CN217046833U - Dry method functional ceramic powder forming die - Google Patents

Abstract

The utility model belongs to the technical field of functional ceramic materials, in particular to the field of a dry method functional ceramic powder forming die, which comprises a die base and a female die plate, wherein the upper surface of the die base is provided with a guide light post, the interior of the die base is provided with a spring I, a polish rod is arranged above the spring I, the top of the polish rod is provided with a male die plate, the bottom of the male die plate is provided with a hydraulic cylinder, the middle part of the male die plate is provided with a male die core, the outer side of the male die core is provided with a fixing bolt I, an ejector rod is arranged below the male die core, the female die plate is arranged at the middle part of the guide light post, the interior of the female die plate is provided with a spring II, the lower part of the spring II is provided with a guide post, the middle part of the female die plate is provided with a female die core, the lower part of the female die core is provided with a fixing bolt II, the interior of the female die plate is provided with a dust removing fan, the female die plate is pushed to slide along the guide light post by a pressing device, the female die plate can be guided through the guide pillar and the second spring, and accuracy in die assembly can be effectively guaranteed.

Description

Dry method functional ceramic powder forming die

Technical Field

The utility model belongs to the technical field of functional ceramic material, concretely relates to dry process functional ceramic powder forming die.

Background

Functional ceramic materials, which are materials that primarily utilize their non-mechanical properties when applied, typically have one or more functions, such as electrical, magnetic, optical, thermal, chemical, biological, etc.; some have coupling functions, such as piezoelectric, piezomagnetic, pyroelectric, electrooptical, acousto-optic, magneto-optic, etc. With the rapid development of material science, various new properties and new applications of functional ceramic materials are continuously known and actively developed.

SUMMERY OF THE UTILITY MODEL

The existing dry method functional ceramic powder forming die is not convenient for ensuring the accuracy of the die assembly of the male die and the female die in the using process, and reduces the practicability of the device. The utility model provides a dry process function ceramic powder forming die promotes the die plate through suppression device and slides along the direction light column, can lead to the die plate through guide pillar and spring two, accuracy when can effectively guaranteeing the compound die.

The utility model provides a following technical scheme: a dry method functional ceramic powder forming die comprises a die base and a mother template, wherein a guide light column is arranged on the upper surface of the die base, a first spring is arranged inside the mould base, a polished rod is arranged above the first spring, a male template is arranged at the top of the polished rod, a hydraulic cylinder is arranged at the bottom of the male template, and the middle part of the male template is provided with a male die core, the outer side of the male die core is provided with a first fixing bolt, and a mandril is arranged below the male die core, the female die plate is arranged in the middle of the guide light column, a second spring is arranged in the female die plate, a guide post is arranged below the second spring, a female die core is arranged in the middle of the female die plate, and a second fixing bolt is arranged below the female die core, an ash removing fan is arranged inside the female die plate, and a die top plate is arranged at the top of the guide light column.

The guide light columns are equidistantly distributed above the mold base, welding integration is adopted between the guide light columns and the mold base, the number of the guide light columns is four, the four guide light columns are equidistantly distributed above the mold base, the alignment accuracy of the male mold and the female mold during mold closing can be guaranteed, and the guide light columns and the mold base are welded integration to enable the guide light columns and the mold base to be connected more firmly and reliably.

The polished rod and the male template are arranged in a welding integrated mode, the male template and the mold base are arranged in a parallel mode, the polished rod and the male template can be connected more firmly and reliably through the welding integrated mode, and the male template and the mold base are arranged in a parallel mode, so that the male template can be more stable when the male template is lifted.

The lifting installation structure is formed between the male template and the guide light post through the hydraulic cylinder, the hydraulic cylinder is symmetrically arranged about the center line of the male template, the male template can be driven to lift along the guide light post through the hydraulic cylinder, the device can be conveniently demoulded, and the hydraulic cylinder is symmetrically arranged about the center line of the male template, so that the hydraulic cylinder can drive the male template to lift.

The core insert and the core template are in threaded connection through the first fixing bolts, the first fixing bolts are symmetrically arranged relative to the center line of the core insert, the core insert and the core template can be fixed through the first fixing bolts, the position of the core insert can be conveniently and quickly fixed, the core insert can be conveniently replaced, and the first fixing bolts are symmetrically arranged relative to the center line of the core insert, so that the fixing of the fixing bolts relative to the position of the core insert is more stable and firmer.

The female die plate and the male die plate are arranged in parallel, the female die plate and the second spring are arranged in a welding integration mode, the mutual parallel arrangement enables the device to be more accurate and reliable in die assembly, and the female die plate and the second spring are arranged in a welding integration mode so that the female die plate can be prevented from being separated from the female die plate when the second spring rises.

The female die comprises a female die core and a female die core, wherein the female die core is in threaded connection with the female die core through a second fixing bolt, the second fixing bolt is equidistantly distributed below the female die core, the second fixing bolt is more reliably and firmly fixed to the positions of the second female die core through the threaded connection between the second fixing bolt and the female die core, and the second fixing bolt is equidistantly distributed to enable the second fixing bolt to be more stably and firmly fixed to the positions of the second female die core and the female die plate.

