CN219256414U - Discharging guiding device of die - Google Patents

Abstract

The utility model provides a discharging guide device of a die, and belongs to the technical field of die manufacturing. The mold solves the problems of products with special requirements on the production width of the existing mold and inconvenient manufacture. The discharging guide device of the die comprises a die body, wherein a first guide block is detachably and fixedly connected to one of the check blocks, a second guide block is detachably and fixedly connected to the other check block, the first guide block and the second guide block are oppositely spliced and arranged, the splicing edge of the first guide block is provided with a first inclined surface inclining from inside to outside, the splicing edge of the second guide block is provided with a second inclined surface inclining from inside to outside, and the first inclined surface of the splicing edge of the first guide block and the second inclined surface of the splicing edge of the second guide block are separated to form a guide surface of an outer splay. The utility model has reasonable and simple structural design and convenient assembly; the guide structure is stable and the cost is low, so that the products with special requirements for the width can be conveniently produced.

Description

Discharging guiding device of die

Technical Field

The utility model belongs to the technical field of die manufacturing, and relates to a discharging guide device of a die.

Background

In the prior art, a carbon dioxide foaming extruder die is disclosed as follows: the "201420000943.X" patent grant bulletin number is: CN203818529U is a carbon dioxide foaming extruder die, its specific structure includes the mould body, sets up the mould pressing passageway in the mould body, still sets up the limit for width dog, on the mould body, the outside of mould pressing passageway sets up the cooling oilhole, the exit of mould pressing passageway sets up the limit for width dog, the quantity of cooling oilhole is 4, the cooling oilhole contains oil inlet and oil-out, oil inlet and oil-out constitution return circuit oilhole.

In the structure, the limit stop can limit the product to be manufactured with oversized fillet and oversized wide band, so that the use is convenient, but the special angle expansion guide is needed for the product with special requirements on the width, so that the manufacturing and the production are inconvenient; and the angle-expanding guide devices are replaced according to the thickness of different products, so that the production and the manufacture are inconvenient.

Disclosure of Invention

The utility model aims to solve the problems in the prior art and provides a discharging guide device of a die, which has simple structure and is convenient to produce products with special requirements for width.

The aim of the utility model can be achieved by the following technical scheme: the utility model provides a ejection of compact guider of mould, includes the mould body, the mould body in have the mould pressing passageway, the one end of mould body have the symmetry to piece together and lean on the dog that sets up, two dogs piece together and form the ejection of compact passageway, this ejection of compact passageway and mould pressing passageway communicate relatively, its characterized in that, detachable fixedly connected with guide block I on one of them dog, detachable fixedly connected with guide block II on another dog, this guide block I, guide block two are pieced together and are set up, the piece together the edge of guide block I have by inside-out inclined plane I, piece together the edge of guide block II have by inside-out inclined plane II, the piece together the inclined plane I of leaning edge of this guide block I, the piece together the inclined plane II interval of leaning edge of guide block II form the guide surface of eight characters outward.

The discharging guide device of the die is mainly characterized in that the first guide block and the second guide block are detachably and fixedly connected on the stop block, the guide faces are formed by the first guide block and the second guide block in a spliced manner, products with special requirements on width are conveniently produced, the first guide block and the second guide block are conveniently and alternately replaced at two opposite assembly positions, and different inclined guide faces can be obtained, so that the die is convenient to use.

In the above-mentioned discharging guide device for a mold, the inclination of the first inclined surface of the abutting edge of the first guide block and the inclination of the second inclined surface of the abutting edge of the second guide block are symmetrically distributed. The purpose of the arrangement is to enable the abutted edges of the first guide block and the abutted edges of the second guide block to be symmetrically guided, so that the guiding and discharging are uniform.

In the above-mentioned discharging guide device for a mold, the first guide block and the second guide block are rectangular, the outer edge of the first guide block far away from the edge of the splice is provided with a chamfer bevel, and the outer edge of the second guide block far away from the edge of the splice is provided with a chamfer bevel. In actual manufacturing, the inclination rate of the first chamfer inclined plane is smaller than that of the first inclined plane, the inclination rate of the second chamfer inclined plane is smaller than that of the second inclined plane, and the positions of the first and second guide blocks are exchanged according to the requirement, so that the first and second chamfer inclined planes are spliced relatively to form a guide surface, and the use is convenient.

