CN209319361U - Processing and forming tooling in a kind of normotopia, angle die cavity - Google Patents

Abstract

The utility model discloses a kind of normotopias, processing and forming tooling in angle die cavity, including tooling ontology, the tooling ontology is equipped with the operation interval for installing die cavity, the structure of the operation interval and the outer profile structure of die cavity match, the tooling ontology includes two blocks of side plates for being used to support die cavity, the bottom plate and fixed link being mounted between two blocks of side plates, the bottom plate is connect with the bottom of two blocks of side plates, the fixed link is connect with the top of two blocks of side plates, the side plate is equipped with the arc groove for cooperating with die cavity lateral surface, two blocks of side plates are oppositely arranged.

Description

Processing and forming tooling in a kind of normotopia, angle die cavity

Technical field

The utility model relates to mold manufacture fields, and in particular to processing and forming tooling in a kind of normotopia, angle die cavity.

Background technique

General bottle blowing mould is made of the die cavity of two pieces of semi-cylindrical structures, and the inside of die cavity is equipped with to be blow molded into for plastic The interior moulding section of type, due to the precision of the processing precision direct influence plastic blow molding of the interior moulding section of die cavity, into When the interior moulding section processing of row die cavity, need to process the die cavity clamping of semi-cylindrical structure into process equipment, by In die cavity lateral surface be semi-cylindrical structure, can not directly clamping into process equipment, need using dedicated processing tool Clamping is carried out, often to position die cavity, the positioning of die cavity is mould in process in the interior moulding section of die cavity The most key link in intracavitary moulding section process, the precision of die cavity positioning directly determine the processing of interior moulding section Precision and efficiency, existing die cavity processing tool location efficiency is not high, while when being positioned, and positioning is inaccurate, Often beyond specified position, so that every time after positioning, need to do secondary position adjustment, waste time and energy, and Position that unstable, precision is low, production efficiency is low.

Utility model content

For overcome the deficiencies in the prior art, the utility model a kind of normotopia is provided, processing and forming tooling in angle die cavity.

The technical scheme adopted by the utility model to solve the technical problem is as follows:

Processing and forming tooling in a kind of normotopia, angle die cavity, including tooling ontology, the tooling ontology are equipped with for pacifying The operation interval of die-filling chamber, the structure of the operation interval and the outer profile structure of die cavity match, and the tooling ontology includes It is used to support two blocks of side plates, the bottom plate being mounted between two blocks of side plates and the fixed link of die cavity, the bottom plate and two blocks of side plates Bottom connection, the fixed link connect with the top of two blocks of side plates, and the side plate with die cavity lateral surface equipped with for cooperating Arc groove, two blocks of side plates are oppositely arranged.

In the present invention, the arc groove is semi-circular structure, and the diameter at the arc groove both ends is formed with horizontal plane Angular range between 5 °~85 °, the lower end of the arc groove is equipped with the boss for die cavity installation positioning, the boss Height is between 6mm~10mm.

In the present invention, the arc groove is semi-circular structure, and the both ends of the arc groove are in same level, institute The outside for stating arc groove is equipped with the axially position block for being used for die cavity axially position, and the axially position block is mounted on side plate, institute Fixed link is stated equipped with two, is separately mounted to the two sides of arc groove, the top of the side plate is equipped with for die cavity radial positioning Radial positioning block.

In the present invention, the bottom of the side plate is equipped with first through hole and the first pin hole for connecting bottom board, institute It states first through hole and the first pin hole is arranged in same level, the first through hole and the first pin hole run through side plate, the side The top of plate is equipped with the second through-hole for being connected and fixed bar, and second through-hole runs through side plate, and the on two blocks of side plates One through-hole, the first pin hole, the second through-hole are oppositely arranged respectively.

In the present invention, the two sides of the bottom plate are equipped with the first threaded hole and the second pin hole for connecting lateral plate, First threaded hole and the second pin hole are arranged in pairs in the two sides of bottom plate, first threaded hole and the second pin hole not through Bottom plate.