The mould top plate and the guide light column are integrally arranged in a welding mode, a through hole is formed in the middle of the mould top plate, the mould top plate and the guide light column are integrally arranged in a welding mode to enable the mould top plate and the guide light column to be connected more firmly and reliably, and the through hole in the middle of the mould top plate can facilitate the pressing device to be connected with the female mould plate.

The beneficial effects of the utility model are that: when the dry method functional ceramic powder forming die is used, the power end of the pressing device is connected with the female die plate, ceramic powder is placed into the male die core, the female die plate is pushed by the pressing device to slide along the guide light column, the female die plate can be guided by the guide column and the spring II, and the verticality between the guide light column and the die base can be ensured by adopting welding integration between the guide light column and the die base and the die top plate, so that the accuracy in die assembly can be effectively ensured, and the occurrence of a dislocation phenomenon of the die is avoided;

after pressing is finished, the pressing device drives the female die plate to ascend, the hydraulic cylinder drives the male die plate to descend along the guide light post and the polished rod, the male die plate can be guaranteed to descend stably, the ejector rods can push the formed ceramic out of the inner part of the male die core, the formed ceramic pushing-out device can be conveniently and accurately pushed out, after the formed ceramic is pushed out, ceramic powder remaining on the upper surface of the male die plate can be removed through the ash removing fan, and the influence of the remaining ceramic powder on next pressing is avoided;

when the male die core and the female die core need to be replaced, the male die core and the female die core can be conveniently and quickly replaced by only unscrewing the first fixing bolt and the second fixing bolt to release the fixation of the positions of the male die core and the female die core.

The parts of the device not involved are the same as or can be implemented using prior art.

Drawings

Fig. 1 is a schematic view of the overall front view structure of the present invention;

fig. 2 is a schematic overall top view structure of the present invention;

FIG. 3 is a schematic view of the enlarged structure of the female mold shaft of the present invention;

fig. 4 is a schematic view of the enlarged structure of the male mold shaft of the present invention;

in the figure: 1. a mold base; 2. a guiding light beam; 3. a first spring; 4. a polish rod; 5. a male template; 6. a hydraulic cylinder; 7. a core insert; 8. fixing a first bolt; 9. a top rod; 10. a master template; 11. a second spring; 12. a guide post; 13. a cavity insert; 14. fixing a second bolt; 15. a dust removing fan; 16. and (7) a mold top plate.

Detailed Description

Referring to fig. 1-4, the present invention provides the following technical solutions: a dry method functional ceramic powder forming die comprises a die base 1 and a female die plate 10, wherein a guide light post 2 is mounted on the upper surface of the die base 1, a spring I3 is mounted inside the die base 1, a polished rod 4 is mounted above the spring I3, a male die plate 5 is mounted at the top of the polished rod 4, a hydraulic cylinder 6 is mounted at the bottom of the male die plate 5, a male die core 7 is mounted at the middle part of the male die plate 5, a fixing bolt I8 is mounted on the outer side of the male die core 7, an ejector rod 9 is mounted below the male die core 7, the female die plate 10 is mounted at the middle part of the guide light post 2, a spring II 11 is mounted inside the female die plate 10, a guide pillar 12 is arranged below the spring II 11, a female die core 13 is mounted at the middle part of the female die plate 10, a fixing bolt II 14 is mounted below the female die core 13, and a dust removing fan 15 is mounted inside the female die plate 10, the top of the guide light pillar 2 is provided with a mold top plate 16.

In this embodiment:

the equal interval distribution of direction light column 2 is in the top of mould base 1, and adopts welding integration to set up between direction light column 2 and the mould base 1 to the quantity of direction light column 2 is four, and four equidistant distributions of direction light column 2 are in the top of mould base 1, and the accuracy that public mould and master model counterpoint when can guaranteeing the compound die, and direction light column 2 can make the connection between direction light column 2 and the mould base 1 more firm reliable with 1 welding integration settings of mould base.

Adopt welding integration to set up between polished rod 4 and the public template 5, and adopt mutual parallel arrangement between public template 5 and the mould base 1, welding integration sets up can make the connection between polished rod 4 and the public template 5 more firm reliable, and public template 5 and the mutual parallel arrangement of mould base 1 can make public template 5 more steady when going up and down.

Constitute lift mounting structure through pneumatic cylinder 6 between public template 5 and the direction light post 2, and pneumatic cylinder 6 sets up about the 5 central lines of public template symmetry, can drive public template 5 through pneumatic cylinder 6 and go up and down along direction light post 2, can facilitate device's drawing of patterns, and pneumatic cylinder 6 sets up about the 5 central lines of public template symmetry and can make pneumatic cylinder 6 drive public template 5 go up and down when more.

