CN218555337U - Die-cutting rule bridge site dotting die - Google Patents

Abstract

The utility model discloses a die-cutting rule bridge site dotting mould, include: the base, the base is equipped with the bridge position deflector, the bridge position deflector is equipped with the cutting die connecting piece, the one end of cutting die connecting piece is equipped with a plurality of bridge position cutting dies, the other end is equipped with pit mould and bump mould, bridge position cutting die and pit mould and bump mould pass bridge position deflector respectively, still be equipped with a plurality of bridge position backplates between base and the bridge position deflector, the pit backplate, the bump backplate, be equipped with the bump thimble in the bump backplate, be equipped with the pit thimble in the pit mould, bridge position deflector and bridge position backplate and bump backplate and pit backplate interval set up. By adopting the design, the convex-concave point dotting device has the advantages that the concave point die and the convex point die are additionally arranged on the bridge position die, so that the convex-concave point dotting device can perform convex-concave point dotting on the blade when the bridge position die is punched, the blade can be contacted with the die cutting plate through the convex-concave point when being installed on the die cutting plate, the stability of the blade during installation is improved, the service life of the blade is prolonged, and meanwhile, the cost of installing the die additionally is saved.

Description

Die-cutting rule bridge position dotting die

Technical Field

The utility model relates to a die-cutting rule technical field especially relates to a die-cutting rule bridge site dotting mould.

Background

The die-cutting rule is also called a beer knife or an indentation knife; refers to a sheet material made of steel with a blade at the top end for making a cutting plate. The die-cutting rule is placed on the die-cutting plate when in use, so that a groove with a preset shape can be cut on the die-cutting plate through laser according to requirements and is used for placing the die-cutting rule, in order to prevent the die-cutting plate from completely losing the connection with the die-cutting plate and falling off in the cutting range when the die-cutting plate is subjected to laser cutting, intermittent cutting is usually carried out according to a preset length during cutting, so that the connection relation between the part in the cutting range and the die-cutting plate is ensured and the falling off is avoided, the connected part is called a die-cutting plate gap bridge, meanwhile, in order to enable the die-cutting rule to be matched with the groove, a bridge hole matched with the die-cutting plate gap bridge is required to be formed in the position corresponding to the die-cutting rule, the bridge is arranged at the position where the die-cutting rule gap bridge is arranged, and the die-cutting rule can be prevented from moving when being arranged in the groove; the traditional die-cutting rule is usually fixed in the groove in a gluing mode, however, at least one third of the die-cutting rule is exposed out of the groove, and the width of the blade is not large, so that the contact area between the blade and the groove is small during installation, the situation that the blade is loosened or even falls off easily occurs in subsequent use, and the service life of the die-cutting rule is influenced.

Therefore, it is desirable to design a die-cutting tool bridge dotting die to overcome the deficiencies of the prior art.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a reach the technical scheme that above-mentioned technical purpose adopted and be: the utility model provides a die-cutting rule bridge site dotting mould which characterized in that includes: the base, the top of base is equipped with the bridge position deflector, the top of bridge position deflector is equipped with the cutting die connecting piece, the one end of cutting die connecting piece is equipped with a plurality of bridge position cutting dies, the other end of cutting die connecting piece is equipped with at least one pit mould and at least one bump mould, bridge position cutting die with pit mould reaches the bump mould passes respectively the bridge position deflector, and can be relative the bridge position deflector slides, the base with still be equipped with between the bridge position deflector a plurality of with the bridge position cutting die one-to-one bridge position backplate, the base with still be equipped with between the bridge position deflector with the pit backplate that the pit mould corresponds, the base with still be equipped with between the bridge position deflector with the bump backplate that the bump mould corresponds, be equipped with the bump thimble in the bump backplate, be equipped with the pit thimble in the pit mould, bridge position deflector with bridge position backplate with the bump backplate reaches the pit backplate interval sets up.

In a preferred embodiment, one end of the base is provided with a clamping groove, the other end of the base is provided with a clamping block which horizontally protrudes outwards and has a trapezoidal section, and the base is further provided with clearance holes which correspond to the bridge position back plate, the concave point back plate and the convex point back plate one to one.

