CN203973723U - A kind of upper die structure of using for die casting saggar - Google Patents
A kind of upper die structure of using for die casting saggar Download PDFInfo
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- CN203973723U CN203973723U CN201420420923.8U CN201420420923U CN203973723U CN 203973723 U CN203973723 U CN 203973723U CN 201420420923 U CN201420420923 U CN 201420420923U CN 203973723 U CN203973723 U CN 203973723U
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- upper mould
- mould core
- water channel
- cross
- filling block
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Abstract
The utility model discloses a kind of upper die structure of using for die casting saggar, comprise upper mould fixed plate and be fixed on the upper mould core of upper mould fixed plate below, described upper mould core cross section is inversion " protruding " word shape, bottom surface is provided with mold cavity, in upper mold cavity, be inlaid with filling block, in described upper mould core, be provided with cooling water channel, described cooling water channel distributes and is " well " word shape on longitudinal cross-section, comprise two cross channels and two longitudinal water channels, described cross channel is the through hole that left and right connects, described longitudinal water channel is blind hole from top to bottom, described upper mould core center is provided with discharge duct, described discharge duct runs through filling block from the bottom up successively, upper mold cavity end face, upper mould fixed plate, exhaust and good cooling results, and the saggar pore extruding is few, firmness is good.
Description
Technical field
The utility model relates to a kind of upper die structure of using for die casting saggar.
Background technology
Saggar is a kind of common kiln furnitures; when manufacturing industry is not popularized, all adopting earth to fire forms; after modern manufacturing industry development; replace traditional earth with refractory material gradually; and in manufacturing process, be also slowly evolved into the industrialization mode of production by the moulding of press die casting refractory material; often can run into die casting while utilizing press die casting time, die venting is not smooth, causes the saggar inwall pore of extrusion more, and firmness is bad.
Utility model content
The utility model technical issues that need to address are, a kind of upper die structure of using for die casting saggar is provided, exhaust and good cooling results, and also the saggar pore extruding is few, and firmness is good.
The technical solution of the utility model is: a kind of upper die structure of using for die casting saggar, comprise upper mould fixed plate and be fixed on the upper mould core of upper mould fixed plate below, described upper mould core cross section is inversion " protruding " word shape, bottom surface is provided with mold cavity, in upper mold cavity, be inlaid with filling block, in described upper mould core, be provided with cooling water channel, described cooling water channel distributes and is " well " word shape on longitudinal cross-section, comprise two cross channels and two longitudinal water channels, described cross channel is the through hole that left and right connects, described longitudinal water channel is blind hole from top to bottom, described upper mould core center is provided with discharge duct, described discharge duct runs through filling block from the bottom up successively, upper mold cavity end face, upper mould fixed plate.
Preferably, described upper mould core is die hard steel body, described filling block is modified 45# steel body, upper mould core is mainly born part because be mainly pressure, so adopt the higher die hard steel of hardness, the filling block at Er Qi center is for the effect of die casting saggar profile not obvious, so can adopt modified 45# steel that hardness is lower to reduce cost.
Preferably, described cooling water channel is distributed in filling block outside, and the main heat of press compacting refractory material concentrates on the outer surface of upper mould core, and filling block place heat is concentrated less, so cooling water channel need not pass through filling block, has also saved the technique of processing cooling water channel on filling block.
Preferably, described cooling water channel is at water inlet of the left and right of cross channel Ge Liu and delivery port, and all the other outlets are all provided with rubber stopper and stop up, and can allow so whole water route form a circuit cycle, repeat to flow.
Preferably, described discharge duct bottom is bell, facilitates air to enter discharge duct, realizes at utmost exhaust.
Adopt after the technical program, in upper mould core, inlay filling block, filling block can be lower-cost steel, reduce the cost of material of whole upper mould core, and in upper mould core, be provided with cooling water channel, core surface temperature can be not too high after repeatedly pressing down process to make upper mould core, because excess Temperature can affect the brittleness of core surface, thereby affect the mould life-span itself, finally be provided with discharge duct in the centre of upper mould core, when upper mould core is pressed down, air between upper mould core and counterdie core rod is discharged from discharge duct, air can not rested in refractory material, realize the effect that reduces the pore in finished product saggar, along with pore reduces, the firmness of saggar has just increased.
Brief description of the drawings
The overall schematic three dimensional views that accompanying drawing 1 is press die;
What accompanying drawing 2 was press die partly cuts open schematic diagram;
Accompanying drawing 3 is the cross-sectional schematic at upper mould core cooling pipe place;
Accompanying drawing 4 is upper mould core cross sectional representation;
Accompanying drawing 5 is the schematic diagram of mold insert in lower die structure;
Accompanying drawing 6 is the schematic diagram of lower die structure deadlight.
