CN1039393C

CN1039393C - Tool for the isostatic pressing of handled containers

Info

Publication number: CN1039393C
Application number: CN94190175A
Authority: CN
Inventors: O·格兰茨; H·施庞塞尔
Original assignee: Erich Netzsch GmbH and Co Holding KG
Current assignee: Erich Netzsch GmbH and Co Holding KG
Priority date: 1993-04-08
Filing date: 1994-04-06
Publication date: 1998-08-05
Anticipated expiration: 2014-04-06
Also published as: JPH08504140A; CN1104409A; EP0644819B1; DE4311771A1; EP0644819A1; WO1994023917A1; DE59405294D1

Abstract

The tool has a female mould (14), a male mould (54) and a one-piece diaphragm (20) arranged between them which is complementary to the outside of the container and has a radial swelling (24) with two opposite side pieces (26) for each handle. On the inside, the side pieces (26) each have a projection (28) to form a grip aperture in the handle. An adjusting device (40) presses the side pieces (26) together before the introduction of the material to be pressed into the tool and during the pressing process in such a way that the projections (28) adjoin. As a result, only a thin flash remains in the grip aperture which can easily be smoothed off. To remove the pressed handled container, the adjusting device (40) moves the side pieces (26) apart until the space between the projections (28) is wider than the handle.

Description

Mould in static pressure press belt handle container

The present invention relates to a kind of mould that static pressure such as powdery or feed particulate material is compressed to band handle container, it has a former, a formpiston and is located at their monoblock type films between the two, the profile complementation of its shape and container, be provided with one in order to constitute a handle and have two radial protrusions of sidepiece opposite one another, the projection on the sidepiece is used for extruding one at the handle patrix and grabs the cave.

The problem that exists in such known mould (DE3626365A1) is, that makes on the sidepiece of film projection can only may be seen indistinctly in order to be molded into the projection of grabbing the cave on handle, because under the very significant situation of projection of compacting, will bring very big danger, promptly when the band handle container of mold pressing took out from mould, handle can be damaged.Therefore, get in mold pressing and to have stayed a roomy free space between the very shallow projection, when this known mould was full of, powdery or feed particulate material entered wherein, and then when waiting static pressure to suppress in this space by compression.So on handle, can not form the cave of grabbing of perforation; What stay is a thicker next door, this next door must be run through when and then leveling the band handle container of compacting, and leave over down thicker burr, and these burrs must take a long time and consume many instruments and just can remove.

Become known for waiting in the mould (DE3304576A1) of static pressure press belt handle container at another kind, people attempt Yojimbo and make the cave of grabbing that connects on the handle, the closing direction of axle horizontal compacting tool set before actual pressing process inserts in the former, and surrounded by additional film of a hose-like, after mould is full of the powdery ceramic material, from film internal action hydraulic pressure, meanwhile, the main part of band handle container waits the static pressure compacting by means of the main film that a bag is enclosing the mould formpiston.The manufacturing and the operating cost height of this known pressing die, and on the handle of the band handle container that is pressed into, stay a pair of horizontal burr, they constitute around additional film, thereby require the expense of additional deburring.

The objective of the invention is to design a kind of being used for powdery or feed particulate material, especially ceramic material, be pressed into the mould of band handle container Deng static pressure, make the container of in this mould, suppressing with one or more handles, do not damage and jeopardously from mould, take out, and available less expense removes burr, and this expense can not be higher than the expense that is taken place usually when the oral area edge of finishing container.

According to the invention provides a kind of mould with static pressure press belt handle containers such as powdery or granular materials, mould has a formpiston and a former and is contained in monoblock type film between them, the shape of film and the complementation of container profile, and it has a radial protrusion to each handle, be raised with two sidepieces opposite one another, design the promising projection of grabbing the cave that on handle, constitutes on the sidepiece, for sidepiece is provided with an adjusting device, this adjusting device can be handled, before in mould, adding the material that to suppress and in pressing process, make very near that projection leans on each other, make a projection Cheng Youyi separated from each other spacing after pressing process finishes, the Breadth Maximum that this distance is suppressed handle at least to some extent is so big.

