Common mold frame for injection mold
Technical Field
The utility model relates to an injection mold technical field, concretely relates to sharing type die carrier for injection mold.
Background
The application of the mould relates to each product in production and life, as long as a large number of products can be produced by the mould, the mould frame is an important part of the mould, the precision requirement of the mould frame can be determined according to different levels and product requirements, the mould frame is a semi-finished product of the mould and consists of various different steel plate matching parts, the mould frame can be a framework of the whole set of mould, and because the processing related to the mould frame and the mould has great difference, a mould manufacturer can choose to order the mould frame to a mould frame manufacturer, and the production advantages of the two parties are utilized to improve the overall production quality and efficiency.
In the existing mold manufacturing technology, each set of mold can only produce one product, the commonality of the mold and the template is low, once the corresponding product stops production, the whole set of mold can be scrapped, so that the development cost of the mold is overhigh, and the manufacturing cost of the mold product is increased.
Disclosure of Invention
The utility model discloses mainly solve exist not enough among the prior art, provide a sharing type die carrier for injection mold, can match different moulds through sharing die carrier, when can reducing the mould and assemble, the use of accessory, the die carrier can carry out different utilization, can utilize on different moulds to guarantee the injection molding of different moulds, with this saving cost, reduce the wasting of resources.
The above technical problem of the utility model is mainly solved through the following technical scheme:
the utility model provides a sharing type die carrier for injection mold, includes the die base, die base upper end be equipped with the cover half seat, the cover half seat in be equipped with cover half seat looks bolted connection fixed chamber mould benevolence of moulding plastics, chamber mould benevolence lower part of moulding plastics be equipped with the feed port of moulding plastics, chamber mould benevolence top of moulding plastics be equipped with the die carrier, last die carrier upper end be equipped with last die carrier looks bolted connection's lift cylinder flange dish, last die carrier and cover half seat between be equipped with the movable mould benevolence of the chamber mould benevolence movable crimping mutually of moulding plastics, movable mould benevolence both sides all be equipped with the buffer block, buffer block and cover half seat between all be equipped with the buffering subassembly.
Preferably, the buffer assembly comprises a supporting shaft in limited sleeving with the buffer block and the fixed die holder, and buffer springs I in limited sleeving with the buffer block and the fixed die holder are respectively arranged between the supporting shaft and the buffer block and between the supporting shaft and the fixed die holder.
Preferably, ejector blocks are arranged between the buffer spring I and the buffer block and between the buffer spring I and the fixed die holder.
Preferably, the supporting shaft is of an I-shaped structure.
Preferably, the two sides of the fixed die base are respectively provided with an auxiliary guide assembly which is fixedly connected with the upper die base through a bolt, and the two sides of the upper part of the die base are respectively provided with a bolt which is fixedly connected with the auxiliary guide assembly in an inserting and embedding type limiting manner.
Preferably, the auxiliary guide assembly comprises a guide sleeve, a buffer spring II is arranged in the guide sleeve, a guide post in limiting and sleeving connection with the guide sleeve is arranged between the buffer spring II and the upper die frame, and a support rod in limiting and sleeving connection with the guide sleeve is arranged between the buffer spring II and the bolt.
Preferably, an installation plate fixedly connected with the fixed die holder through bolts is arranged between the guide sleeve and the fixed die holder, and the installation plate and the guide sleeve are in an integrated welding structure.
Preferably, a connecting template is arranged between the movable mold core and the upper mold frame, and the connecting template, the upper mold frame and the movable mold core are fixedly connected through counter bore screws.
Preferably, a positioning column movably inserted and sleeved with the connecting template and the movable mold core is arranged between the injection molding cavity mold core and the fixed mold base.
The utility model discloses can reach following effect:
the utility model provides a sharing type die carrier for injection mold, compare with prior art, can match different moulds through sharing die carrier, be connected sharing die carrier and mould, can be so that when carrying out the use of mould, reduce the use of mould structure, when carrying out the manufacturing use of mould, can use sharing mould to cooperate, can reduce when the mould is assembled, the use of accessory, the die carrier can carry out different utilizations, can apply to different moulds, can install the mould of different specifications, and guarantee the injection moulding work of different moulds, with this saving cost, reduce the wasting of resources.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a schematic structural diagram of the buffer assembly of the present invention.