In a preferred embodiment, the bridge position back plate is provided with through holes corresponding to the bridge position cutting dies in a one-to-one and matched manner, the concave point back plate is provided with concave point slot holes corresponding to the concave point ejector pins in a matched manner, the concave point ejector pins protrude out of the surface plane of the concave point die, and the convex point ejector pins protrude out of the surface plane of the convex point back plate.

In a preferred embodiment, the bump mold includes: the top of the salient point blade is connected with the cutting die connecting piece, and a salient point groove hole corresponding to the salient point thimble is formed in the salient point blade.

In a preferred embodiment, the dimple die comprises: the top of the concave point blade is connected with the cutting die connecting piece, and a concave point needle hole used for placing the concave point thimble is formed in the concave point blade.

In a preferred embodiment, a sliding groove is formed in the middle of the cutting die connecting piece, limiting grooves are formed in two side walls of the sliding groove respectively, limiting columns are arranged on the convex point die, the concave point die and the bridge position die in a penetrating mode respectively, and the limiting columns are matched with the limiting grooves.

In a preferred embodiment, a plurality of guide holes are formed in the bridge guide plate, and the bridge cutting die, the convex point die and the concave point die are respectively located in the guide holes and can slide in the guide holes.

The beneficial effects of the utility model are that: the convex-concave point dotting device has the advantages that the concave point die and the convex point die are additionally arranged on the bridge position die, so that convex-concave point dotting can be carried out on the blade when the bridge position die is punched, the blade can be contacted with the die cutting plate through the convex-concave point when being installed on the die cutting plate, the stability of the blade during installation is improved, the service life of the blade is prolonged, and meanwhile, the cost of installing the die additionally can be saved.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is an exploded view of the present invention;

fig. 3 is a cross-sectional view of the present invention.

In the figure:

10. a base; 101. a card slot; 102. a clamping block; 103. avoiding a void; 11. a bridge position guide plate; 111. a guide hole; 12. a cutting die connecting piece; 121. a bump mold; 1211. a bump blade; 1212. a salient point slot; 122. a pit mold; 1221. a dimple blade; 1222. a concave point thimble; 1223. a pit pinhole; 123. a bridge position cutting die; 124. a sliding groove; 125. a limiting groove; 126. a limiting column; 13. a bump back plate; 131. a salient point thimble; 14. a pit back plate; 141. a pit slot; 15. a bridge position back plate; 151. and a through hole.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, as those skilled in the art will be able to make similar modifications without departing from the spirit and scope of the present invention.

As shown in fig. 1-3, the utility model provides a die-cutting rule bridge site dotting mould, a serial communication port, include: a base 10, a bridge guide plate 11 is arranged above the base 10, a cutting die connecting piece 12 is arranged above the bridge guide plate 11, one end of the cutting die connecting piece 12 is provided with a plurality of bridge cutting dies 123, the other end of the cutting die connecting piece 12 is provided with at least one concave point die 122 and at least one convex point die 121, the bridge cutting dies 123, the concave point dies 122 and the convex point dies 121 respectively penetrate through the bridge guide plate 11 and can slide relative to the bridge guide plate 11, a plurality of bridge back plates 15 corresponding to the bridge cutting dies 123 one by one are further arranged between the base 10 and the bridge guide plate 11, concave point back plates 14 corresponding to the concave point dies 122 are further arranged between the base 10 and the bridge guide plate 11, convex point back plates 13 corresponding to the dies 121 are further arranged between the base 10 and the bridge guide plate 11, convex point back plates 13 are further arranged inside the convex point back plates 131, concave point ejector pins are arranged inside the concave point dies 122, and convex point back plates 1222 are arranged inside the bridge guide plate 11, the bridge back plates 15, the convex point back plates 13 and the convex point back plates 13 are further arranged inside the convex point back plates 14; specifically, the material runs through the dotting die through the spacing distance between the bridge position guide plate 11 and the bridge position back plate 15, the bridge position cutting dies 123 are multiple, the model and the specification of each bridge position cutting die 123 are different, when the material passes through the dotting die, the dotting die is moved to enable the convex point ejector pins 131 on the material to correspond to the material, then the cutting die connecting piece 12 is driven to move through external equipment to perform dotting on the material, after the process is completed, the dotting die is moved according to requirements to enable the dotting die to move to the required bridge position cutting die 123, bridge position punching is performed on the material, after the process is completed, the dotting die is moved to enable the dotting die to move to the positions corresponding to the concave point ejector pins 1222, the material is subjected to pit dotting, through the structural design of the concave points and the convex points, when the die-cutting knife is installed in the groove of the die-cutting plate, the friction force of the concave points and the convex points is increased due to the protruding structures of the concave points and the convex points, the stability of the die-cutting knife during installation is improved, and the service life of the die-cutting knife is further, the stability of the die-cutting knife is improved.