Adjusting device prevents to stay next spacing between projection, this spacing is greatly to entering a large amount of powderies or granular material when the mould filling therein.Therefore, at the burr that generally only stays trace in the cave of grabbing of each handle of hold-down container, under worst situation very thin one deck burr, the therefore a spot of expense of need only when be the container burring.On the other hand, adjusting device is used for will separating enough widely built in the projection on the film sidepiece after pressing process finishes, and makes at the handle that constitutes between the sidepiece not to be damaged when taking out band handle container from mould.

With reference to the accompanying drawings to the embodiments of the invention detailed explanation of making comparisons.

Wherein:

Fig. 1 waits the axial section of first kind of embodiment of mould of static pressure press belt handle container;

Amplify part among Fig. 2 Fig. 1;

III-III part section among Fig. 3 Fig. 2;

IV-IV part section among Fig. 4 Fig. 2;

Among second kind of embodiment of Fig. 5 before suppressing with the corresponding partial view of Fig. 2;

The partial view that Fig. 5 a is identical with Fig. 5, but be in etc. in the static pressure pressing process;

The partial view that Fig. 5 b is identical with Fig. 5 and 5a, but be in shape after the firm compacting

Attitude;

Among Fig. 6 the third embodiment before suppressing with the corresponding partial view of Fig. 2;

The partial view that Fig. 6 a is identical with Fig. 6, but be in etc. in the static pressure pressing process;

The partial view that Fig. 6 b is identical with Fig. 6, but be in state after the firm compacting;

The 4th kind of axial section left side of embodiment in pressing process of Fig. 7;

VIII-VIII section among Fig. 8 Fig. 7;

The section that Fig. 8 a is identical with Fig. 8, but after being in compacting;

The axial section right-hand part of the 5th kind of embodiment of Fig. 9 in pressing process; And

X-X section among Figure 10 Fig. 9.

Represented mould has the mould bottom 10 of a peviform among Fig. 1 to 4, is shaped on the fluid passage 12 of introducing a kind of liquid in the bottom 10, and when waiting static pressure press ceramic powder or particle, fluid pressure for example is 280 crust usually.The former 14 of packing in the mould bottom 10 has a cavity 16 that communicates with fluid passage 12 in the former.Cavity 16 is rotational symmetric with respect to axis A basically, and axis A is consistent with the switching direction of mould.Extending a clamping ring 18 around former 14, it with common way for example screw be fixed on the mould bottom, and liquid grips one hermetically by the following film 20 of resilient rubber-like plastic material system externally marginal zone radially.

Following film 20 has one with respect to the rotational symmetric main part 22 of axis A, and have a pair of each other along the opposed radial protrusion 24 of diameter, in order to the compacting container on constitute handle, container is a soup bowl among the embodiment shown in the figure.It is symmetrical at interior public plane of symmetry B that these two radial protrusions 24 comprise axis A with respect to one, and two radially sidepieces 26 are basically respectively arranged, and there is a projection 28 with planar end surface each sidepiece the inside.Grab the shape and size in cave on the handle that these two projections have been determined will suppress jointly in relevant radial protrusion 24.

Imbedded the girth member 30 of " U " shape in each of this two radial protrusions 24, it has a pair of elastic arm 32 that is arranged essentially parallel to plane of symmetry B, and has one with two interconnected bottoms 34 that are essentially rigidity of arm.Press shown in Fig. 1 to 4, bottom 34 be positioned at radial protrusion 24 below, also in other words, it is not embedded in the material of rubber-like, so film 20 and radial protrusion 24 thereof have been made an integral body.In addition, in each radial protrusion 24, can imbed a following girth member 36 and one and add firmware 38.All

girth members

30,36 and 38 can be made by the most handy spring steel.

Girth

member

30,36 and 38 on each of 20 two radial protrusions 24 of the film shown in Fig. 1 to 4 all is the part of adjusting device 40, this adjusting device 40 can be selectively with two each other with its planar end surface opposed projection 28 be fixed on in a certain distance apart from one another the position, this distance is greater than the handle width of being suppressed, or these two projections are pressed to the planar end surface that makes them stays the gap against each other and not.Shown in Fig. 1 to 4, each adjusting device 40 has pair of pistons-cylinder component 42, and this assembly is contained in the former 14, and a piston rod 44 is respectively arranged.Each root piston rod 44 has a bigger end face, and this end face abuts in the outside of adjacent with it sidepiece 26, and this end face is preferably about the same big with the end face of relevant projection 28.Piston-cylinder component 42 can be via a kind of liquid of passage 46 inputs, and fluid pressure should be enough big, makes paired piston rod opposite each other 44 energy protruding.Until relevant projection 28 is closely reclined mutually.