Detailed description of the invention
Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is described further:
As shown in Figures 1 to 4, a kind of upper die structure of using for die casting saggar, comprise upper mould fixed plate 51 and be fixed on the upper mould core 52 of upper mould fixed plate below, described upper mould core cross section is inversion " protruding " word shape, bottom surface is provided with mold cavity, in upper mold cavity, be inlaid with filling block 521, described upper mould core is die hard steel, described filling block is modified 45# steel, upper mould core outer surface is that main pressure is born part, so adopt the higher die hard steel of hardness, the filling block at Er Qi center is also not obvious for the effect of die casting saggar profile, so can adopt modified 45# steel that hardness is lower to reduce cost, in described upper mould core, be provided with cooling water channel 523, described cooling water channel distributes and is " well " word shape on longitudinal cross-section, comprise two cross channel 523a and two longitudinal water channel 523b, described cross channel is the through hole that left and right connects, described longitudinal water channel is blind hole from top to bottom, described upper mould core center is provided with discharge duct 522, described discharge duct runs through filling block from the bottom up successively, upper mold cavity end face, upper mould fixed plate, select as optimizing, described discharge duct bottom is bell, facilitate air to enter discharge duct, realize at utmost exhaust, adopt after the technical program, in upper mould core, inlay filling block, filling block can be lower-cost steel, reduce the cost of material of whole upper mould core, and in upper mould core, be provided with cooling water channel, core surface temperature can be not too high after repeatedly pressing down process to make upper mould core, because excess Temperature can affect the brittleness of core surface, thereby affect the mould life-span itself, finally be provided with discharge duct in the centre of upper mould core, when upper mould core is pressed down, air between upper mould core and counterdie core rod 2 is discharged from discharge duct, can be by air trapping in refractory material, realize the effect that reduces the pore in finished product saggar, along with pore reduces, the firmness of saggar has just increased.
As shown in Figure 4, described cooling water channel is distributed in filling block outside, and the main heat of press compacting refractory material concentrates on the outer surface of upper mould core, and filling block place heat is concentrated less, so cooling water channel need not pass through filling block, has also saved the technique of processing cooling water channel on filling block.
As shown in Figure 3, cooling water channel all adopts punching form to complete, described cooling water channel is at water inlet of the left and right of cross channel Ge Liu and delivery port, all the other outlets are all provided with rubber stopper and stop up, flow graph can be as seen from Figure 3, current enter from the water inlet in the upper left corner, first point of prong shunting, part water continues to turn right along cross channel mobile, another part water longitudinally water channel toward current downflow, while flowing to blind hole bottommost, this part water transfers to flow toward the cross channel of below, while flowing to rightmost, because one of them outlet is plugged, water can converge from delivery port and flow out previously in mobile water in cross channel, delivery port and water inlet can select arbitrarily in two side outlets in cross channel, do not limited to, can connect a water pipe and water pump at delivery port, allow the water flowing out continue to receive on water inlet, can allow so whole water route form a circuit cycle, repeat to flow.
What mated upper mould core below is lower die structure, comprise counterdie housing 1, in the middle of counterdie housing, it is counterdie core rod 2, counterdie core rod top coupling has upper mould core 52, upper mould core 52 is fixed on upper mould fixed plate 51 bottoms, counterdie housing below is provided with backing plate 31, backing plate and press bed face 32 are fixing, described counterdie core rod is float mould core structure, formed with counterdie float mould core 22 by the fixing core rod 21 of counterdie, the fixing core rod of counterdie is close to press bed face, the fixing core rod of counterdie top is provided with core rod inner chamber 211, core rod intracavity bottom is provided with through hole, counterdie float mould core is built in core rod inner chamber, the degree of depth of core rod inner chamber is consistent with the height of counterdie float mould core, when matched moulds, counterdie fixed die core end face and counterdie float mould core end face are in same level, counterdie float mould core bottom is provided with center and takes blame for others 23, take blame for others and extend to press bed face below through the through hole of the fixing core rod of counterdie in center, in the time that upper mould core leaves counterdie core rod, take blame for others counterdie float mould core pushed up to extreme higher position in center, with the blanking of handled easily work, between described counterdie housing inwall and counterdie core rod outer wall, be respectively equipped with 4 facing-wall boards 24, the inwall of counterdie housing is difficult to processing with grinding machine, the general mode that adopts line cutting or machining center milling, the counterdie housing inwall processing by these two kinds of modes is more coarse, if do not established in the situation of wallboard, the degree of roughness of counterdie inwall directly has influence on the surface roughness of the saggar 4 of extrusion, and too coarse inwall also easily causes the demoulding to have some setbacks, well solve this problem by the structure of 4 facing-wall boards, wallboard can be processed with surface grinding machine separately, the surfaces of wall processing is very smooth, after processing, be located at again between counterdie housing inwall and counterdie core rod, 4 facing-wall boards are connected and fixed with mold insert 25 at four edges, adopt this lower die structure, counterdie core rod is relocation mechanism, after each press die casting finishes, counterdie core rod can rise, now the position of counterdie core rod is closer from operative employee, handled easily work is placed into refractory material on the surface of counterdie core rod, that can also disperse is more even simultaneously, and traditional counterdie core rod is deep, if directly mode arrives darker counterdie core rod blanking by hand, first security can not obtain effective guarantee, secondly like this when blanking because the factor such as light is darker, operative employee cannot ensure uniform blanking, the final saggar became uneven that easily causes extrusion, utilize floating type this problem that well solved, when upper mould core is depressed into counterdie core rod, counterdie core rod can and then press down, while being depressed into bottommost, counterdie core rod stops descending, now upper mould core continues descending, be distributed in the most at last the refractory material compaction moulding on counterdie core rod.