Further, in this embodiment, one end of the base 10 is provided with a clamping groove 101, the other end of the base 10 is provided with a clamping block 102 which horizontally protrudes outwards and has a trapezoidal cross section, the base 10 is further provided with clearance holes 103 which correspond to the bridge position back plate 15, the concave point back plate 14 and the convex point back plate 13 one to one, the specific clamping groove 101 and the clamping block 102 are used for matching with external equipment to fix the base 10, the base 10 is further provided with a plurality of clearance holes 103, and the clearance holes 103 are used for avoiding the bridge position cutting die 123 from contacting the base 10 and damaging the bridge position cutting die 123 when the bridge position is punched.

Further, in this embodiment, the bridge position back plate 15 is provided with through holes 151 corresponding to and adapted to the bridge position cutting dies 123 one by one, the pit position back plate 14 is provided with pit slot holes 141 corresponding to and adapted to the pit position thimble 1222, the pit position thimble 1222 projects from the surface plane of the pit position die 122, the protruding thimble 131 projects from the surface plane of the protruding thimble back plate 13, specifically, the through hole 151 is used for allowing the bridge position die to penetrate into the through hole 151 when the bridge position die is punched, so that the bridge position die generates a cutting force relative to the material through the bridge position back plate 15 when the material is located on the bridge position back plate 15, and cuts out a bridge position hole to realize bridge position punching, wherein the pit position thimble 1222 projects from the surface plane of the pit position die 122, and the pit slot hole 141 is provided on the pit position back plate 14, when the material needs to be punched, the part of the pit position thimble 1222 projecting out of the pit position die 122 extrudes the material, and the extruded part of the material is deformed by the pit position slot hole 141 to generate a pit structure; the dotting part of the salient point thimble 131 protrudes out of the surface plane of the salient point back plate 13, and the part of the material extruded by the salient point thimble 131 deforms to generate a salient point structure.

Further, in this embodiment, the bump mold 121 includes: the top of the protruding point blade 1211 is connected with the cutting die connecting piece 12, a protruding point groove hole 1212 corresponding to the protruding point thimble 131 is arranged in the protruding point blade 1211, specifically, the difference between the protruding point structure and the concave point structure is that the concave point thimble 1222 of the concave point structure is located in the concave point mould 122, the protruding point thimble 131 of the protruding point structure is located on the protruding point back plate 13, when the protruding point needs to be punched, the material is extruded by the protruding point mould 121 to be extruded to the protruding point thimble 131, meanwhile, the material is deformed under the extrusion of the protruding point thimble 131 through the protruding point groove hole 1212 to form the protruding point structure, and the protruding point or the concave point punched by the material is in the mutually opposite directions through the different arrangement directions of the concave point thimble 1222 and the protruding point thimble 131.

Further, in this embodiment, the pit mold 122 includes: the top of the concave point blade 1221 is connected to the knife mold connector 12, and a concave point pinhole 1223 for placing the concave point thimble 1222 is arranged in the concave point blade 1221.

Further, in this embodiment, a sliding groove 124 is disposed in the middle of the cutting die connecting member 12, two side walls of the sliding groove 124 are respectively provided with a limiting groove 125, the bump die 121, the pit die 122 and the bridge die are respectively provided with a limiting post 126 in a penetrating manner, the limiting post 126 is adapted to the limiting groove 125, specifically, the sliding groove 124 is used for placing the bridge die 123, the bump die 121 and the pit die 122, the limiting groove 125 is disposed on two side walls of the sliding groove 124, the bump die 121, the pit die 122 and the bridge die 123 are respectively provided with a limiting post 126 in a penetrating manner, the limiting post 126 is adapted to the limiting groove 125, and when the pit die 122 and the like are placed in the cutting die connecting member 12, the pit die 122 is prevented from falling out of the cutting die connecting member 12 by the cooperation of the limiting post 126 and the limiting groove 125.