Be provided with a pressure chamber 48 around piston rod 44, it and piston-cylinder component 42 is irrelevant, but preferably with the cavity 16 of film 20 bottoms, be subjected to selectively simultaneously a kind of when waiting static pressure compacting common required fluid pressure, or emptying.

Belong to the mould top 50 that also has of mould shown in Fig. 1 to 4, it has fluid passage 52 equally, the liquid that is suitable for when being used for waiting the static pressure compacting, and it also has a formpiston 54, and upper film 56 is coating this formpiston 54.Formpiston 54 has one with respect to the rotational symmetric main part of axis A, is permanently fixing upper film 56 on this main part, for example by pasting or the sulfuration gummed.Along this main part outside radially, at the downside of upper film 56, be shaped on two opposite each other and all-in-one-piece supporting masses 58 with it on diameter, under mould closure state as shown in Figure 4, their each insert among of two radial protrusions 24 on film down.

These two

films

20 and 56 have defined a compression chamber 60, and it can fill up ceramic particle by the passage 62 of radially feeding.These charging passages 62 (or more than two time be wherein two) respectively are communicated with a radial protrusion 24.

The left side of Fig. 1 represents that mould is in closure state, and at this moment,

film

20 and 56 is not subjected to hydraulic loaded as yet.Under this state, charging passage 62 is also opening wide, and its aperture is enough to make ceramic particle to suck in the compression chamber 60, and/or under high pressure sends in this chamber.Before finishing this operation, handle the piston-cylinder component 42 of adjusting device 40, the projection 28 that makes opposite one another abuts in together securely.For this purpose, in the represented embodiment of Fig. 1 to 4, piston rod 24 stretches out.Need not this way or additionally also can obtain identical effect by following way, that is, make pressure chamber 48 bear one for waiting obvious not enough medium sized pressure of static pressure compacting speech.

In case whole compression chamber 60 is filled up ceramic particle, to connect normal way and make the cavity 16 below following film 20 bear for example hydraulic pressure of 280 crust, onesize hydraulic pressure also acts in the pressure chamber 48 with above the supporting mass 58.Consequently ceramic particle compresses with about 1: 2 ratio as usually, so band handle container has for taking out and the required enough intensity of further processing.

Then, piston rod 44 withdrawals, cavity 16 and pressure chamber 48 are found time.At this moment, the elastic restoring force in the arm 32 of " U " shape girth member 30 is separated from each other projection 28, has one mutually at least as the spacing of handle width size until the end face of projection 28.In case mould part 10 and 50 separated from each other along the direction of axis A just can take out established band handle container from mould.

Another kind of way is, girth member 30 and (if any) also have

girth member

36 and 38 to can be made into like this, and promptly under the situation without any hydraulic pressure, they can be pressed against projection 28 together securely.In this case, piston-cylinder component 42 is designed to can be after compacting projection 28 be drawn back the situation shown in Fig. 3 and 4.Piston-cylinder component 42 also can be a beidirectional, so they can satisfy the requirement of the dual-use function of projection 28 being pressed and drawing back.

Second kind of embodiment part section representing in Fig. 5,5a and 5b and the difference of the represented embodiment of Fig. 1 to 4 are, radially outside represented projection 24, adjusting device 40 has an additional cavity 64, and it links to each other in former 14 and with fluid passage 66.A current limiter 68 is housed, for the liquid that waits the static pressure compacting to import is in the chamber 70 on boundary by arriving one by current limiter 68 shown in Fig. 5 a with projection 24 outside radially in cavity 64.In the pressing process in the chamber 70 hydraulic pressure of being set up, (as Fig. 5 b) still partly keeps a short-term after compacting, because liquid can only be lentamente flowed out by current limiter 68.During this, as illustrated by subgraph 1 to 4, adjusting device 40 is separated from each other projection 28, so projection 28 unclamps from the grip that has just suppressed, meanwhile, handle still is subjected to the effect of residual hydraulic pressure radially inside, that acted in the chamber 70 on projection 24.Proved already, did to prevent to damage completed handle especially effectively like this.