In the discharging guide device of the die, the inclination of the chamfer inclined surface I of the guide block I and the inclination of the chamfer inclined surface II of the guide block II are symmetrically distributed. The purpose of setting like this is that the chamfer inclined plane one of guide block one, chamfer inclined plane two of guide block two can the symmetrical direction, leads to the direction ejection of compact even.

In the above-mentioned ejection of compact guider of mould, guide block one, guide block two on have the through hole that the symmetry was provided with, have the connecting hole that the symmetry was provided on two dogs, guide block one, guide block two can dismantle the connecting hole that links firmly in corresponding dog through the bolt. The purpose of setting like this is convenient exchange the position of assembly guide block one, guide block two on two dogs, assembly convenient to use.

In the above-mentioned ejection of compact guider of mould, the mould body include module, lower module, should go up module, lower module and splice fixedly relatively. The purpose of this arrangement is to facilitate the machining of the molding channels on the inner walls of the upper and lower modules.

In the above-mentioned discharging guiding device for a mold, the outer end face of the upper module is fixedly provided with a first connecting plate, one of the two blocks is fixedly connected to the upper module through the first connecting plate, the outer end face of the lower module is fixedly provided with a second connecting plate, and the other block is fixedly connected to the lower module through the second connecting plate. The purpose of setting like this is that the assembly that makes things convenient for the dog to go up module, lower module links firmly, and manufacturing is convenient.

Compared with the prior art, the discharging guide device of the die has the advantages that: the structural design is reasonable and simple, and the assembly is convenient; the guide structure is stable and the cost is low, so that the products with special requirements for the width can be conveniently produced.

Drawings

Fig. 1 is a schematic perspective view of a discharge guide of the present die.

Fig. 2 is a schematic cross-sectional view of the discharge guide of the present mold.

In the figure, 1, a mould pressing channel; 2. a stop block; 3. a discharge channel; 4. a first guide block; 5. a second guide block; 6. an inclined plane I; 7. an inclined plane II; 8. chamfering the first inclined plane; 9. chamfering the second inclined plane; 10. a bolt; 11. an upper module; 12. a lower module; 13. a first connecting plate; 14. and a second connecting plate.

Detailed Description

The following are specific embodiments of the present utility model and the technical solutions of the present utility model will be further described with reference to the accompanying drawings, but the present utility model is not limited to these embodiments.

As shown in fig. 1 and 2, the discharging guiding device of the die mainly comprises a die body, wherein a die pressing channel 1 is arranged in the die body, one end of the die body is provided with a stop block 2 which is symmetrically spliced and arranged, the two stop blocks 2 are spliced to form a discharging channel 3, the discharging channel 3 is relatively communicated with the die pressing channel 1, one stop block 2 is detachably and fixedly connected with a first guiding block 4, the other stop block 2 is detachably and fixedly connected with a second guiding block 5, the first guiding block 4 and the second guiding block 5 are relatively spliced and arranged, the spliced edge of the first guiding block 4 is provided with a first inclined surface 6 which is inclined from inside to outside, the spliced edge of the second guiding block 5 is provided with a second inclined surface 7 which is inclined from inside to outside, and the first inclined surface 6 of the spliced edge of the first guiding block 4 and the second inclined surface 7 of the spliced edge of the second guiding block 5 are separated to form a guide surface of a splayed shape; the inclination of the inclined plane I6 of the abutted edge of the guide block I4 and the inclination of the inclined plane II 7 of the abutted edge of the guide block II 5 are symmetrically distributed.

In actual manufacturing, the first guide block 4 and the second guide block 5 are rectangular, the outer edge of the first guide block 4 far away from the spliced edge is provided with a chamfer angle I8, and the outer edge of the second guide block 5 far away from the spliced edge is provided with a chamfer angle II 9; the inclination of the chamfer inclined plane I8 of the guide block I4 and the inclination of the chamfer inclined plane II 9 of the guide block II 5 are symmetrically distributed. During actual assembly, through holes symmetrically arranged are formed in the first guide block 4 and the second guide block 5, connecting holes symmetrically arranged are formed in the two stop blocks 2, and the first guide block 4 and the second guide block 5 are detachably and fixedly connected in the connecting holes of the corresponding stop blocks 2 through bolts 10.

