CN215998345U - Bearing type swinging block shaping mechanism - Google Patents

Abstract

The utility model provides a bearing type swing block shaping mechanism which comprises an upper die, a lower die, a pressure plate, a lower die shaping male die and an upper die shaping male die, wherein the lower die is opposite to the upper die, the pressure plate, the lower die shaping male die and the upper die shaping male die are arranged between the upper die and the lower die, an external product is placed in a forming space surrounded by the pressure plate, the lower die shaping male die and the upper die shaping male die, the upper die and the lower die can move up and down to be oppositely pressed, and under the condition that the upper die and the lower die are oppositely pressed, the forming space between the pressure plate, the lower die shaping male die and the upper die shaping male die is reduced to be formed by pressing the product. The utility model can well press products and is simple and convenient.

Description

Bearing type swinging block shaping mechanism

Technical Field

The utility model relates to the technical field of product shaping, in particular to a bearing type swing block shaping mechanism.

Background

The mechanism that carries out the plastic to the product exists among the current stamping die, but current plastic mechanism need carry out the public angle of debugging shaping and position many times, perhaps set up the gasket on the shaping is public, just can suppress the product well, and such debugging mode is consuming time hard, is unfavorable for popularizing production.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a bearing type swing block shaping mechanism which can well press products and is simple and convenient.

Therefore, the bearing type swing block shaping mechanism comprises an upper die, a lower die opposite to the upper die, and a pressure plate, a lower die shaping male die and an upper die shaping male die which are arranged between the upper die and the lower die, wherein an external product is placed in a forming space surrounded by the pressure plate, the lower die shaping male die and the upper die shaping male die, the upper die and the lower die can move up and down to be oppositely pressed, and under the condition that the upper die and the lower die are oppositely pressed, the forming space between the pressure plate, the lower die shaping male die and the upper die shaping male die is reduced to be formed by pressing.

Furthermore, the lower die is fixed on an external machine tool, the upper dies are pressed downwards to be opposite to the lower dies for pressing, the lower die shaping male die is arranged in the middle of the top surface of the lower die and vertically opposite to the pressure plate, the upper die shaping male dies are arranged in a plurality, the upper die shaping male die is rotatably arranged on the bottom surface of the upper die, and under the condition that the upper dies are opposite to the lower dies, the upper die shaping male dies are respectively arranged beside the lower die shaping male die.

Furthermore, the upper die shaping male die is provided with two male dies which are respectively connected to the bottom surface of the upper die in a rotating mode through mechanisms.

Further, the mechanism comprises a bearing cover plate, a bearing sleeve, a mounting seat, a bearing pressing block, a bearing cover plate, a limiting stopper and a mounting part, the mechanism is respectively connected with two sides of the bottom surface of the upper die through threads at the mounting part, the middle part of the bearing cover plate is hollowed out and is provided with an opening horizontally penetrating through two end surfaces of the bearing cover plate, the bearing horizontally penetrates through two end faces of the mounting seat and then is embedded into the opening, the bearing sleeves are provided with two bearing pressing blocks, the two bearing pressing blocks are respectively embedded into the opening from the outer side of the bearing cover plate, the bearing pressing blocks are parallel to the bearing, two ends of the bearing pressing blocks are respectively fixed on the inner wall of the bearing cover plate, the bearing pressing blocks are arranged on the top surface of the bearing and are tightly attached to the bearing, the limiting plugs are perpendicular to the bearing, one end of the limiting plugs is embedded into the side wall of the bearing cover plate, the mounting seat is limited on the end face of the limiting plugs, which are embedded into the bearing cover plate, along the rotating stroke of the bearing, and the two upper die shaping bodies face each other and are arranged on the side wall of the mounting seat.

