JPH04323302A - Draining medium feeder for wet powder forming device - Google Patents

Abstract

PURPOSE:To prevent the damage and dislocation of a draining medium and the contamination of an upper die by supplying the sheet-shaped draining medium for discharging the water pressed out of a powder material slurry to the lower side of the upper die from the feeder fixed to the upper die. CONSTITUTION:A slurried powder material 32 is filled into a cavity formed between the upper die 2 and lower die 4 of a barrel die 6. The upper die 2 is then lowered to compression-mold the material 32. When a formed article is obtained by this wet powder forming device, the water pressed out of the material 32 is conducted by a draining medium 35 and discharged. The medium 35 consists of the filter sheet 36, mesh sheet 38 and film sheet 40 which are supplied by a draining medium feeder provided with rewinding reels 68, 70 and 72, winding reels 158, 160 and 162, takeup rollers 130, 132 and 134, etc. The feeder is held by a member fixed to the upper die 2, and the operation is carried out without slackening the medium 35.

Description

[Detailed description of the invention]

0001

[Field of Industrial Application] The present invention relates to a sheet-shaped water removal medium supply device for guiding and draining water squeezed out of a material during compression molding in a wet powder molding device. .

0002

[Prior Art] Regarding the conventional example, FIGS. 10, 11 and 1
Let me explain about 2. In FIG. 10, 2 is an upper mold, 4 is a lower mold, and 6 is a frame mold. The lower mold 4 is fixed to a fixed frame 8. The frame mold 6 is moved up and down by a frame drive mechanism (not shown). The upper mold 2 is removably held by an upper mold holder 10 and is raised and lowered via an upper frame 12 that is raised and lowered by an upper mold drive mechanism (not shown). The upper die holder 10 is directly or indirectly attached to a cylinder 16 that expands and contracts with respect to a sleeve 14 fixed to the upper frame 12 by a pneumatic mechanism (not shown). Reference numeral 18 denotes a sheet-shaped water removal medium, which allows moisture squeezed out of the material during the compression molding process to pass therethrough and discharge it. Reference numeral 20 denotes a feeding-side reel as a feeding section, and 22 denotes a winding-side reel as a winding-up section, both of which are held by holding members 24 and 26 fixed to the upper frame 12. 28
is a guide roller.

In the molding operation, a lower mold 4, a frame mold 6, and an upper mold 2 facing these molds with a water removal medium 18 in between are used.
A slurry-like powder material 32 is filled into the cavity 30 formed between the two, and the upper mold 2 is lowered by lowering the upper frame 12 to compress the material 32. The moisture squeezed out of the material 32 in the process is drained out through the drainage medium 18. If the upper mold 2 is raised before the frame mold 6 is lowered when performing a knockout operation to take out the completed molded product, the surface of the finished product will be damaged due to uneven swelling of the surface. To prevent this, as shown in Figure 11,
Even when the upper mold frame 12 is raised, the sheet 16 is expanded by the pneumatic mechanism, and the upper mold 2 remains together with the water removal medium 18, and the frame mold 6 is lowered while holding down the surface of the finished product 34. The side surface is made free, and then the cylinder 16 is compressed by pneumatic operation to raise the upper die 2 to the state shown in FIG. The finished product 34 is taken out by a take-out device (not shown).

0004

[Problems to be Solved by the Invention] However, in such a conventional device, when knocked out,
When changing from the state shown in FIG. 11 to the state shown in FIG. 11, the upper frame 12 rises while extending the cylinder 16, so the water removal medium 18 is paid out from the feeding side reel 20 and the take-up side reel 22, and then the cylinder 16 is retracted. When the upper mold 2 is raised, the water removal medium 18 is removed as shown in FIG.
It sways. This deflection can be removed by winding up the take-up reel 22, but if the winding operation is insufficient and the deflection remains, the finished product take-out device (not shown) or mold cleaning may be required. When a device (not shown) enters between the upper mold 2 and the lower mold 4, the drainage medium 1
8, or it became necessary to interrupt the work, causing trouble to the work.

It is also conceivable to take up the deflection from the state shown in FIG. 12 by winding up the take-up reel 22 or by using another take-up roll. However, if the lower surface of the upper mold 2 is always covered, it is possible to prevent material particles and dust from adhering to the lower surface of the upper mold 2, and cleaning of the upper mold 2 is necessary. In the method of removing deflection, there is a risk that particles and dust may enter when the deflection occurs, and cleaning will be required. However, cleaning the downward facing surface is not easy and requires a complicated device. Furthermore, there is a risk that the position of the water removal medium may shift with each molding.