In the middle of described counterdie housing and backing plate, be provided with compound plate 33, the outer frame bottom of described wallboard and counterdie is all screwed on compound plate, install compound plate rear wall plate additional and counterdie housing can be fixed on compound plate, if do not establish compound plate, fixed form between wallboard and counterdie housing can only be carried out thread mill drilling in surfaces of wall or counterdie housing side, this has obviously increased difficulty of processing, because the thickness of wallboard own is little, inconvenient thread mill drilling, and thickness is very thick between counterdie housing outer wall and inwall, thread mill drilling is also inconvenient.Described wallboard two sides are provided with raised line, and raised line and draw-in groove are fixed.
As shown in Figure 5 and Figure 6, described mold insert is rectangular cylinder, square-section wherein two diagonal angles is provided with interior concave arc 25, in one of them, concave arc is in order to reduce the difficulty that coordinates between mold insert and counterdie housing inwall, concave arc is to coordinate saggar profile and establish in another, 4 mold inserts are all made same structure, to facilitate mutual replacing, four sides of cylinder are equipped with draw-in groove and are conveniently connected spacing with wallboard, kernel of section is provided with tapped through hole and realizes with compound plate 33 fixing, and, described mold insert and the height of wallboard are higher than the height of counterdie housing, so after design, when upper mould core is depressed into matched moulds, upper mould fixed plate 51 is depressed into the end face of mold insert and wallboard, instead of the end face of counterdie housing, because the general softer steel of material that adopt of counterdie housing, if repeatedly pressed down and can produce distortion by patrix, thereby affect the stroke that presses down of patrix.
The mechanism that lower die structure Zhong takes blame for others at center adopts the form of hydraulic jacking cylinder, this pushing method precision is higher, also can adopt the mechanism of cylinder ejector rod outer cover back-moving spring, this mechanism is a kind of low before in precision, but the more convenient dismounting of this mechanism, is highly suitable for needing often more under the operating mode of mold exchange, to use
Below only with regard to the utility model preferably example be described, but can not be interpreted as it is limitations on claims.The utility model not only limits to and above example, its concrete structure allows to change, those skilled in the art can make various changes and distortion according to the utility model, only otherwise depart from spirit of the present utility model, all should belong to the defined scope of the utility model claims.
Claims (5)
1. a upper die structure of using for die casting saggar, comprise upper mould fixed plate (51) and be fixed on the upper mould core (52) of upper mould fixed plate below, it is characterized in that: described upper mould core cross section is inversion " protruding " word shape, bottom surface is provided with mold cavity, in upper mold cavity, be inlaid with filling block (521), in described upper mould core, be provided with cooling water channel (523), described cooling water channel distributes and is " well " word shape on longitudinal cross-section, comprise two cross channels (523a) and two longitudinal water channels (523b), described cross channel is the through hole that left and right connects, described longitudinal water channel is blind hole from top to bottom, described upper mould core center is provided with discharge duct (522), described discharge duct runs through filling block from the bottom up successively, upper mold cavity end face, upper mould fixed plate.
2. a kind of upper die structure of using for die casting saggar according to claim 1, is characterized in that: described upper mould core is die hard steel body, and described filling block is modified 45# steel body.
3. a kind of upper die structure of using for die casting saggar according to claim 2, is characterized in that: described cooling water channel is distributed in filling block outside.
4. a kind of upper die structure of using for die casting saggar according to claim 3, is characterized in that: described cooling water channel is at water inlet of the left and right of cross channel Ge Liu and delivery port, and all the other outlets are all provided with rubber stopper and stop up.
5. a kind of upper die structure of using for die casting saggar according to claim 4, is characterized in that: shown in discharge duct bottom be bell.
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CN201420420923.8U CN203973723U (en) | 2014-07-29 | 2014-07-29 | A kind of upper die structure of using for die casting saggar |
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CN201420420923.8U CN203973723U (en) | 2014-07-29 | 2014-07-29 | A kind of upper die structure of using for die casting saggar |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104149178A (en) * | 2014-07-29 | 2014-11-19 | 浙江立鑫高温耐火材料有限公司 | Upper die structure used for pressure casting of saggars |
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2014
- 2014-07-29 CN CN201420420923.8U patent/CN203973723U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104149178A (en) * | 2014-07-29 | 2014-11-19 | 浙江立鑫高温耐火材料有限公司 | Upper die structure used for pressure casting of saggars |
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Granted publication date: 20141203 Termination date: 20150729 |
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