Disclosure of Invention
To the defect that exists among the above-mentioned prior art, the utility model provides a high support multistation moulded die reduces the tonnage of equipment, and then reaches energy saving and consumption reduction's purpose.
The utility model discloses the problem that will solve is realized by following technical scheme:
an extremely high support multistation moulded die includes: cope match-plate pattern, lower bolster, direction assembly, the shaping assembly of buckling, buckle assembly and plastic assembly, the direction assembly includes: guide pin bushing and guide pillar, the guide pillar sets up on the lower bolster, the guide pin bushing sets up on the cope match-plate pattern, the guide pin bushing is taken out with the guide pillar and is inserted and be connected, the shaping assembly of buckling includes: lower bending forming assembly and the last bending forming assembly, the bending forming assembly includes: lower bending assembly and bending terrace die, the plastic assembly includes: the upper bending forming assembly, the lower bending forming assembly and the lower shaping assembly are arranged on the lower template and correspond to the upper bending forming assembly, the bending convex die and the shaping convex die on the upper template.
Preferably, the bending assembly is disposed between the bend forming assembly and the reforming assembly.
Preferably, the device further comprises a stopper which is arranged on the lower template.
Preferably, the upper bend forming assembly comprises: the upper bending forming liner plate, the upper bending forming hoop sleeve, the two bending female dies, the two upper die inserts, the bending forming material returning block, the upper bending forming nitrogen cylinder and the two upper bending forming guide sliding plates are arranged on the upper template, the upper bending forming nitrogen cylinder is arranged on the upper bending forming liner plate, the bending forming material returning block sleeve is arranged on the upper bending forming nitrogen cylinder, the two upper bending forming guide sliding plates are arranged on two sides of the material returning block, the two upper die inserts are arranged at two ends of the material returning block, the two bending female dies are respectively arranged at two ends of the two upper die inserts, the upper bending forming hoop sleeve is provided with an upper bending forming hoop sleeve groove, and the upper bending forming hoop sleeve is arranged in the upper bending forming hoop groove by the two bending female dies, the two upper die inserts, the bending forming material returning block, the upper bending forming nitrogen cylinder and the two upper bending forming guide sliding plate sleeves, the lower bending forming assembly comprises: the lower die nitrogen cylinder is arranged on a lower die plate, the lower die push block is sleeved on the lower die nitrogen cylinder, the lower die is sleeved on the lower die push block, and the lower die positioning pins are respectively arranged on the lower die and the lower die push block.
Preferably, the lower bending assembly comprises: the bending device comprises a lower bending hoop sleeve, a lower bending spring, a lower bending material returning block, two lower bending guide sliding plates, two bending die inserts and a plurality of bending positioning pins, wherein the lower bending spring is arranged on a lower template, the lower bending material returning block is arranged on the lower bending spring, the lower bending guide sliding plates are arranged on two sides of the lower bending material returning block, the two bending die inserts are arranged at two ends of the lower bending material returning block, the lower bending hoop sleeve is used for respectively sleeving the lower bending material returning block, the two lower bending guide sliding plates and the two bending die inserts, the plurality of bending positioning pins are respectively arranged on the lower bending material returning block and the two bending die inserts, and the bending male die is arranged on the upper template.
Preferably, the lower shaping assembly includes: the lower shaping spring is arranged on a lower template, the lower shaping stripper is fixed on the lower shaping template through the lower shaping spring ejector pin, the two shaping die inserts are arranged on two sides of the lower shaping stripper, the two shaping die inserts and the lower shaping stripper are sleeved in the lower shaping stripper by the lower shaping hoop, the lower shaping positioning pin is arranged on the lower shaping stripper, and the shaping male die is arranged on an upper template.
The utility model discloses for the beneficial effect that has now:
a high support multistation moulded die compares with current connection method, the utility model discloses reduce the shaping stroke, reduce the height of spring or nitrogen cylinder, mould quantity can not increase, reduces the big rigid requirement of equipment stroke, reduces the closed height of mould to reduce the tonnage of equipment, and then reach energy saving and consumption reduction's purpose.
Detailed Description
The invention will be further explained below with reference to the accompanying figures 1 to 10:
the technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.
In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.
As shown in fig. 1 to 3, a first embodiment of the present invention provides a high support multi-station forming die based on the prior art, which includes: the upper template 3, the lower template 29, the guiding assembly, the bending assembly and the shaping assembly, and the structure and connection relationship of each component mentioned above will be described in detail below.
First, a guide assembly is described, which includes: the guide sleeve 5 and the guide post 28, the guide post 28 is installed on the lower template 29, the guide sleeve 5 is installed on the upper template 3, and the guide sleeve 5 is connected with the guide post 28 in a drawing and inserting mode. The shaping assembly of buckling includes: lower bending forming assembly and the last bending forming assembly, the bending forming assembly includes: lower bending assembly and bending terrace die, the plastic assembly includes: the bending device comprises an upper bending forming assembly, a lower bending forming assembly, a bending convex die and a shaping convex die, wherein the upper bending forming assembly, the bending convex die and the shaping convex die are respectively arranged on an upper template 3, the lower bending forming assembly, the lower bending assembly and the lower shaping assembly are respectively arranged on a lower template 29 and correspond to the upper bending forming assembly, the bending convex die and the shaping convex die on the upper template 3, and the bending assembly is arranged between the bending forming assembly and the shaping assembly. In order to protect the mold, the device further comprises a stopper 27, and the stopper 27 is mounted on a lower template 29.