[0006] The present invention aims to eliminate the above-mentioned drawbacks of the conventional methods, and it is possible to perform work that does not cause deflection of the water removal medium, prevent damage to the water removal medium, It is an object of the present invention to provide a water removal medium supply device for a wet powder molding apparatus that eliminates the need for cleaning the upper mold and can prevent displacement of the water removal medium during each molding process.

[0007]

[Means for Solving the Problems] The present invention provides a method for supplying and filling a powder material in the form of a slurry into a cavity formed between an upper mold and a lower mold, and compressing the powder material to form a molded product. A sheet-shaped drainage medium for guiding and draining water squeezed out of the material is pulled out from a feeding section, supplied to the underside of the upper mold, and wound up on a winding section. A water removal medium supply device for a wet powder molding device, characterized in that in the medium supply device, the feeding portion and the winding portion are held by a holding member fixed relatively to the upper die. .

[0008]

[Function] In the present invention, the feeding portion and the winding portion of the water removal medium are held by a holding member fixed relatively to the upper mold, so that the water removal medium moves up and down together with the upper mold without bending. Since it is always held so as to cover the bottom surface of the upper mold, damage to the drainage medium can be prevented, cleaning of the upper mold is not necessary, and the position of the molding surface of the drainage medium can be prevented from shifting. . The holding member that holds the feed-out reel and the take-up reel may be attached to an upper mold holder that holds the upper mold.

[0009]

[Embodiment] An embodiment of the present invention will be explained using FIGS. 1 to 3. FIG. 3 shows the water removal medium 35 in this embodiment. The water removal medium 35 includes a filter sheet 36, a mesh sheet 38, and a film sheet 40, which are each formed separately.
are used in combination. The filter sheet 36 is formed of a cloth-like material, and acts as a filter to allow moisture squeezed out when the material 32 is compressed to pass through, but to block the powder solid content of the material 32. The mesh sheet 38 is made of a net-like material, and even when subjected to compression force during compression forming, a gap remains, and water that has passed through the filter sheet 36 is guided through the gap, and the upper mold 2 and the frame mold 6 are connected to each other. It is designed to be discharged outside from between. The film sheet 40 is made of a waterproof material and is designed to prevent powder solids and other substances leaked from the filter sheet 36 from adhering to the lower surface of the upper mold 2.

FIGS. 1 and 2 are a sectional front view and a plan view of the water removal medium supply device. The upper mold 2 is connected to the upper mold adapter 4
2 to the upper mold holder 44. The upper mold holder 44 has a lower end of a rod 46 attached to a cylinder 16 that expands and contracts by a pneumatic mechanism as shown in FIG. Fixed. The upper frame 12 is connected to the main guide post 48 through the main guide post 48.
62640 It is designed to be raised and lowered by an upper mold drive mechanism as shown in FIGS. 6 to 9. Reference numerals 50 and 52 are brackets for attaching holding members 54, 55, 56, and 57, which will be described later. Rods 62 and 64 attached to the sleeve 14 are inserted into the insertion holes 58 and 60, and the upper mold 2 is aligned with the vertical axis. It prevents it from rotating around. The lower die 4 is fixed to a fixed frame 8. Frame type 6 is patent application No. 2-16
2640 is raised and lowered by a frame type drive mechanism as shown in FIG.

A water removal medium 35 formed by overlapping a filter sheet 36, a mesh sheet 38, and a film sheet 40 is provided between the upper mold 2 and the frame mold 6 in the vicinity of the upper mold 2. There is. Reference numerals 68, 70, and 72 are feeding side reels as feeding parts for the filter sheet 36, the mesh sheet 38, and the film sheet 40, respectively, and each sheet is wound around the reel.
Shafts 74, 76, 78 and flanges 80, 82, respectively.
84, and is rotatably supported by the holding members 54 and 55. Brake discs 86, 88, 90 (88 overlaps with 90 and cannot be seen) are provided on each shaft 74, 76, 78, respectively.
(94 overlaps with 96 and is not visible) Cylinder 9
8, 100, 102 (100 overlaps with 102 and cannot be seen), each feeding side reel 68, 70, 72
A brake is applied to the machine, so that a braking action is applied to the feeding operation.