Shown in Fig. 6,6a and 6b, can obtain similar effects with hydraulic piston 71, can pass through fluid passage 66 application pistons 71, make it when sidepiece 26 is separated from each other, still one of the effect inside power of effect radially on projection 24.

Fig. 7,8 and 8a in the characteristics of represented embodiment be, former 14 is cut apart along plane of symmetry B again, the former part that so constitutes can be under the effect of piston one cylinder component 42 that belongs to adjusting device 40 be done the motion that be separated from each other perpendicular to this plane of symmetry.The projection 24 of film 20 extends radially outward by section 72, has imbedded to add firmware 38 in section 72.When the compacting handle, section 72 relies closely outside handle radially each other, they are connected to each other to getting very at an easy rate and open by bending 74, if need, act on residual hydraulic pressure in the bending can be radially inwardly towards the body directive effect of band handle container on the handle of compacting.Therefore, this also makes and more easily handle is without damage taken out from mould together with vessel (handle vessel is therewith suppressed).

The difference of embodiment shown in Fig. 9 and 10 illustrated embodiments and Fig. 1 to 4 is,

girth member

36 and 38 synthesizes a member, and its shape matches with the handle profile that will suppress.

Claims

1, mould with static pressure press belt handle containers such as powdery or granular materials, mould has a former (14) and a formpiston (54) and is contained in monoblock type film (20) between them, the shape of film (20) and the complementation of container profile, and it has a radial protrusion (24) to each handle, projection (24) has two sidepieces (26) opposite one another, sidepiece (26) is gone up and design the promising projection (28) of grabbing the cave that constitutes on handle, it is characterized by: be sidepiece (a 26) configuration adjusting device (40), this adjusting device (40) can be handled, add the material that will suppress in mould before and projection (28) is in close proximity to each other; After pressing process finishes, make projection (a 28) Cheng Youyi separated from each other spacing, the Breadth Maximum that this distance is suppressed handle at least to some extent is so big.

2, according to the described mould of claim 1, it is characterized by: adjusting device (40) has two pressure chambers opposite one another, can fill with pressure in the chamber, so that before making film (20) pressurized, projection (28) is pressed in order to wait static pressure compacting each other.

3, according to claim 1 or 2 described moulds, it is characterized by: adjusting device (40) has piston-cylinder component (42).

4, according to the described mould of claim 3, it is characterized by: but application piston-cylinder component (42) is separated from each other projection (28).

5, according to the described mould of one of claim 1 to 4, it is characterized by: in the radial protrusion (24) of film (20), imbed girth member (30,36,38).

6, according to the described mould of claim 5, it is characterized by: adjusting device (40) has " U " shape girth member (30), and this girth member (30) has two elastic arms of respectively imbedding in one of sidepiece (26) (32).

7, according to the described mould of one of claim 1 to 6, it is characterized by: projection (24) is by strengthening radially extend outwards of section (72), in order to suppress handle, this section radially can be against each other together outside handle, and be connected to each other by bending (74).

8, according to the described mould of one of claim 1 to 7, it is characterized by: sidepiece (26) is subjected to one to be fixed on the restriction that formpiston (54) is gone up, inserted the supporting mass (58) between the sidepiece (26) the close mutually of handle upper zone, supporting mass (58) is in another film (56), film (56) is attached troops to a unit in formpiston (54), and applies hydraulic pressure at least in a zone of supporting mass (58) back.

9, according to the described mould of one of claim 1 to 8, it is characterized by: adjusting device (40) has mechanism (66,70,71), can apply a pressure that radially inwardly acts on by them on projection (24) after the compacting, projection (28) is separated from each other during this period.

10, according to the described mould of one of claim 1 to 9, it is characterized by: former (14) is cut apart along the axial plane of symmetry of each projection (24) again, and the former part that constitutes thus can move towards one another or separated from each other by means of adjusting device (40).