In the present invention, two the second screw threads are arranged along the central axis of fixed link respectively in the both ends of the fixed link The structure in hole, described two second threaded holes is identical.

In the present invention, the side plate is equipped with the third threaded hole for connecting axial locating piece, the third The lower section of arc groove is arranged in through side plate for threaded hole, and the top of the side plate is equipped with to lower recess for connecting radial positioning block The 4th threaded hole, the 4th threaded hole is arranged in pairs in the both ends at the top of side plate.

In the present invention, the axially position block is equipped with the third through-hole for connecting with side plate, the third Through-hole runs through axially position block, and the top of the axially position block is equipped with the arc surface for cooperating with die cavity, the arc surface The top of arc groove is set.

In the present invention, the radial positioning block is rectangular parallelepiped structure, and the top of the radial positioning block is to recessed The fourth hole being equipped with for connecting with side plate is fallen into, the fourth hole runs through radial positioning block.

The beneficial effects of the utility model are: processing and forming tooling in a kind of normotopia of the utility model, angle die cavity, leads to The operation interval for being arranged on tooling ontology and matching with the outer profile structure of die cavity is crossed, wherein operation interval is by two blocks of side plates Arc groove and its arc groove between opposite space composition, allow die cavity according to processing request clamping on processing tool, The clamping efficiency of die cavity is improved, further by the way that axially position block and radial positioning block are arranged on tooling ontology, makes die cavity Processing positioning it is more efficient and accurate, while reducing the cost of processing and forming in die cavity.

Detailed description of the invention

The present invention will be further described with embodiment with reference to the accompanying drawing:

Fig. 1 is the overall structure diagram of embodiment one；

Fig. 2 is the left view of Fig. 1；

Fig. 3 is the structural schematic diagram of one bottom plate of embodiment；

Fig. 4 is the cross-sectional view of A-A in Fig. 3；

Fig. 5 is the structural schematic diagram of one fixed link of embodiment；

Fig. 6 is the overall structure diagram of embodiment two；

Fig. 7 is the left view of Fig. 6；

Fig. 8 is the structural schematic diagram of two side plate of embodiment；

Fig. 9 is the structural schematic diagram of two axially position block of embodiment；

Figure 10 is the cross-sectional view of B-B in Fig. 9；

Figure 11 is the structural schematic diagram of two radial positioning block of embodiment.

Specific embodiment

It is practical new below in conjunction with this to keep the objectives, technical solutions, and advantages of the embodiments of the present invention clearer Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described.

Embodiment one:

As shown in Figures 1 to 5, a kind of normotopia, processing and forming tooling in angle die cavity, including tooling ontology 1, the tooling Ontology 1 is equipped with the operation interval 2 for installing die cavity, the structure and the outer profile structure phase of die cavity of the operation interval 2 Match, the tooling ontology 1 includes two blocks of side plates 11 for being used to support die cavity, the bottom plate 12 being mounted between two blocks of side plates 11 and consolidates Fixed pole 13, the bottom plate 12 are connect with the bottom of two blocks of side plates 11, and the fixed link 13 is connect with the top of two blocks of side plates 11, institute Side plate 11 is stated equipped with the arc groove 111 for cooperating with die cavity lateral surface, two blocks of side plates 11 are oppositely arranged, by work The operation interval 2 that the outer profile structure of setting and die cavity matches on dress ontology 1, wherein operation interval 2 is by two blocks of side plates 11 Arc groove 111 and its arc groove 111 between opposite space composition, allow die cavity according to processing request clamping in processing work It loads onto, improves the clamping efficiency of die cavity.

As preferred embodiment, the arc groove 111 be semi-circular structure, the diameter at 111 both ends of arc groove with The angle that horizontal plane is formed is 61.5 °, and the lower end of the arc groove 111 is equipped with the boss 112 for die cavity installation positioning, described The height of boss 112 is 7mm, is convenient for the fixation of die cavity, improves the Set and Positioning efficiency of die cavity.