104, 106, 108 are guide rollers;
Reference numerals 110, 112, and 114 are restraining rollers, which restrain the filter cylinder 36, mesh cylinder 38, and film cylinder 40 from slipping against the guide rollers 104, 106, and 108 by the force of a spring or the like. At the shaft end of each guide roller 104, 106, 108, a sheet feeding amount detection mechanism 116 is provided, which detects the number of rotations using a gear-shaped slip disk and a photo sensor, and detects the feeding amount based on the number of rotations. 118, 120,
Reference numerals 122 denote photosensors 124, 125, and 1 for detecting that the filter sheet 36, the mesh sheet 38, and the film sheet 40 are running out.
26 is a guide roller. 128 is a roller for removing deflection, and 129 is a cylinder for operating the roller, forming a deflection removing device 127. 135 is a deflection adjustment device, and 130, 132, 134 are take-up rollers for deflection adjustment, which are supported by a common holding member 136 that is guided so as to be slidable in the horizontal direction, and are moved in the horizontal direction by a cylinder 138. It looks like this. The deflection removing device 127 and the deflection adjusting device 135 will be described later. 140 is a stopper screw that adjusts the stop position of the holding member 136. 142, 144 are support rollers 146, 148, 150, 152, 154, 156 as support members that support the weight of the water removal medium 35 and prevent it from hanging down.
is a guide roller.

[0013] Reference numerals 158, 160, and 162 are winding side reels as winding units for the filter sheet 36, mesh sheet 38, and film sheet 40, respectively, and there are reels that wind each sheet from one end.
Shafts 164, 166, 168 and flanges 170, respectively.
, 172, 174, and are rotatably supported by holding members 56, 57. Each shaft 164, 166, 168 is a drive device 17 having a motor, reduction gear, coupling, etc.
6,178,180 (178 overlaps with 180 and cannot be seen), and winds up the filter sheet 36, mesh sheet 38, and film sheet 40.

The operation will be explained. When the upper frame 12 is lowered from the state shown in FIG.
162 and the water removal medium 35, the lower surface of the upper mold 2 comes into contact with the surface of the material 32 and the frame 6 through the water removal medium 35, and then the upper mold 2 is lowered while lowering the frame 6, and the water is removed. Compression molding of the material 32 is performed while draining water using the extraction medium 35. After molding, the upper frame 12 is raised, but the upper mold 2 is left holding down the material 32 by the pneumatic mechanism, and in this state, the frame mold 6 is lowered to perform knockout, and then the upper mold 2 is raised to take out the molded product. .

Throughout the compression molding and knockout processes as described above, the water removal medium 35 always moves up and down with the upper mold 2 and always covers the lower surface of the upper mold 2 without bending, so that the lower surface of the upper mold 2 is kept clean. It remains protected and does not require cleaning. In addition, even after the upper mold is raised, the water removal medium 35 will not bend and hang down, and even if the molded product take-out device or the mold cleaning device moves in and out, it will interfere and damage the water removal medium 35. There's nothing to do. Further, it is possible to prevent the position of the water removal medium 35 from shifting every time it is formed. If, by any chance, the water removal medium 35 is bent after the knockout is completed, or if a deflection is given in advance, the cylinder 129 is operated every cycle and the deflection is completely eliminated by the deflection removing roller 128. At this time, the take-up roller 130 for deflection adjustment,
132 and 134 may also be actuated together by cylinder 138.

When molding a molded product that is not flat, such as a C-shaped core, it is necessary to give the water removal medium 35 some deflection in advance. By doing so, it is possible to give the water removal medium 35 any desired deflection. That is, in the above embodiment, the lower surface of the upper die 2 is flat and the water removal medium 35 remains flat even during molding, so the deflection adjustment device 135 controls the take-up rollers 130, 132, 134 before molding. In Figure 1, the leftmost direction (
The take-up reel 15 is pulled in the direction (deflection decreasing direction).
No. 8, 160, and 162 may be rolled up to stretch the water removal medium into a taut state, and molding may be performed as is. However, as shown in FIG. 4, if the upper surface of the molded product 182 is not flat (convex in FIG. 4) and the lower surface of the upper mold 184 is not flat (concave in FIG. 4), water must be drained during molding. Since the medium 35 is bent as shown in FIG. 4, the draining medium 35 must be bent by a predetermined amount before molding. A deflection adjustment device adjusts and sets the amount of deflection given in advance. 186
187 is a lower mold, and 187 is a frame mold.