The upper bend forming assembly, as shown in FIGS. 4-5, is described as follows: an upper bending forming cushion plate 2, an upper bending forming hoop sleeve 11, two bending female dies 10, two upper die insert blocks 9, a bending forming material returning block 8, an upper bending forming nitrogen cylinder 1 and two upper bending forming guide sliding plates 7, an upper bending forming backing plate 2 is arranged on an upper template 3, an upper bending forming nitrogen cylinder 1 is arranged on the upper bending forming backing plate 2, a bending forming material returning block 8 is sleeved on the upper bending forming nitrogen cylinder 1, two upper bending forming guide slide plates are arranged on two sides of the bending forming material returning block 8, two upper die insert blocks 9 are arranged at two ends of the bending forming material returning block 8, two bending female dies 10 are respectively arranged at two ends of the two upper die insert blocks 9, an upper bending forming hoop sleeve groove is arranged on an upper bending forming hoop sleeve 11, the upper bending forming hoop sleeve 11 is formed by sleeving two bending female dies 10, two upper die inserts 9, a bending forming material returning block 8, an upper bending forming nitrogen cylinder 1 and two upper bending forming guide sliding plates 7 in an upper bending forming hoop sleeve groove. The upper bend forming assembly is described above and the lower bend forming assembly is described below, as shown in FIG. 6, and includes: the device comprises a lower die 23, a plurality of lower die positioning pins 24, a lower die push block 25 and a lower die nitrogen cylinder 26, wherein the lower die nitrogen cylinder 26 is installed on a lower die plate 29, the lower die push block 25 is sleeved on the lower die nitrogen cylinder 26, the lower die 23 is sleeved on the lower die push block 25, and the plurality of lower die positioning pins 24 are respectively installed on the lower die 23 and the lower die push block 25.
The following description will be given of a lower bending assembly, as shown in fig. 7 and 8, which includes: the bending device comprises a lower bending hoop sleeve 30, a lower bending spring 22, a lower bending stripper block 21, two lower bending guide sliding plates 20, two bending die inserts 18 and a plurality of bending positioning pins 19, wherein the lower bending spring 30 is installed on a lower template 29, the lower bending stripper block 21 is installed on the lower bending spring 22, the two lower bending guide sliding plates 20 are installed on two sides of the lower bending stripper block 21, the two bending die inserts 18 are installed at two ends of the lower bending stripper block 21, the lower bending hoop sleeve 30 respectively sleeves the lower bending stripper block 21, the two lower bending guide sliding plates 20 and the two bending die inserts 18, the plurality of bending positioning pins 19 are respectively installed on the lower bending stripper block 21 and the two bending die inserts 18, and the bending male die 6 is installed on the upper template 3.
Finally, the following reshaping assembly will be described, as shown in fig. 9 and 10, which includes: the lower shaping spring 36, the lower shaping ejector pin 34, the lower shaping backing plate 33, the lower shaping hoop sleeve 32, the lower shaping stripper block 17, the two shaping die inserts 15 and the lower shaping positioning pin 16, wherein the lower shaping spring 36 is installed on the lower die plate 29, the lower shaping stripper block 17 is fixed on the lower shaping backing plate 33 through the lower shaping ejector pin 34, the two shaping die inserts 15 are installed on two sides of the lower shaping stripper block 17, the lower shaping hoop sleeve 32 sleeves the two shaping die inserts 15 and the lower shaping stripper block 17, the lower shaping positioning pin 16 is installed on the lower shaping stripper block 17, and the shaping male die 4 is installed on the upper die plate 3.
The specific working mode is as follows:
when the bending and shaping device is used, a workpiece is firstly placed on a lower bending and shaping assembly, the upper bending and shaping assembly is driven by an upper template 3 to be manufactured into a bending and profiling process piece 12, then the bending and profiling process piece 12 is placed on the lower bending and shaping assembly, a bending and bending male die 6 is driven by the upper template 3 to be manufactured into a bending process piece 13, then the bending process piece 13 is placed on the lower shaping assembly, a shaping male die 4 is driven by the upper template 3 to be manufactured into a shaping process piece 14, and in the process, the next workpiece can be continuously manufactured on the adjacent process along with the previous workpiece.
While embodiments of the invention have been disclosed above, it is not intended to be limited to the uses set forth in the specification and examples. It can be applied to all kinds of fields suitable for the present invention. Additional modifications will readily occur to those skilled in the art. It is therefore intended that the invention not be limited to the exact details and illustrations described and illustrated herein, but fall within the scope of the appended claims and equivalents thereof.