As preferred embodiment, the bottom of the side plate 11 is equipped with 113 He of first through hole for connecting bottom board 12 First pin hole 114, the first through hole 113 and the first pin hole 114 are arranged in same level, 113 He of first through hole First pin hole 114 runs through side plate 11, there are three the first through hole 113 is set, there are two first pin hole 114 is set, and described three A first through hole 113 and two the first pin holes 114 are arranged alternately respectively, and the top of the side plate 11 is equipped with for being connected and fixed bar 13 the second through-hole 115, second through-hole 115 run through side plate 11, the first through hole 113, first on two blocks of side plates 11 Pin hole 114, the second through-hole 115 are oppositely arranged respectively.

As preferred embodiment, the two sides of the bottom plate 12 are equipped with the first threaded hole 121 for connecting lateral plate 11 With the second pin hole 122, first threaded hole 121 and the second pin hole 122 are arranged in pairs in the two sides of bottom plate 12, first spiral shell Pit 121 and the second pin hole 122 are not through bottom plate 12, the quantity and structure of first threaded hole 121, the second pin hole 122 Match respectively with first through hole 113, the quantity of the first pin hole 114 and structure.

As preferred embodiment, the both ends of the fixed link 13 are arranged two along the central axis of fixed link 13 respectively The structure of second threaded hole 131, described two second threaded holes 131 is identical.

Embodiment two:

As shown in Fig. 6 to Figure 11, the content of the present embodiment is roughly the same with the content of embodiment one, the difference is that: The arc groove 111 is semi-circular structure, and the both ends of the arc groove 111 are in same level, the outside of the arc groove 111 Equipped with the axially position block 3 for die cavity axially position, there are two the axially position block 3 is set, it is separately mounted to two blocks of side plates On 11, the fixed link 13 is equipped with two, is separately mounted to the two sides of arc groove 111, and the top of the side plate 11, which is equipped with, to be used for The radial positioning block 4 of die cavity radial positioning, the radial positioning block 4 are equipped with two pairs, are separately mounted on two blocks of side plates 11, pass through The setting of axially position block 3 and radial positioning block 4 allows die cavity to carry out quick die cavity positioning in clamping, improves die cavity The precision and efficiency of positioning, while reducing the cost of processing and forming in die cavity.

In the present embodiment, the side plate 11 is equipped with the third threaded hole 116 for connecting axial locating piece 3, described Third threaded hole 116 is equipped with two pairs, is separately positioned on two side plates 11, and the third threaded hole 116 is arranged through side plate 11 In the lower section of arc groove 111, the top of the side plate 11 is equipped with the 4th threaded hole for connecting radial positioning block 4 to lower recess 117, the 4th threaded hole 117 is arranged in pairs in the both ends at 11 top of side plate, and the 4th threaded hole 117 is equipped with two pairs, point The both ends at 11 top of side plate are not set.

In the present embodiment, the axially position block 3 is equipped with third through-hole 31 for connecting with side plate 11, and described the Three through-holes 31 run through axially position block 3, and the top of the axially position block 3 is equipped with the arc surface 32 for cooperating with die cavity, institute State the top that arc groove 111 is arranged in arc surface 32.

In the present embodiment, the radial positioning block 4 is rectangular parallelepiped structure, and the top of the radial positioning block 4 is to recessed The fourth hole 41 being equipped with for connecting with side plate 11 is fallen into, the fourth hole 41 runs through radial positioning block 4.

Above description is merely a prefered embodiment of the utility model, as long as realizing the utility model with essentially identical means The technical solution of purpose belongs within the protection scope of the utility model.

