt 401.

The above embodiment discloses a continuous stamping and discharging device for automobile parts, during operation, the blank plate is conveyed by the conveying component 400 on one side of the feeding mechanism, when the blank plate reaches the material taking opening 105, the blank plate is sucked by the material taking component 300, and is moved onto the lower die 206 along the track 301, then the material taking component 300 is moved out of the processing groove 102 area, then the first telescopic rod 203 is started to stamp the blank plate, after the processing is completed, the processed plate is sucked by the material taking component 300 and is moved to the position of the material outlet 106, and the plate is placed on the conveying component 400 below the material outlet 106, and is transported away by the conveying component 400 for further processing.

The foregoing is merely illustrative of the present application, and the present application is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present application. Therefore, the protection scope of the application is subject to the protection scope of the claims.

Claims (12)

1. The utility model provides a continuous punching press discharging device of auto parts, includes operation panel (100), its characterized in that, last feed mechanism, punching press mechanism (200) and the discharging mechanism of being equipped with in proper order from left to right of operation panel (100), feed mechanism, discharging mechanism are by getting material subassembly (300) and conveying component (400) and constitute, it establishes in operation panel (100) top to get material subassembly (300), conveying component (400) are established in material subassembly (300) below.

2. The continuous stamping and discharging device for automobile parts according to claim 1, wherein the operation table (100) comprises a pedestal (101), a processing groove (102) is formed in the top surface of the pedestal (101), a first mounting groove (103) is formed in one end of the pedestal (101), a second mounting groove (104) is formed in the other end of the pedestal (101), a material taking opening (105) is formed in the top surface of the first mounting groove (103), and a material discharging opening (106) is formed in the top surface of the second mounting groove (104).

3. The continuous stamping and discharging device for automobile parts according to claim 1, wherein the stamping mechanism (200) comprises a supporting component and a first telescopic rod (203), the supporting component is arranged on the top surface of the pedestal (101), the first telescopic rod (203) is arranged on the supporting component, the output end of the first telescopic rod (203) is connected with a pressing plate (204), and a stamping die component is arranged below the pressing plate (204).

4. A continuous stamping and discharging device for automobile parts according to claim 3, wherein the supporting assembly comprises four first supporting columns (201) symmetrically arranged at four corners of the processing groove (102), the bottom ends of the first supporting columns (201) are fixed on the top surface of the pedestal (101), a first mounting plate (202) is arranged on the top surface of the first supporting columns (201), and the fixed ends of the first telescopic rods (203) are fixed on the first mounting plate (202).

5. A continuous stamping and discharging device for automobile parts according to claim 3, characterized in that the stamping die assembly comprises an upper die (205) and a lower die (206), the upper die (205) is fixed on the bottom surface of the pressing plate (204), and the lower die (206) is arranged in the processing groove (102).

6. The continuous stamping and discharging device for automobile parts according to claim 1, wherein the material taking assembly (300) comprises a track (301), a moving assembly and a material taking device, the two tracks (301) are symmetrically arranged on the bottom surface of the first mounting plate (202), the moving assembly is connected below the track (301), and the material taking device is connected below the moving assembly.

7. The continuous stamping and discharging device for automobile parts according to claim 6, wherein a sliding groove (302) is formed in the rail (301), a rack (303) is arranged on the bottom surface of the rail (301), second support columns (312) are arranged at two ends of the rail (301), and the second support columns (312) are fixed on the top surface of the pedestal (101).

8. The continuous stamping and discharging device for automobile parts according to claim 6, wherein the moving assembly comprises a sliding seat (304) and a driving assembly, the sliding seat (304) is slidably arranged in a sliding groove (302) on the track (301), the driving assembly is arranged on the upper portion of the sliding seat (304), and a groove (305) is formed in the upper end of the sliding seat (304).

9. The continuous stamping and discharging device for automobile parts according to claim 8, wherein the driving assembly comprises a gear (306) and a first motor (307), the gear (306) is arranged in the slot (305), the gear (306) is rotationally connected with the sliding seat (304), the first motor (307) is fixed on one side of the sliding seat (304), the output end of the first motor (307) is connected with the gear (306), and the gear (306) is in meshed connection with the rack (303).

10. The continuous stamping and discharging device for automobile parts according to claim 6, wherein the material taking device comprises an air pump (309), a second telescopic rod (310) and a sucker (311), the air pump (309) is fixed on a transverse plate (308), the transverse plate (308) is fixed at the bottom end of the sliding seat (304), the second telescopic rod (310) adopts a hollow rod, the second telescopic rod (310) is connected with the air inlet end of the air pump (309), and the sucker (311) is connected with the output end of the second telescopic rod (310).

11. The continuous stamping and discharging device for automobile parts according to claim 6, wherein two moving assemblies and extractors are symmetrically arranged on the track (301), one moving assembly and extractor is located above the material taking opening (105), and the other moving assembly and extractor is located above the material discharging opening (106).

12. The continuous stamping and discharging device for automobile parts according to claim 1, wherein the conveying assembly (400) comprises a conveying belt (401), a roller (402) and a second motor (403), the conveying belt (401) is arranged in the first mounting groove (103) and the second mounting groove (104), the roller (402) is arranged on the inner side of the conveying belt (401), two ends of the roller (402) are rotatably connected with the pedestal (101), the second motor (403) is fixed on the outer side of the pedestal (101), and the output end of the second motor (403) is connected with the roller (402).