CN218946044U - Stamping feeding device for manufacturing rearview mirror rod - Google Patents

Abstract

The utility model relates to a stamping feeding device for manufacturing a rearview mirror rod, which relates to the field of auxiliary machinery of stamping devices and comprises three parts, namely a supporting seat, a feeding transportation assembly and a sequence adjusting feeding assembly. The supporting seat is used for positioning and bearing each component and providing a preset supporting force; the feeding transport assembly is arranged on the surface of the working surface of the supporting seat and is used for carrying out transport operation on a stamping workpiece to be subjected to feeding operation; the sequence-adjusting feeding assembly is connected with the feeding transportation assembly and is arranged at the tail end of the operation direction of the feeding transportation assembly and used for carrying out sequence-adjusting feeding operation on the stamping workpiece. According to the workpiece feeding device, the workpiece feeding assembly can automatically sequence the workpieces transported in batches, the workpiece operation direction is not required to be adjusted in the later period, and the overall feeding operation efficiency and quality can be effectively improved.

Description

Stamping feeding device for manufacturing rearview mirror rod

Technical Field

The utility model relates to the field of auxiliary machinery of stamping devices, in particular to a stamping feeding device for manufacturing a rearview mirror rod.

Background

The stamping process is a widely used machining process, which is a forming processing method that applies an external force to a workpiece by a press and a die to cause plastic deformation or separation, thereby obtaining a desired shape and size. With the continuous development of industrial technology, the stamping process is more and more mature and flexible, and the applied field is more and more extensive, for example, the stamping process is flexibly applied to the processing production of each part in the automobile processing process, and the stamping and shaping treatment is an indispensable process step when the automobile auxiliary part rearview mirror rod is produced and processed.

The automobile rearview mirror rod is generally in an irregular shape with bending radian, and a common stamping feeding device in the prior art cannot automatically adjust the operation direction when feeding and transporting a regular workpiece, so that the subsequent processing and processing are inconvenient, and the overall process efficiency is affected.

Disclosure of Invention

The utility model aims to: the stamping feeding device for manufacturing the rearview mirror rod is provided, so that the problems in the prior art are solved.

The technical scheme is as follows: a stamping feeding device for manufacturing rearview mirror rods comprises three components, namely a supporting seat, a feeding transportation assembly and a sequence adjusting feeding assembly. The supporting seat is used for positioning and bearing each component and providing a preset supporting force; the feeding transportation assembly is arranged on the surface of the working surface of the supporting seat and is used for transporting the stamping workpiece to be subjected to feeding operation; the sequence-adjusting feeding assembly is connected with the feeding transportation assembly and is arranged at the tail end of the operation direction of the feeding transportation assembly and used for carrying out sequence-adjusting feeding operation on the stamping workpiece.

In a further embodiment, the loading transport assembly comprises two components, a positioning column and a sliding rail plate. The positioning columns are arranged on the surface of the working surface of the supporting seat and used for limiting and bearing the working positions of all parts, and the positioning columns are multiple and are arranged on the surface of the working surface of the supporting seat in a displaying mode; the sliding rail plate is connected with the positioning columns and used for the mutual communication among a plurality of the positioning columns and the transportation operation of stamping workpieces.

In a further embodiment, the plurality of slide rail plates are symmetrically distributed, and the working distance between the plurality of slide rail plates is adapted to the whole working width of the punched workpiece to be conveyed.

In a further embodiment, the sequencing feeding assembly comprises three components of a baffle, a material guiding pipe and a telescopic rod. The baffle is connected with the sliding rail plates and is used for communicating a plurality of sliding rail plates; the guide pipe is arranged below the baffle plate in the operation direction, is hollow and has preset acceptability and is used for carrying out the guide operation on the stamping workpiece; the telescopic rod is connected with the sliding rail plate and arranged at the inner side wall surface of the sliding rail plate in the operation direction, and has preset retractility.

In a further embodiment, groove tracks are arranged on the left side and the right side of the operation direction of the sliding rail plate, an open through hole with a preset width is formed in one end, close to the baffle plate, of the sliding rail plate, and the material guiding pipe is arranged below the operation direction of the open through hole; the telescopic rod is arranged at the inner side wall surface of the sliding rail plate in the operation direction at the position corresponding to the open through hole.

In a further embodiment, the sliding rail plate is obliquely arranged, has a predetermined inclination angle, and the operation height near one end of the sequence-adjusting feeding assembly is lower than the operation height far away from one end of the sequence-adjusting feeding assembly.

