CN220901720U - Progressive die honeycomb Kong Dailiao - Google Patents

Abstract

The utility model discloses a continuous die honeycomb Kong Dailiao, which is characterized in that: the device comprises a first continuous unit, a second continuous unit, a third continuous unit, a fourth continuous unit, a fifth continuous unit, a sixth continuous unit, a seventh continuous unit, an eighth continuous unit, a ninth continuous unit, a tenth continuous unit and an eleventh continuous unit which are sequentially connected; the width of each continuous unit is consistent with the width of the 2 products when the two products are arranged in pairs in the unfolded state; the subsequent continuous units are formed on the basis of the adjacent continuous units; the eleventh continuous unit is cut off along the vertical center line, so that 2 products in a spreading state can be obtained; according to the continuous die honeycomb hole belt material, each continuous unit adopts the deployment state of 2 products to be configured in pairs, and the deployment states of 2 products can be obtained through batch punching, one-time bending forming and one-time cutting operation; the utility model can work continuously and has high working efficiency.

Description

Progressive die honeycomb Kong Dailiao

Technical Field

The utility model belongs to the related technical field of continuous die strip improvement, and particularly relates to a continuous die honeycomb Kong Dailiao which adopts the deployment state of 2 products to configure in pairs, and can obtain the deployment state of 2 products through batch punching, one-time bending forming and one-time cutting operation, can continuously work and has high working efficiency.

Background

When the existing progressive die works, each station needs to pre-fill a positioning hole on a belt material, and then performs punching work on the corresponding work by using the corresponding positioning hole; for forming honeycomb holes, the honeycomb holes are generally formed in batches; if the continuous forming die is used for forming, the forming method for forming only one product at a time has low working efficiency.

Therefore, we have developed a continuous die honeycomb Kong Dailiao which adopts the deployment state of 2 products to be configured in pairs for each continuous unit, and can obtain the deployment state of 2 products through batch punching, one-time bending forming and one-time cutting operation, can continuously work and has high working efficiency.

Disclosure of Invention

The utility model aims to provide a continuous die honeycomb Kong Dailiao which adopts the deployment state of 2 products to be configured in pairs for each continuous unit, and can obtain the deployment state of 2 products through batch punching, one-time bending forming and one-time cutting operation, can continuously work and has high working efficiency.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a progressive die honeycomb Kong Dailiao comprising a first continuous unit, a second continuous unit, a third continuous unit, a fourth continuous unit, a fifth continuous unit, a sixth continuous unit, a seventh continuous unit, an eighth continuous unit, a ninth continuous unit, a tenth continuous unit, and an eleventh continuous unit, connected in sequence; the width of each continuous unit is consistent with the width of the 2 products when the two products are arranged in pairs in the unfolded state; the subsequent continuous units are formed on the basis of the adjacent continuous units; the eleventh continuous unit is cut off along the vertical center line, and 2 products in the unfolded state can be obtained.

Preferably, the first continuous unit is formed with a positioning hole, a first through hole and a second through hole; the first through holes and the second through holes correspond to corresponding through holes when the spread states of the 2 products are configured in pairs; a third through hole and a fourth through hole are formed in the second continuous unit; the third through hole and the fourth through hole correspond to corresponding through holes when the spread states of the 2 products are configured in pairs; the second through hole and the fourth through hole on the third continuous unit are respectively provided with wire drawing threads; the first through hole on the fourth continuous unit is provided with a wiredrawing thread; the upper part of the fifth continuous unit is provided with a first end forming hole; the lower part of the sixth continuous unit is provided with a first end forming hole; the middle part of the sixth continuous unit is vertically provided with first breaking holes at intervals; the left side part of the seventh continuous unit is vertically provided with first side part forming holes at intervals; the middle part of the seventh continuous unit is vertically provided with second separation holes at intervals; the second breaking hole is overlapped with the vertical center line of the first breaking hole, and a connecting part is arranged between the second breaking hole and the first breaking hole; the left side part of the eighth continuous unit is vertically provided with second side part forming holes at intervals; the vertical center lines of the first side forming hole and the second side forming hole coincide; a structure corresponding to the corresponding boss on the left side when the 2 products are arranged in pairs in the unfolded state is reserved between the first side forming hole and the second side forming hole; a wire drawing thread is arranged in a small hole in the first end forming hole on the ninth continuous unit; two sides of the tenth continuous unit are provided with folded plates; the upper end part and the lower end part of the eleventh continuous unit are respectively provided with a second end part forming hole; the connection on the eleventh continuous unit is removed, so that 2 products in the unfolded state can be obtained.