The core insert 7 and the core plate 5 are in threaded connection through the first fixing bolt 8, the first fixing bolt 8 is symmetrically arranged relative to the central line of the core insert 7, the core insert 7 and the core plate 5 can be fixed through the first fixing bolt 8, the position of the core insert 7 can be conveniently and quickly fixed, the core insert 7 can be conveniently replaced, and the first fixing bolt 8 is symmetrically arranged relative to the central line of the core insert 7, so that the fixing of the first fixing bolt 8 to the position of the core insert 7 is stable and firm.

Adopt mutual parallel arrangement between female template 10 and the public template 5, and adopt welding integration setting between female template 10 and the second 11 springs, mutual parallel arrangement can make the device more accurate reliable when the compound die, female template 10 and the second 11 springs adopt welding integration setting can avoid female template 10 to break away from female template 10 at the second 11 springs that rise.

The female die plate 10 and the female die core 13 are in threaded connection through the second fixing bolts 14, the second fixing bolts 14 are distributed below the female die core 13 at equal intervals, the second fixing bolts 14 can fix the position of the female die core 13 more reliably and firmly through the threaded connection between the second fixing bolts 14 and the female die core 13, and the second fixing bolts 14 can fix the position of the female die core 13 and the position of the female die plate 10 more stably and firmly through the equal interval distribution of the second fixing bolts 14.

Adopt welding integration to set up between mould roof 16 and the direction light post 2, and the through-hole has been seted up to the middle part of mould roof 16, and mould roof 16 can make the connection between mould roof 16 and the direction light post 2 more firm reliable with direction light post 2 welding integration setting, and the through-hole in the middle of the mould roof 16 can make things convenient for the suppression device to be connected with mother's template 10.

The utility model discloses a theory of operation and use flow: when the dry method functional ceramic powder forming die is used, the power end of a pressing device is connected with a female die plate 10, ceramic powder is placed into the inner part of a male die core 7, the female die plate 10 is pushed to slide along a guide light post 2 by the pressing device, the female die plate 10 can be guided by a guide post 12 and a spring II 11, the verticality between the guide light post 2 and the die base 1 can be ensured by adopting welding integration arrangement between the guide light post 2 and the die base 1 and a die top plate 16, the accuracy in die assembly can be effectively ensured, the occurrence of dislocation phenomenon of the die is avoided, after pressing is completed, the pressing device drives the female die plate 10 to ascend, a hydraulic cylinder 6 drives the male die plate 5 to descend along the guide light post 2 and a polished rod 4, the stable descending of the male die plate 5 can be ensured, a mandril 9 can push the formed ceramic out of the inner part of the male die core 7, and the formed ceramic can be conveniently and accurately pushed out by the device, after the pottery after will the shaping is released, can get rid of the remaining ceramic powder of male template 5 upper surface through dust removal fan 15, avoid remaining ceramic powder to influence and once press down, when needs are changed male mold insert 13 and cavity insert 7, only need screw out fixing bolt one 8 and fixing bolt two 14 to relieve the fixed to male mold insert 7 and cavity insert 13 position, can reach the change to male mold insert 7 and cavity insert 13 that convenient quick.

Claims (8)

1. The utility model provides a dry process function ceramic powder forming die which characterized in that: the mould comprises a mould base and a female mould plate, wherein a guide light post is mounted on the upper surface of the mould base, a first spring is mounted inside the mould base, a polished rod is mounted above the first spring, a male mould plate is mounted at the top of the polished rod, a hydraulic cylinder is mounted at the bottom of the male mould plate, a male mould core is mounted in the middle of the male mould core, a first fixing bolt is mounted outside the male mould core, an ejector rod is mounted below the male mould core, the female mould plate is mounted in the middle of the guide light post, a second spring is mounted inside the female mould plate, a guide pillar is arranged below the second spring, a female mould core is mounted in the middle of the female mould plate, a second fixing bolt is mounted below the female mould core, an ash removing fan is mounted inside the female mould plate, and a mould top plate is mounted at the top of the guide light post.

2. The dry-process functional ceramic powder forming die of claim 1, wherein: the guide light columns are distributed above the die base at equal intervals, the guide light columns and the die base are integrally welded, and the number of the guide light columns is four.

3. The dry method functional ceramic powder forming die of claim 1, wherein: the polished rod and the male template are integrally welded, and the male template and the mold base are arranged in parallel.

4. The dry method functional ceramic powder forming die of claim 1, wherein: and a lifting installation structure is formed between the male template and the guide light column through a hydraulic cylinder, and the hydraulic cylinders are symmetrically arranged relative to the center line of the male template.

5. The dry-process functional ceramic powder forming die of claim 1, wherein: the male die core and the male die plate are in threaded connection through a first fixing bolt, and the first fixing bolt is symmetrically arranged around the central line of the male die core.

6. The dry method functional ceramic powder forming die of claim 1, wherein: the female template and the male template are arranged in parallel, and the female template and the second spring are integrally welded.

7. The dry-process functional ceramic powder forming die of claim 1, wherein: the female template is in threaded connection with the female die core through the second fixing bolts, and the second fixing bolts are equidistantly distributed below the female die core.

8. The dry-process functional ceramic powder forming die of claim 1, wherein: the die top plate and the guide light pillar are integrally welded, and a through hole is formed in the middle of the die top plate.

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