The beneficial effects are that: the utility model relates to a stamping feeding device for manufacturing a rearview mirror rod, which relates to the field of auxiliary machinery of stamping devices and comprises three parts, namely a supporting seat, a feeding transportation assembly and a sequence adjusting feeding assembly. The supporting seat is used for positioning and bearing each component and providing a preset supporting force; the feeding transport assembly is arranged on the surface of the working surface of the supporting seat and is used for carrying out transport operation on a stamping workpiece to be subjected to feeding operation; the sequence-adjusting feeding assembly is connected with the feeding transportation assembly and is arranged at the tail end of the operation direction of the feeding transportation assembly and used for carrying out sequence-adjusting feeding operation on the stamping workpiece. According to the workpiece feeding device, the workpiece feeding assembly can automatically sequence the workpieces transported in batches, the workpiece operation direction is not required to be adjusted in the later period, and the overall feeding operation efficiency and quality can be effectively improved.

Drawings

Fig. 1 is an overall schematic view of a stamping and feeding device for manufacturing a rearview mirror rod.

Fig. 2 is a schematic view of a guide tube according to the present utility model.

The reference numerals in the drawings are as follows: the device comprises a supporting seat 1, a positioning column 2, a sliding rail plate 3, a baffle 4, a material guiding pipe 5, a telescopic rod 6 and a fixing plate 7.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present utility model. It will be apparent, however, to one skilled in the art that the utility model may be practiced without one or more of these details. In other instances, well-known features have not been described in detail in order to avoid obscuring the utility model.

Embodiment one:

the stamping feeding device for manufacturing the rearview mirror rod provided by the embodiment comprises three components of a supporting seat 1, a feeding transportation assembly and a sequence adjusting feeding assembly. The supporting seat 1 is used for positioning and bearing all the components and providing a preset supporting force; the feeding transport assembly is arranged on the surface of the working surface of the supporting seat 1 and is used for transporting the punched workpiece to be subjected to feeding operation; the sequence-adjusting feeding assembly is connected with the feeding transportation assembly and is arranged at the tail end of the operation direction of the feeding transportation assembly and used for carrying out sequence-adjusting feeding operation on the stamping workpiece. The feeding and transporting assembly comprises two components, namely a positioning column 2 and a sliding rail plate 3. The positioning columns 2 are arranged on the surface of the working surface of the supporting seat 1 and used for limiting and bearing the working positions of all parts, the positioning columns 2 are a plurality of and are arranged on the surface of the working surface of the supporting seat 1 in a display mode, and in a further preferred embodiment, the number of the positioning columns 2 is four and are distributed at four corners of the working surface of the supporting seat 1 in an array mode; the sliding rail plates 3 are connected with the positioning columns 2 and are used for communicating the positioning columns 2 with each other and transporting punched workpieces, and in a further preferred embodiment, every two positioning columns 2 are vertically communicated with each other in the operation direction through the sliding rail plates 3, and the two positioning columns are horizontally communicated with each other through the fixing plate 7. The number of the sliding rail plates 3 is multiple, the sliding rail plates 3 are symmetrically distributed, and the operation distance among the sliding rail plates 3 is matched with the whole operation width of the stamping workpiece to be transported, so that the stamping workpiece to be subjected to stamping operation can be clamped at the preset position of the surface of the operation surface of the sliding rail plate 3. And the surface of the working surface of the sliding rail plate 3 is provided with a conveying crawler belt for conveying the punched workpiece.

Embodiment two:

on the basis of the first embodiment, the sequencing feeding assembly comprises three components of a baffle plate 4, a material guiding pipe 5 and a telescopic rod 6. The baffle plate 4 is connected with the sliding rail plates 3 and is used for communicating a plurality of sliding rail plates 3, and the baffle plate 4 is arranged at the tail end of the sliding rail plates 3 in the working direction and can block stamping workpieces transported through the sliding rail plates 3; the material guiding pipe 5 is arranged below the baffle 4 in the operation direction, is hollow and has preset acceptances, and the material guiding pipe 5 is funnel-shaped and is used for guiding the punched workpiece; the telescopic rod 6 is connected with the sliding rail plate 3, is arranged at the inner side wall surface of the sliding rail plate 3 in the operation direction, has preset retractility, and can perform corresponding material guiding and feeding operation through state adjustment of the telescopic rod 6. Groove tracks are arranged on the left side and the right side of the operation direction of the sliding rail plate 3, an open through hole with a preset width is formed in one end of the sliding rail plate 3, which is close to the baffle plate 4, the operation span of the through hole is larger than the whole operation width of a stamping workpiece to be subjected to stamping operation, and the material guiding pipe 5 is arranged below the operation direction of the open through hole; the telescopic rods 6 are arranged at the inner side wall surface of the sliding rail plate 3 in the operation direction at the positions corresponding to the open through holes, and the telescopic rods 6 are distributed at the inner side wall surface of the sliding rail plate 3 in the operation direction correspondingly; the plurality of telescopic rods 6 are in an extended state, and the distance length is smaller than the whole working length of the punched workpiece. The sliding rail plate 3 is obliquely arranged, has a preset inclination angle, and the operation height of one end close to the sequencing feeding component is lower than the operation height of one end far away from the sequencing feeding component; in a further preferred embodiment, the sliding rail plate 3 is slidably connected with the positioning column 2, and the inclination angle of the sliding rail plate 3 can be further limited by sliding adjustment of the sliding rail plate 3 along the working surface of the positioning column 2, so as to assist in controlling the feeding speed of the sliding rail plate 3.