Compared with the prior art, the utility model provides the continuous die honeycomb Kong Dailiao, which has the following beneficial effects:

According to the continuous die honeycomb hole belt material, each continuous unit adopts the deployment state of 2 products to be configured in pairs, and the deployment states of 2 products can be obtained through batch punching, one-time bending forming and one-time cutting operation; the utility model can work continuously and has high working efficiency.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate and together with the embodiments of the utility model and do not constitute a limitation to the utility model, and in which:

FIG. 1 is a front view of a final molded product of a progressive die honeycomb Kong Dailiao in accordance with the present utility model;

FIG. 2 is a bottom enlarged view of a final molded product of a progressive die honeycomb Kong Dailiao in accordance with the present utility model;

FIG. 3 is a schematic view showing an expanded state of a final molded product of the progressive die honeycomb Kong Dailiao according to the present utility model;

FIG. 4 is a schematic view of a final molded product of a progressive die honeycomb Kong Dailiao according to the present utility model in a pair-wise configuration in its expanded state;

Fig. 5 is a schematic structural diagram of a progressive die honeycomb Kong Dailiao according to the present utility model;

In the figure: 1. a product; 11. a first continuous unit; 12. a second continuous unit; 13. a third continuous unit; 14. a fourth continuous unit; 15. a fifth continuous unit; 16. a sixth continuous unit; 17. a seventh continuous unit; 18. an eighth continuous unit; 19. a ninth continuous unit; 20. a tenth continuous unit; 21. an eleventh continuous unit; 111. positioning holes; 112. a first through hole; 113. a second through hole; 121. a third through hole; 122. a fourth through hole; 151. a first end forming hole; 161. a first breaking hole; 171. a first side forming hole; 172. a second split hole; 182. a second side forming hole; 211. a second end forming hole; 212. and a connecting part.

Description of the embodiments

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model; all other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present utility model provides a technical solution: a progressive die honeycomb Kong Dailiao comprising a first continuous unit 11, a second continuous unit 12, a third continuous unit 13, a fourth continuous unit 14, a fifth continuous unit 15, a sixth continuous unit 16, a seventh continuous unit 17, an eighth continuous unit 18, a ninth continuous unit 19, a tenth continuous unit 20, and an eleventh continuous unit 21, connected in sequence; the width of each continuous unit corresponds to the width of 2 products when arranged in pairs in the unfolded state, as shown in fig. 4; the second continuous unit 12 is formed on the basis of the first continuous unit 11; the third continuous unit 13 is formed on the basis of the second continuous unit 12; the fourth continuous unit 14 is formed on the basis of the third continuous unit 13; the fifth continuous unit 15 is formed on the basis of the fourth continuous unit 14; the sixth continuous unit 16 is formed on the basis of the fifth continuous unit 15; the seventh continuous unit 17 is formed on the basis of the sixth continuous unit 16; the eighth continuous unit 18 is formed on the basis of the seventh continuous unit 17; the ninth continuous unit 19 is formed by molding on the basis of the eighth continuous unit 18; the tenth continuous unit 20 is formed by molding on the basis of the ninth continuous unit 19; the eleventh continuous unit 21 is formed by molding on the basis of the tenth continuous unit 20.

The first continuous unit 11 is formed with a positioning hole 111, a first through hole 112 and a second through hole 113; the first through hole 112 and the second through hole 113 correspond to the corresponding through holes when the spread states of the 2 products are configured in pairs; the second continuous unit 12 is formed with a third through hole 121 and a fourth through hole 122; the third through hole 121 and the fourth through hole 122 correspond to the corresponding through holes when the spread states of the 2 products are configured in pairs; the second through hole 113 and the fourth through hole 122 on the third continuous unit 13 are respectively provided with wire drawing threads; the first through hole 112 of the fourth continuous unit 14 is provided with a drawing thread; the upper part of the fifth continuous unit 15 is provided with a first end molding hole 151; the lower part of the sixth continuous unit 16 is provided with a first end molding hole 151; the middle part of the sixth continuous unit 16 is vertically provided with first breaking holes 161 at intervals; the left side of the seventh continuous unit 17 is vertically provided with first side forming holes 171 at intervals; the middle part of the seventh continuous unit 17 is vertically provided with second breaking holes 172 at intervals; the second breaking hole 172 coincides with the vertical center line of the first breaking hole 161, and a connecting part 212 is arranged between the second breaking hole 172 and the first breaking hole 161; the left side of the eighth continuous unit 18 is vertically provided with second side forming holes 182 at intervals; the vertical center lines of the first side forming hole 171 and the second side forming hole 182 coincide; a structure corresponding to the corresponding boss on the left side when the 2 products are arranged in pairs in the unfolded state is left between the first side forming hole 171 and the second side forming hole 182; a drawing thread is arranged in a small hole in the first end forming hole 151 on the ninth continuous unit 19; the tenth continuous unit 20 is provided with flaps on both sides thereof; the eleventh continuous unit 21 is provided with second end forming holes 211 at an upper end and a lower end, respectively; the connection 212 of the eleventh continuous unit 21 is removed to obtain 2 products 1 in the unfolded state, as shown in fig. 3.