Furthermore, the end faces, far away from each other, of the two installation bases are both provided with inclined faces, the two sides of the top face of the lower die are provided with a plurality of driving block bases and a plurality of driving blocks embedded into the driving block bases in an inclined mode, the installation bases drive the upper die shaping male die to press down to the top faces of the driving blocks under the condition that the upper die is pressed down to be opposite to the lower die in a pressing mode, the inclined faces of the two installation bases press down along the driving blocks arranged in an inclined mode, the distance between the two installation bases is reduced, and the upper die shaping male die presses down a product to the side wall of the lower die shaping male die.

Furthermore, the device also comprises a plurality of adjusting blocks arranged between the driving block and the driving block seat.

Furthermore, the driving block and the adjusting block are both in threaded connection with the driving block seat.

Furthermore, the device also comprises a nitrogen cylinder penetrating through two end faces of the upper die, the fixed end of the nitrogen cylinder is arranged on the top surface of the upper die, the telescopic end of the nitrogen cylinder penetrates through the upper die and penetrates out of the bottom surface of the upper die, and the top surface of the pressure plate is fixed on the telescopic end of the nitrogen cylinder.

The utility model provides a bearing type swing block shaping mechanism, wherein a product is placed in a shaping space formed by enclosing a pressure plate arranged between an upper die and a lower die, a lower die shaping die and an upper die shaping die, and the upper die and the lower die are oppositely pressed to reduce the shaping space until the product is pressed and shaped, so that the product can be well pressed, and the bearing type swing block shaping mechanism is simple and convenient.

The foregoing description is only an overview of the technical solutions of the present invention, and the embodiments of the present invention are described below in order to make the technical means of the present invention more clearly understood and to make the above and other objects, features, and advantages of the present invention more clearly understandable.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the utility model. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

FIG. 1 is an exploded view of the bearing-type pendulum mass reshaping mechanism of the present invention;

FIG. 2 is a schematic view of a portion of the structure of FIG. 1;

FIG. 3 is a schematic structural view of the bearing-type swing block shaping mechanism of the present invention after the upper die is pressed down;

fig. 4 is a schematic view of the structure of fig. 3 when the male compression product is molded in the upper mold.

Description of reference numerals: 1-upper mould; 2-lower mould; 3-a nitrogen cylinder; 4-pressing a material plate; 5-shaping the lower die; 6-shaping the upper die; 7-mounting a base; 8-a drive block; 9-driving block seat; 10-products; 11-an adjusting block; 12-inclined plane; 13-a bearing; 14-a bearing sleeve; 15-bearing briquetting; 16-a bearing cover plate; 17-a mounting portion; and 18-limiting stopper beating.

Detailed Description

The utility model is further described with reference to the following examples.

See fig. 1, the bearing type swing block shaping mechanism of the embodiment includes an upper die 1, a lower die 2 opposite to the upper die 1, a pressure plate 4 arranged between the upper die 1 and the lower die 2, a lower die shaping male 5, and an upper die shaping male 6, wherein a product 10 is placed in a forming space surrounded by the pressure plate 4, the lower die shaping male 5, and the upper die shaping male 6, and the pressure plate 4, the lower die shaping male 5, and the upper die shaping male 6 are controlled to be mutually compressed to realize the forming of the product 10.

The bearing type swing block shaping mechanism of the embodiment further comprises a nitrogen cylinder 3 penetrating through two end faces of the upper die 1, the fixed end of the nitrogen cylinder 3 is arranged on the top face of the upper die 1, the telescopic end of the nitrogen cylinder penetrates through the upper die 1 and penetrates out from the bottom face of the upper die 1, and the top face of the pressure plate 4 is fixed on the telescopic end of the nitrogen cylinder 3. Lower mould 2 is fixed on the lathe, goes up mould 1 and can reciprocate to lower mould 2 opposition pressfitting above lower mould 2, and the public 5 setting of lower mould plastic is in the middle part of lower mould 2 top surface, goes up under the condition of mould 1 and lower mould 2 opposition, and the public 5 and the vertical opposition of pressure flitch 4 of lower mould plastic. The upper die shaping male dies 6 are arranged in two numbers, the upper die shaping male dies 6 are rotatably arranged on the bottom surfaces of the upper die bodies 1, and the two upper die shaping male dies 6 are vertically aligned to two sides of the lower die shaping male dies 5 respectively under the condition that the upper die bodies 1 are opposite to the lower die bodies 2.