In actual manufacturing, the die body mainly comprises an upper die block 11 and a lower die block 12, and the upper die block 11 and the lower die block 12 are fixedly connected in a relative splicing way; the outer end face of the upper module 11 is fixedly provided with a first connecting plate 13, one of the stop blocks 2 is fixedly connected to the upper module 11 through the first connecting plate 13, the outer end face of the lower module 12 is fixedly provided with a second connecting plate 14, and the other stop block 2 is fixedly connected to the lower module 12 through the second connecting plate 14.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the utility model or exceeding the scope of the utility model as defined in the accompanying claims.

Although the embossing channel 1 is used more herein; a stopper (2); a discharge channel 3; a first guide block 4; a second guide block 5; an inclined plane I6; an inclined plane II 7; chamfering the first inclined plane 8; chamfering the second inclined plane 9; a bolt 10; an upper module 11; a lower module 12; a first connecting plate 13; the second connection plate 14, etc., does not exclude the possibility of using other terms. These terms are used merely for convenience in describing and explaining the nature of the utility model; they are to be interpreted as any additional limitation that is not inconsistent with the spirit of the present utility model.

Claims (7)

1. The utility model provides a ejection of compact guider of mould, includes the mould body, the mould body in have mould pressing passageway (1), the one end of mould body have symmetry to piece together and lean on dog (2) that set up, two dog (2) piece together and lean on and form ejection of compact passageway (3), this ejection of compact passageway (3) communicate with mould pressing passageway (1) relatively, a serial communication port, can dismantle on one of them dog (2) and link firmly guide block one (4), can dismantle on another dog (2) and link firmly guide block two (5), should guide block one (4), guide block two (5) piece together relatively and lean on the setting, the piece one's edge of piece of guide (4) piece together have by inside-out inclined plane one (6), the piece two's edge of piece of guide (5) piece together have by inside-out inclined plane two (7), the piece one (6) of edge of piece of guide (4) piece together, the two (7) piece of edge piece of edge piece of guide of piece (5) are apart from the guide plane two (7) interval formation splayed guide surface.

2. The device according to claim 1, wherein the inclination of the first inclined surface (6) of the abutting edge of the first guide block (4) and the inclination of the second inclined surface (7) of the abutting edge of the second guide block (5) are symmetrically distributed.

3. The device for guiding the material discharged from the mold according to claim 1, wherein the first guide block (4) and the second guide block (5) are rectangular, the outer edge of the first guide block (4) far away from the leaning edge is provided with a chamfer angle I (8), and the outer edge of the second guide block (5) far away from the leaning edge is provided with a chamfer angle II (9).

4. A die discharging guide device according to claim 3, wherein the inclination of the chamfer inclined surface one (8) of the guide block one (4) and the inclination of the chamfer inclined surface two (9) of the guide block two (5) are symmetrically distributed.

5. The discharging guide device of the die according to claim 1, wherein the first guide block (4) and the second guide block (5) are provided with symmetrically arranged through holes, the two stop blocks (2) are provided with symmetrically arranged connecting holes, and the first guide block (4) and the second guide block (5) are detachably and fixedly connected in the connecting holes of the corresponding stop blocks (2) through bolts (10).

6. The discharge guiding device of a mold according to claim 1, wherein the mold body comprises an upper module (11) and a lower module (12), and the upper module (11) and the lower module (12) are fixedly connected in a spliced manner.

7. The discharging guide device of the die set according to claim 6, wherein the outer end face of the upper die block (11) is fixedly provided with a first connecting plate (13), one of the check blocks (2) is fixedly connected to the upper die block (11) through the first connecting plate (13), the outer end face of the lower die block (12) is fixedly provided with a second connecting plate (14), and the other check block (2) is fixedly connected to the lower die block (12) through the second connecting plate (14).

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