Fig. 3 is a schematic structural diagram of the auxiliary guide assembly of the present invention.
In the figure: go up die carrier 1, lift cylinder flange 2, connection template 3, movable mould benevolence 4, buffer block 5, buffer assembly 6, supplementary direction subassembly 7, bolt 8, cover half seat 9, mould base 10, mould benevolence 11 of the chamber of moulding plastics, feed port 12 of moulding plastics, reference column 13, kicking block 14, buffer spring I15, back shaft 16, guide post 17, mounting panel 18, buffer spring II 19, vaulting pole 20, uide bushing 21.
Detailed Description
The technical solution of the present invention is further specifically described below by way of examples and with reference to the accompanying drawings.
The embodiment is as follows: as shown in fig. 1, 2 and 3, a common mold base for an injection mold comprises a mold base 10, a fixed mold base 9 is arranged at the upper end of the mold base 10, an injection mold cavity 11 fixed to the fixed mold base 9 through bolt connection is arranged in the fixed mold base 9, and a positioning column 13 movably inserted and sleeved with a connecting template 3 and a movable mold core 4 is arranged between the injection mold cavity 11 and the fixed mold base 9. The lower part of the injection molding cavity die core 11 is provided with an injection molding feed hole 12, the upper part of the injection molding cavity die core 11 is provided with an upper die frame 1, the two sides of the fixed die base 9 are respectively provided with an auxiliary guide component 7 which is fixedly connected with the upper die frame 1 through bolts, and the two sides of the upper part of the die base 10 are respectively provided with a bolt 8 which is fixedly connected with the auxiliary guide component 7 in an inserted and embedded limiting manner. The auxiliary guide assembly 7 comprises a guide sleeve 21, a buffer spring II 19 is arranged in the guide sleeve 21, a guide column 17 in limited sleeving connection with the guide sleeve 21 is arranged between the buffer spring II 19 and the upper die frame 1, and a support rod 20 in limited sleeving connection with the guide sleeve 21 is arranged between the buffer spring II 19 and the bolt 8. An installation plate 18 fixedly connected with the fixed die holder 9 through bolts is arranged between the guide sleeve 21 and the fixed die holder 9, and the installation plate 18 and the guide sleeve 21 are in an integrated welding structure. The upper end of the upper die frame 1 is provided with a lifting oil cylinder connecting flange 2 connected with the upper die frame 1 through bolts, a movable die core 4 movably connected with an injection molding cavity die core 11 in a pressing mode is arranged between the upper die frame 1 and the fixed die base 9, a connecting template 3 is arranged between the movable die core 4 and the upper die frame 1, and the connecting template 3, the upper die frame 1 and the movable die core 4 are fixedly connected through counter bore screws. The two sides of the movable die core 4 are both provided with a buffer block 5, and a buffer component 6 is arranged between the buffer block 5 and the fixed die seat 9. The buffer component 6 comprises a supporting shaft 16 which is in limited sleeve connection with the buffer block 5 and the fixed die seat 9, and the supporting shaft 16 is in an I-shaped structure. And buffer springs I15 which are sleeved with the buffer block 5 and the fixed die holder 9 are respectively arranged between the support shaft 16 and the buffer block 5 and between the support shaft 16 and the fixed die holder 9. Between buffer spring I15 and buffer block 5, all be equipped with kicking block 14 between buffer spring I15 and cover half seat 9. According to the product demand, through changing movable mould benevolence 4 and injection molding chamber mould benevolence 11, injection mold's die carrier realizes sharing function.
To sum up, this a sharing type die carrier for injection mold can match different moulds through sharing the die carrier, will share die carrier and mould and be connected, can be so that when carrying out the use of mould, reduce the use of mould structure, when carrying out the manufacturing use of mould, can use sharing mould to cooperate, can reduce the mould and assemble the time, the use of accessory, the die carrier can carry out different utilization, can apply to different moulds, can install the mould of different specifications, and guarantee the injection molding work of different moulds, with this saving cost, reduce the wasting of resources.
It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without deviating from the basic characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
In conclusion, the above description is only the specific embodiment of the present invention, but the structural features of the present invention are not limited thereto, and any person skilled in the art can make changes or modifications within the scope of the present invention.