Referring to fig. 2, the upper die shaping male die 6 is provided with two and is respectively connected to the bottom surface of the upper die 1 through the following mechanisms, the mechanisms comprise a bearing cover plate 16, a bearing sleeve 14, a mounting seat 7, a bearing 13, a bearing pressing block 15, a bearing cover plate 16, a limiting stopper 18 and a mounting part 17, the mechanisms are respectively arranged on two sides of the bottom surface of the upper die through the mounting part 17, the middle part of the bearing cover plate 16 is hollowed and is provided with an opening horizontally penetrating through two end surfaces of the bearing cover plate 16, the bearing 13 horizontally penetrates through the two end surfaces of the mounting seat 7 and is embedded into the opening, the bearing sleeve 14 is provided with two and is respectively embedded on the opening from the outer side of the bearing cover plate 16, the bearing pressing block 15 is parallel to the bearing 13, two ends of the bearing pressing block 15 are respectively fixed on the inner wall of the bearing cover plate 16, the bearing pressing block 15 is arranged on the top surface of the bearing 13 and is tightly attached to the bearing 13, the limiting stopper 18 is perpendicular to the bearing 13, and one end of the limiting stopper is embedded from the side wall of the bearing cover plate 16, the stroke of the mounting seat 7 rotating along the bearing 13 is limited to the end face of the limiting stopper 18 embedded into the bearing cover plate 16, the two upper die shaping male dies 6 face each other and are arranged on the side wall of the mounting seat, and the two mounting seats 7 rotate along the bearing 13 below the upper die 1 to be close to each other, so that the two upper die shaping male dies 6 are driven to be close to each other.

In order to realize that the mounting seats 7 can rotate to be close to each other below the upper die 1 along the bearing 13, the end surfaces of the two mounting seats 7 far away from each other are respectively provided with an inclined surface 12, two driving block seats 9 are respectively arranged at two sides of the top surface of the lower die 2, four driving blocks 8 obliquely embedded into the two driving block seats 9 and four adjusting blocks 11 arranged between the driving blocks 8 and the driving block seats 9, under the condition that the upper die 1 is punched downwards to be opposite to and pressed on the lower die 2, the mounting seats 7 drive the upper die shaping male 6 to be pressed downwards to the top surface of the driving block 8, the inclined surfaces 12 of the two mounting seats 7 are pressed downwards along the obliquely arranged driving block 8, so that the distance between the two mounting seats 7 is reduced, the upper die shaping male 6 presses the product 10 to the side wall of the lower die shaping male 5, at the moment, only the thickness of the adjusting blocks 11 needs to be changed, the gap between each adjusting block 8 and the lower die shaping male 5 can be shortened, the upper die shaping male 6 can be ensured to tightly press the product 10 on the side wall of the lower die shaping male 5.

In order to change the thickness of the adjusting block 11 conveniently, the driving block 8 and the adjusting block 11 are both in threaded connection with the driving block seat 9 through screws.

When pressing a product 10, an upper die 1 moves upwards, the product 10 is placed on the top surface of a lower die 2, the center of the product coincides with the center of the top surface of the lower die 2, the upper die 1 punches downwards to drive a pressure plate 4 and a mounting seat 7 to move downwards, see fig. 3, the pressure plate 4 presses the top surface of the product 10 downwards, inclined planes 12 of the two mounting seats 7 are respectively close to each other along each driving block 8, so that an upper die shaping male 6 can press the edge of the product 10 downwards to a tightly-attached lower die shaping male 5, specifically, as shown in fig. 4, the upper die 1 moves upwards again, the product 10 is taken out through hands or a mechanical arm, and pressing of the product 10 is completed.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the protection scope of the present invention, although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims (8)