FIGS. 5, 8, and 9 show a state in which the take-up rollers 130, 132, and 134 are at the limit position (the position closest to the right in the figure) in the direction of increasing the deflection of the water removal medium. Take-up rollers 130, 132, 1
34 is rotatably held by a pair of holding members 136. The holding member 136 has a guide convex shape 188, and the holding member 54 (
55) so that it can slide in the horizontal direction while being guided by a guide hole 190 provided in 55). The holding member 136 is connected to a rod 194 of a cylinder 138 via a connecting member 192, and is moved through the guide hole 19 by the cylinder 138, which is a reciprocating means.
It is designed to slide back and forth along 0. 196 is a stopper, and a stopper screw 140 that can be adjusted and set with a lock nut 198 is used to stop the take-up roller 13.
It forms a positioning means for adjusting and setting the limit position of 0, 132, 136 in the direction of reducing the deflection of the water removal medium (leftward in the figure).

The operation of the deflection adjusting device 131 when the lower surface of the upper die 2 is not flat will be explained with reference to FIGS. 5 and 6. FIG. 5 shows a state in which the take-up rollers 130, 132, 134 are at their limit positions in the direction of increasing the deflection of the water removal medium 35;
It may be set as the most extended position of the rod 194 of No. 8, or may be set by an adjustable stopper. When a new portion of the water removal medium 35 is to be moved to the lower surface of the upper mold 2 after performing a predetermined number of molding cycles using a certain portion of the water removal medium 35, the cylinder 138 is first actuated to move the rod 194. 6, the holding member 136 is moved to the left, the tip of the stopper screw 140 comes into contact with the stopper 196, and the take-up rollers 130, 132, 134 are moved to the limit in the direction of reducing the deflection of the water removal medium 35. put it in position. Next, the take-up reels 158 , 160 , 162 are taken up to move a new portion of the predetermined length of the drainage medium 35 below the upper die 184 . While the take-up reels 158, 160, 162 are being wound up, the water removal medium 35 is unwound from the unwinding reels 68, 70, 72, and at this time, low pressure is applied to the cylinders 98, 100, 102. It is preferable to apply light brake torque to the side reels 68, 70, 72. When the water removal medium 35 is renewed in a taut state, the cylinders 98, 100, 102 apply brakes to the feeding reels 68, 70, 72 to fix them. Take-up reel 158, 160, 16
2 is also preferably fixed by a brake or the like.

Next, the rod 194 of the cylinder 138 is extended and the take-up rollers 130, 132,
134 is the limit position in the direction in which the deflection of the water removal medium 35 is increased. At this time, the water removal medium 35 is held with a predetermined deflection, and then the molding operation is performed. By adjusting the stopper screw 140 and the distance L between its tip and the stopper 196, the amount of deflection given to the water removal medium 35 before molding can be adjusted and set. When the same portion of the water removal medium 35 is used repeatedly for several cycles, only the filter sheet 36 of the three-layer sheet absorbs water and stretches, causing the take-up rollers 130, 132, 134 to become the most Even when placed in the left position, the filter sheet may remain bent as shown at 36'. If such deflection remains, it will interfere with the molded product take-out device (not shown) and mold cleaning device (not shown) entering the lower mold of the upper mold 184 after molding, and the filter sheet 36' Therefore, the cylinder 129 of the deflection removing device 127 is extended and a part of the filter cylinder 36 is pushed by the roller 128 to remove the deflection and make it taut like 36 to prevent interference.

The amount of the water removal medium 35 being fed out can be detected by a feeding amount detection mechanism 116. The water removal medium 35 allows the same part to be repeatedly used for several cycles of molding and then a new part is fed out. It is possible to perform control such that feeding is automatically performed when a predetermined number of molding cycles have been performed. The water removal medium 35 is configured such that each of the filter sheet 36, mesh sheet 38, and film sheet 40 can be separately and independently fed out or wound up. When the water removal medium 35 is used up or cut, it can be detected by the photosensors 118, 120, 122, so safety measures such as stopping the device based on the detection signal can be taken. Winding side drive device 176, 17
By operating the brake cylinders 98, 100, and 102 with appropriate timing in conjunction with the motors 8 and 180, the water removal medium 35 can be stretched with appropriate tension. Furthermore, this braking action prevents the water removal medium from sagging due to its own weight even during the molding process. In the above embodiment, the holding member that holds the reels on the feeding side and the winding side is attached to the upper mold holder, but if it is a part that is fixed relative to the upper mold, it can be It may be attached to the part.