It should be noted that the limiting column 126 also has a function of fixing the cutter, that is, the cutter located in the concave point mold 122 and the bridge position cutting die 123 can pass through the cutter through the limiting column 126 so that the cutter is fixed in the concave point mold 122 and the bridge position cutting die 123, and the cutter is prevented from falling off.

Further, in this embodiment, a plurality of guide holes 111 are formed in the bridge guide plate 11, the bridge cutting die 123, the bump die 121, and the pit die 122 are respectively located in the guide holes 111 and can slide in the guide holes 111, specifically, the pit die 122, the bump die 121, and the bridge die respectively pass through the corresponding guide holes 111, and are fixed by the guide holes 111 to prevent the pit die 122 and the like from moving in the sliding groove 124 along the sliding groove 124, and meanwhile, the guide holes 111 further limit the pit die 122 and the like from moving only along the guide holes 111.

To sum up, the utility model discloses an increase that concave point mould 122 and bump mould 121 make on the bridge position mould and can also carry out the convex-concave point to the blade when the bridge position is die-cut and beat a point to make the blade can pass through convex-concave point and die-cutting plate contact when installing on the die-cutting plate, the steadiness when promoting the blade installation promotes the life of blade, can also save the cost that the mould adorned in addition simultaneously.

The invention is not limited solely to that described in the specification and the embodiments, and additional advantages and modifications will readily occur to those skilled in the art, and it is not intended to be limited to the specific details, representative apparatus, and illustrative examples shown and described herein, without departing from the spirit and scope of the general concept as defined by the appended claims and their equivalents.

Claims (7)

1. The utility model provides a die-cutting rule bridge site dotting mould which characterized in that includes: the cutting die comprises a base, wherein a bridge position guide plate is arranged above the base, a cutting die connecting piece is arranged above the bridge position guide plate, one end of the cutting die connecting piece is provided with a plurality of bridge position cutting dies, the other end of the cutting die connecting piece is provided with at least one concave point die and at least one convex point die, the bridge position cutting dies, the concave point dies and the convex point dies respectively penetrate through the bridge position guide plate and can slide relative to the bridge position guide plate, a plurality of bridge position back plates in one-to-one correspondence to the bridge position cutting dies are further arranged between the base and the bridge position guide plate, concave point back plates corresponding to the concave point dies are further arranged between the base and the bridge position guide plate, convex point back plates corresponding to the convex point dies are further arranged between the base and the bridge position guide plate, convex point ejector pins are arranged in the convex point back plates, concave point ejector pins are arranged in the concave point dies, and the bridge position back plates, the convex point back plates and the convex point back plates are arranged at intervals.

2. The die-cutting rule bridge site dotting die as claimed in claim 1, wherein one end of the base is provided with a clamping groove, the other end of the base is provided with a clamping block which horizontally protrudes outwards and has a trapezoidal cross section, and the base is further provided with clearance holes which correspond to the bridge site back plate, the concave point back plate and the convex point back plate one to one.

3. The mold according to claim 1, wherein the bridge-position back plate is provided with through holes corresponding to and adapted to the bridge-position cutting dies one by one, the concave-point back plate is provided with concave-point slots corresponding to and adapted to the concave-point ejector pins, the concave-point ejector pins protrude from the surface plane of the concave-point mold, and the convex-point ejector pins protrude from the surface plane of the convex-point back plate.

4. The die-cutting rule bridge site dotting die of claim 1, wherein the salient point die comprises: the top of the salient point blade is connected with the cutting die connecting piece, and a salient point groove hole corresponding to the salient point thimble is formed in the salient point blade.

5. The die-cutting rule bridge site dotting die of claim 1, wherein the pit die comprises: the top of the concave point blade is connected with the cutting die connecting piece, and a concave point needle hole used for placing the concave point thimble is formed in the concave point blade.

6. The mold according to claim 1, wherein a sliding groove is formed in the middle of the cutting die connecting member, a limiting groove is formed in each of two side walls of the sliding groove, a limiting post is respectively penetrated through the convex point mold, the concave point mold and the bridge position mold, and the limiting posts are matched with the limiting grooves.

7. The die-cutting rule bridge site dotting die according to claim 1, wherein a plurality of guide holes are formed in the bridge site guide plate, and the bridge site cutting die, the convex point die and the concave point die are respectively positioned in the guide holes and can slide in the guide holes.

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