1. The utility model provides a bearing formula pendulum mass plastic mechanism which characterized in that: the forming device comprises an upper die, a lower die opposite to the upper die, and a pressure plate, a lower die shaping die and an upper die shaping die which are arranged between the upper die and the lower die, wherein an external product is placed in a forming space enclosed by the pressure plate, the lower die shaping die and the upper die shaping die, the upper die and the lower die can move up and down to be oppositely pressed, and under the condition that the upper die and the lower die are oppositely pressed, the forming space between the pressure plate, the lower die shaping die and the upper die shaping die is reduced to be formed by pressing the product.

2. The bearing-type pendulum mass reshaping mechanism of claim 1, wherein: the lower die is fixed on an external machine tool, the upper die is pressed downwards to be opposite to the lower die and pressed, the lower die shaping male die is arranged in the middle of the top surface of the lower die and vertically opposite to the pressure plate, the upper die shaping male dies are arranged in a plurality, the upper die shaping male dies are rotatably arranged on the bottom surface of the upper die, and the upper die shaping male dies are respectively arranged beside the lower die shaping male dies under the condition that the upper die and the lower die are opposite.

3. The bearing type swing block shaping mechanism as claimed in claim 2, wherein two upper die shaping male dies are arranged and are respectively and rotatably connected to the bottom surfaces of the upper dies.

4. The bearing type swing block shaping mechanism of claim 3, wherein the upper die shaping male die is rotatably connected to the bottom surface of the upper die through a structure comprising: bearing cap board, bearing housing, mount pad, bearing briquetting, bearing cover board, spacing stopper are beaten, the installation department, the mechanism passes through the installation department and goes up the both sides threaded connection of mould bottom surface respectively, bearing cover board middle part fretwork is equipped with the level and runs through the trompil of its both ends face, the bearing level runs through in embedding the trompil behind the both ends face of mount pad, the bearing housing is provided with two and is nested on the trompil respectively from the outside of bearing cover board, the bearing briquetting is parallel with the bearing and its both ends are fixed respectively at the inner wall of bearing cover board, the bearing briquetting sets up at the top surface of bearing and hugs closely the bearing, spacing stopper is beaten and is beaten the lateral wall embedding of bearing cover board with bearing perpendicular and its one end, the mount pad is restricted in spacing stopper along bearing pivoted stroke and is beaten the terminal surface of embedding bearing cover board, two mould plastic are public facing each other and are set up the lateral wall at the mount pad.

5. The bearing-type pendulum mass reshaping mechanism of claim 4, wherein: the end faces, far away from each other, of the two installation bases are all arranged to be inclined faces, the two sides of the top face of the lower die are provided with a plurality of driving block bases and a plurality of driving blocks embedded into the driving block bases in an inclined mode, the installation bases drive the upper die shaping male die to press down to the top faces of the driving blocks under the condition that the upper die is pressed down to be opposite to the lower die in a pressing mode, the inclined faces of the two installation bases press down along the driving blocks arranged in an inclined mode, the distance between the two installation bases is reduced, and the upper die shaping male die presses down products to the side wall of the lower die shaping male die.

6. The bearing-type pendulum mass reshaping mechanism of claim 5, wherein: the driving block seat is arranged on the base, and the driving block seat is arranged on the base.

7. The bearing-type pendulum mass reshaping mechanism of claim 5, wherein: the driving block and the adjusting block are both in threaded connection with the driving block seat.

8. The bearing-type pendulum mass reshaping mechanism of claim 1, wherein: the device is characterized by further comprising a nitrogen cylinder penetrating through two end faces of the upper die, a fixed end of the nitrogen cylinder is arranged on the top surface of the upper die, a telescopic end of the nitrogen cylinder penetrates through the upper die and penetrates out of the bottom surface of the upper die, and the top surface of the pressure plate is fixed on the telescopic end of the nitrogen cylinder.

Images