[0021]

According to the present invention, regardless of the vertical movement of the upper mold, the water removal medium can always move up and down together with the upper mold, so that the lower surface of the upper mold is always protected by the water removal medium.
There is no need to clean the bottom surface of the upper mold, the cleaning mechanism can be simplified, and the water removal medium can be prevented from deflecting, making it easier to enter the molded product take-out device after knocking out and the mold cleaning device. There is no damage to the drainage medium upon entry, and the position of the drainage medium does not change with each molding.

[Brief explanation of drawings]

FIG. 1 is a cross-sectional front view of an embodiment of the present application.

FIG. 2 is a cross-sectional plan view taken along line AA in FIG. 1;

FIG. 3 is a detailed cross-sectional explanatory diagram of a water removal medium.

FIG. 4 is an explanatory cross-sectional view of the molding state when the lower surface of the upper mold is not flat.

FIG. 5 is a cross-sectional front view of the drainage medium deflection adjustment device.

FIG. 6 is a cross-sectional front view of the deflection adjustment device showing a state in which the water removal medium is extended.

FIG. 7 is a cross-sectional front view showing the action of the deflection absorbing device.

FIG. 8 is a cross-sectional plan view taken along line BB in FIG. 5;

9 is a cross-sectional side view taken along line CC in FIG. 5. FIG.

FIG. 10 is an explanatory front view of a conventional example.

FIG. 11 is an explanatory front view showing the next step of FIG. 10;

FIG. 12 is an explanatory front view showing the next step of FIG. 11;

[Explanation of symbols]

2 Upper mold 4 Lower mold 6 Frame type 30 Cavity 32 Material 36 Filter sheet 38 Mesh sheet 40 Film sheet 44 Upper mold holder 54 Holding member 55 Holding member 56 Holding member 57 Holding member 68 Payout side reel 70 Payout side reel 72 Payout side reel 86 Brake disc 88 Brake disc 90 Brake disc 92 Brake disc 94 Brake disc 96 Brake disc 127 Deflection removal device 128 Roller 130 Take-up roller 132 Take-up roller 134 Take-up roller 135 Deflection adjustment device 158 Take-up side reel 160 Take-up side reel 162 Take-up side reel 184 Upper mold 186 Lower mold 196 Stopper

Claims (10)

[Claims] Claim 1: Filling a cavity formed between an upper mold and a lower mold with a powder material in the form of a slurry, and compressing the water squeezed out of the material when forming a molded product. In a water removal medium supply device, a sheet-shaped water removal medium for guiding and draining is drawn out from a feeding section, supplied to the lower side of the upper mold, and wound up on a winding section. A water removal medium supply device for a wet powder molding apparatus, characterized in that the winding portion is held by a holding member fixed relatively to the upper die. 2. The apparatus according to claim 1, wherein the upper mold is fixed to an upper mold holder, and the holding member is fixed to the upper mold holder. 3. The apparatus according to claim 1, wherein the water removal medium is formed by stacking a water-permeable cloth-like filter sheet, a reticulated mesh sheet, and a waterproof film sheet. 4. The apparatus according to claim 1, further comprising a take-up roller provided midway along the path of the water removal medium to adjust deflection of the water removal medium. 5. The apparatus according to claim 1, further comprising a support member provided on the outside of the upper mold and closely facing the upper frame and supporting the weight of the water removal medium. 6. The apparatus according to claim 1, wherein said delivery portion includes a brake that provides resistance to delivery of said drainage medium. 7. The apparatus of claim 1, wherein the pay-out section and take-up section are pay-out reels and take-up reels, respectively. 8. A cavity formed between an upper mold and a lower mold is filled with a powder material in the form of a slurry, and water squeezed out of the material when compressed to form a molded product is Deflection of a water removal medium in a water removal medium supply device in which a sheet-shaped water removal medium for guiding and draining is pulled out from a feeding section, supplied to the underside of the upper mold, and wound up on a winding section. The adjusting device is characterized in that it has a take-up roller that is disposed in the middle of the path of the water removal medium and is supported so as to be able to slide back and forth in a direction that increases or decreases the deflection, and a reciprocating means that slides the take-up roller back and forth. A device for adjusting the deflection of water removal media in wet powder compacting equipment. 9. The apparatus according to claim 8, further comprising positioning means for adjusting and setting a limit position of the take-up roller in a direction that reduces deflection of the water removal medium with respect to reciprocating sliding of the take-up roller. Device. 10. The apparatus according to claim 8, wherein the water removal medium is formed by stacking a water-permeable cloth-like filter sheet, a reticulated mesh sheet, and a waterproof film sheet.