Claims (9)

1. processing and forming tooling in a kind of normotopia, angle die cavity, it is characterised in that: including tooling ontology (1), the tooling ontology (1) operation interval (2) for installing die cavity, the structure and the outer profile structure phase of die cavity of the operation interval (2) are equipped with Matching, the tooling ontology (1) includes two pieces of side plates (11) for being used to support die cavity, the bottom being mounted between two pieces of side plates (11) Plate (12) and fixed link (13), the bottom plate (12) connect with the bottom of two pieces of side plates (11), the fixed link (13) with two pieces The top of side plate (11) connects, and the side plate (11) is equipped with the arc groove (111) for cooperating with die cavity lateral surface, and described two Block side plate (11) is oppositely arranged.

2. processing and forming tooling in a kind of normotopia according to claim 1, angle die cavity, it is characterised in that: the circular arc Slot (111) is semi-circular structure, the angular range that the diameter at arc groove (111) both ends and horizontal plane are formed 5 °~85 ° it Between, the lower end of the arc groove (111) is equipped with the boss (112) for die cavity installation positioning, and the height of the boss (112) is Between 6mm~10mm.

3. processing and forming tooling in a kind of normotopia according to claim 1, angle die cavity, it is characterised in that: the circular arc Slot (111) is semi-circular structure, and the both ends of the arc groove (111) are set on the outside of the arc groove (111) in same level There is the axially position block (3) for die cavity axially position, the axially position block (3) is mounted on side plate (11), the fixation Bar (13) is equipped with two, is separately mounted to the two sides of arc groove (111), and the top of the side plate (11) is equipped with radial for die cavity The radial positioning block (4) of positioning.

4. according to processing and forming tooling in a kind of any normotopia of Claims 2 or 3, angle die cavity, it is characterised in that: institute The bottom for stating side plate (11) is equipped with the first through hole (113) and the first pin hole (114) for being used for connecting bottom board (12), and described first is logical Hole (113) and the first pin hole (114) are arranged in same level, and the first through hole (113) and the first pin hole (114) run through Side plate (11), the top of the side plate (11) are equipped with the second through-hole (115) for being connected and fixed bar (13), second through-hole (115) run through side plate (11), first through hole (113), the first pin hole (114), the second through-hole on two blocks of side plates (11) (115) it is oppositely arranged respectively.

5. according to processing and forming tooling in a kind of any normotopia of Claims 2 or 3, angle die cavity, it is characterised in that: institute State bottom plate (12) two sides be equipped with for connecting lateral plate (11) the first threaded hole (121) and the second pin hole (122), described first Threaded hole (121) and the second pin hole (122) are arranged in pairs in the two sides of bottom plate (12), first threaded hole (121) and second Pin hole (122) is not through bottom plate (12).

6. according to processing and forming tooling in a kind of any normotopia of Claims 2 or 3, angle die cavity, it is characterised in that: institute Two the second threaded holes (131) are arranged along the central axis of fixed link (13) respectively in the both ends for stating fixed link (13), described two The structure of second threaded hole (131) is identical.

7. processing and forming tooling in a kind of normotopia according to claim 3, angle die cavity, it is characterised in that: the side plate (11) it is equipped with the third threaded hole (116) for connecting axial locating piece (3), the third threaded hole (116) runs through side plate (11) setting is equipped with to lower recess for connecting radial positioning block in the lower section of arc groove (111), the top of the side plate (11) (4) the 4th threaded hole (117), the 4th threaded hole (117) are arranged in pairs in the both ends at the top of side plate (11).

8. processing and forming tooling in a kind of normotopia according to claim 3, angle die cavity, it is characterised in that: the axial direction Locating piece (3) is equipped with the third through-hole (31) for connecting with side plate (11), and the third through-hole (31) runs through axially position Block (3), the top of the axially position block (3) are equipped with the arc surface (32) for cooperating with die cavity, and the arc surface (32) sets Set the top in arc groove (111).

9. processing and forming tooling in a kind of normotopia according to claim 3, angle die cavity, it is characterised in that: the radial direction Locating piece (4) is rectangular parallelepiped structure, and the top of the radial positioning block (4) is equipped with to lower recess for connecting with side plate (11) Fourth hole (41), the fourth hole (41) run through radial positioning block (4).