Based on the above embodiment, the working procedure of the present utility model is as follows: firstly, placing a punched workpiece to be conveyed on the surface of a working surface of the sliding rail plate 3, and conveying the punched workpiece to be conveyed in a direction approaching to the baffle plate 4 through the sliding rail plate 3; when the punching workpiece is conveyed to the open through hole, the punching workpiece is clamped on the surface of the working surface of the telescopic rod 6 and is in a suspended state, and the telescopic rod 6 is in an extending state; because the stamping workpiece is irregular, the stamping workpiece can be subjected to position orientation adjustment under the guidance of self gravity, then the telescopic rod 6 performs shrinkage operation, the stamping workpiece falls into the material guiding pipe 5, and finally the stamping workpiece is fed and conveyed through the material guiding pipe 5.

In the later operation process, a proximity switch can be arranged on the surface of the operation surface of the baffle 4, and when the punched workpiece is close to the touch, the telescopic rod 6 can be started to carry out telescopic operation adjustment. All parts in this application can be driven through driving motor, and this is prior art, and this application is not repeated.

As described above, although the present utility model has been shown and described with reference to certain preferred embodiments, it is not to be construed as limiting the utility model itself. Various changes in form and details may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (6)

1. Stamping feeding device for manufacturing rearview mirror rods, which is characterized by comprising:

the support seat is used for positioning and bearing all the components and providing preset supporting force;

the feeding transportation assembly is arranged on the surface of the working surface of the supporting seat and is used for transporting the stamping workpiece to be subjected to feeding operation;

and the sequence-adjusting feeding assembly is connected with the feeding transportation assembly and is arranged at the tail end of the operation direction of the feeding transportation assembly and used for carrying out sequence-adjusting feeding operation on the stamping workpiece.

2. The stamping and feeding device for manufacturing a rearview mirror lever according to claim 1, wherein the feeding and transporting assembly comprises:

the positioning columns are arranged on the surface of the working surface of the supporting seat and used for limiting and bearing the working positions of all parts, and the positioning columns are multiple and are arranged on the surface of the working surface of the supporting seat in a displaying mode;

and the sliding rail plate is connected with the positioning columns and used for the mutual communication among a plurality of the positioning columns and the transportation operation of stamping workpieces.

3. The stamping feeding device for manufacturing a rearview mirror lever according to claim 2, wherein:

the number of the sliding rail plates is multiple, the sliding rail plates are symmetrically distributed, and the operation distance among the sliding rail plates is matched with the whole operation width of the stamping workpiece to be transported.

4. The stamping and feeding device for manufacturing a rearview mirror lever according to claim 2, wherein the sequencing and feeding assembly comprises:

the baffle is connected with the sliding rail plates and used for communicating a plurality of sliding rail plates;

the material guiding pipe is arranged below the baffle plate in the operation direction, is hollow and has a preset accommodating property and is used for guiding the punched workpiece;

the telescopic rod is connected with the sliding rail plate and arranged at the inner side wall surface of the sliding rail plate in the operation direction, and has preset retractility.

5. The stamping feeding device for manufacturing a rearview mirror lever according to claim 4, wherein:

groove tracks are arranged on the left side and the right side of the sliding rail plate in the operation direction, an open through hole with a preset width is formed in one end, close to the baffle plate, of the sliding rail plate, and the material guiding pipe is arranged below the operation direction of the open through hole; the telescopic rod is arranged at the inner side wall surface of the sliding rail plate in the operation direction at the position corresponding to the open through hole.

6. The stamping feeding device for manufacturing a rearview mirror lever according to claim 2, wherein:

the sliding rail plate is obliquely arranged, has a preset inclination angle, and the operation height close to one end of the sequencing feeding component is lower than that far away from one end of the sequencing feeding component.

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