When the continuous die works, a positioning hole 111, a first through hole 112 and a second through hole 113 are formed on the first continuous unit 11; the first through hole 112 and the second through hole 113 correspond to the corresponding through holes when the spread states of the 2 products are configured in pairs; next, a third through hole 121 and a fourth through hole 122 are formed in the second continuous unit 12; the third through hole 121 and the fourth through hole 122 correspond to the corresponding through holes when the spread states of the 2 products are configured in pairs; then, the second through hole 113 and the fourth through hole 122 on the third continuous unit 13 are respectively drawn; then, drawing the first through hole 112 of the fourth continuous unit 14; then, a first end molding hole 151 is formed in an upper portion of the fifth continuous unit 15; then, a first end molding hole 151 is formed in the lower portion of the sixth continuous unit 16; the middle part of the sixth continuous unit 16 is formed with first dividing holes 161 vertically spaced; then, first side forming holes 171 are formed at vertical intervals in the left side of the seventh continuous unit 17; forming second breaking holes 172 at vertical intervals in the middle of the seventh continuous unit 17; the second breaking hole 172 coincides with the vertical center line of the first breaking hole 161, and a connecting part 212 is arranged between the second breaking hole 172 and the first breaking hole 161; then, second side forming holes 182 are formed at vertical intervals in the left side of the eighth continuous unit 18; the vertical center lines of the first side forming hole 171 and the second side forming hole 182 coincide; a structure corresponding to the corresponding boss on the left side when the 2 products are arranged in pairs in the unfolded state is left between the first side forming hole 171 and the second side forming hole 182; then, drawing the small holes in the first end forming holes 151 of the ninth continuous unit 19; then, bending the two sides of the tenth continuous unit 20; then, second end forming holes 211 are formed in the upper and lower ends of the eleventh continuous unit 21, respectively; finally, the connection 212 of the eleventh continuous unit 21 is removed, so that 2 products 1 in the unfolded state are obtained, as shown in fig. 3.

Compared with the prior art, the continuous die honeycomb Kong Dailiao provided by the utility model comprises:

According to the continuous die honeycomb hole belt material, each continuous unit adopts the deployment state of 2 products to be configured in pairs, and the deployment states of 2 products can be obtained through batch punching, one-time bending forming and one-time cutting operation; the utility model can work continuously and has high working efficiency.

Although embodiments of the present utility model 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 utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (2)

1. A progressive die honeycomb Kong Dailiao, characterized in that: the device comprises a first continuous unit, a second continuous unit, a third continuous unit, a fourth continuous unit, a fifth continuous unit, a sixth continuous unit, a seventh continuous unit, an eighth continuous unit, a ninth continuous unit, a tenth continuous unit and an eleventh continuous unit which are sequentially connected; the width of each continuous unit is consistent with the width of the 2 products when the two products are arranged in pairs in the unfolded state; the subsequent continuous units are formed on the basis of the continuous units adjacent to the front of the continuous units; the eleventh continuous unit is cut off along the vertical center line, and 2 products in the unfolded state can be obtained.

2. A progressive die honeycomb Kong Dailiao as defined in claim 1, wherein: the first continuous unit is provided with a positioning hole, a first through hole and a second through hole; the first through holes and the second through holes correspond to corresponding through holes when the spread states of the 2 products are configured in pairs; a third through hole and a fourth through hole are formed in the second continuous unit; the third through hole and the fourth through hole correspond to corresponding through holes when the spread states of the 2 products are configured in pairs; the second through hole and the fourth through hole on the third continuous unit are respectively provided with wire drawing threads; the first through hole on the fourth continuous unit is provided with a wiredrawing thread; the upper part of the fifth continuous unit is provided with a first end forming hole; the lower part of the sixth continuous unit is provided with a first end forming hole; the middle part of the sixth continuous unit is vertically provided with first breaking holes at intervals; the left side part of the seventh continuous unit is vertically provided with first side part forming holes at intervals; the middle part of the seventh continuous unit is vertically provided with second separation holes at intervals; the second breaking hole is overlapped with the vertical center line of the first breaking hole, and a connecting part is arranged between the second breaking hole and the first breaking hole; the left side part of the eighth continuous unit is vertically provided with second side part forming holes at intervals; the vertical center lines of the first side forming hole and the second side forming hole coincide; a structure corresponding to the corresponding boss on the left side when the 2 products are arranged in pairs in the unfolded state is reserved between the first side forming hole and the second side forming hole; a wire drawing thread is arranged in a small hole in the first end forming hole on the ninth continuous unit; two sides of the tenth continuous unit are provided with folded plates; the upper end part and the lower end part of the eleventh continuous unit are respectively provided with a second end part forming hole; the connection on the eleventh continuous unit is removed, so that 2 products in the unfolded state can be obtained.