JPH09117939A - Mold assembly of plastic filter and molding thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To realize the roundabout influx of a molten resin flowing in the net grooves of a first cavity insert in the net grooves of a second cavity insert by a method wherein this mold assembly has a plurality of the inserts respectively having the net grooves arranged in the fashion that the net grooves of the inserts adjacent to each other are not directly connected with each other. SOLUTION: On a first cavity insert 4, rhombic net grooves are formed by intersecting grooves 5 leaning to the left and grooves 6 leaning to the right with each other. On a second cavity insert 3, rectangular net grooves are formed by intersecting longitudinal grooves 7 and lateral grooves 8 with each other. The inserts are so arranged relative to each other that the longitudinal grooves 7 and the lateral grooves 8 on the insert 3 do not directly connect with the net grooves of the grooves 5 leaning to the left and those of the grooves 6 leaning to the right. When a molten resin is poured into the center of the second insert 3, the molten resin flowing in the longitudinal grooves 7 and the lateral grooves 8 tend to flow in the grooves 5 leaning to the left and the grooves 6 leaning to the right of the first insert 4. However, since the grooves of the first insert 4 and the grooves of the second insert 3 do not connect directly to each other, the influx in the grooves 5 leaning to the left and the grooves 6 leaning to the right is performed by roundabout routes through very minute gaps at the fitting part between the insert 3 and the insert 4.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an oil or air filter for automobiles and electronic equipment, a filter for daily miscellaneous goods including kitchenware and plumbing goods, and a plastic filter which can be used in various medical filters. And its mold apparatus.

[0002]

The problem to be solved by the present invention is as follows. In the conventional manufacturing method and the mold structure by injection molding, the mesh portions of various integrally-formed filters having meshes are not completely formed. In some cases, a wall structure is applied to temporarily block the flow of the molten resin in the net, and the molten resin is forced to flow into the net that is difficult to rotate. Cannot be formed freely. When manufacturing a spout / rectifier filter (hereinafter referred to as a rectifier filter) that is attached to a faucet such as tap water, we have realized the molding of a single rectifier filter into plastic, but to prevent rectification and leakage. It is necessary to use a combination of multiple rectifying filters and a separate rubber packing.

Therefore, the present invention is intended to solve the above-mentioned drawbacks by the structural improvement and the filter shape improvement in the conventional plastic filter mold device by the means described below. One of them is that a split mold / splitting die is used so that the mesh groove of the split portion is not directly connected, and the flow of the molten resin is temporarily interrupted to give priority to the inflow of the molten resin to the mesh portion. This is to add a gas / air bleeding function by forming a gas vent hole in the contact portion of the split insert.
The other one is that the rectifying filter itself is formed into a packing member and that a plurality of rectifying filters are easily laminated. The means for realizing this will be specifically described below in detail.

[0004]

SUMMARY OF THE INVENTION The present invention is characterized by the following in a mold apparatus for producing a plastic filter having a mesh by injection molding. (1) A plurality of inserts each having a net groove are provided, and the adjacent inserts and the net grooves of the inserts are arranged so as not to be directly connected to each other, so that the molten resin flowing in the net groove of the first insert is prevented. It is designed so that it does not flow directly into the net groove of the second insert, but bypasses it and flows in. (2) A gas / air vent hole is provided between the first insert and the second insert to discharge gas / air generated during molding out of the mold. (3) A first insert and a second insert each having a net groove formed in each insert that is not directly connected to each other at their ends are upper molds,
This is a one-sided engraving mold that presses against a lower mold that does not form net grooves at all. (4) A double-sided engraving die in which mesh grooves that are not directly connected to each other are formed in the upper insert and the lower insert that are shaped so that they do not overlap each other on the push-cut surfaces, and they are pressed together. (5) A frame groove for forming a frame is formed on the outer peripheral portion of the upper and / or lower net groove. (6) An induction zone having a diameter larger than that of the mesh groove for accumulating / releasing the molten resin and a gate for injecting the molten resin on the induction zone are formed on the mesh groove. Further, as an application of the above-mentioned mold, a molded product having the following features is provided. (7) A plastic filter using the above-mentioned mold device, in which the meshes of the inner mesh portion and the outer mesh portion are not directly connected to each other at the end portions of the mesh portions. Furthermore, the present invention provides a rectifying filter having the following characteristics, which is attached to a faucet such as a water supply. (8) Net part made of plastic for adjusting water flow / water amount, frame part made of plastic that surrounds the periphery of the net part and acts as a frame for locking in the spout cap, and the frame A body part integrally provided with a packing part formed by a projecting ring on the top surface or the bottom surface. (9) The packing portion of the frame body is a stepped projection ring having a plurality of steps. (10) The packing portion of the frame body portion is provided substantially at the center of the frame body portion. (11) A structure in which the packing portion of the frame body portion is provided on the outer peripheral portion of the frame body portion and is formed to be inclined toward the inner peripheral direction. (12) The packing portion of the frame body portion is provided on the inner peripheral portion of the frame body portion and is formed to be inclined toward the outer peripheral direction. (13) Net part made of plastic for adjusting water flow / water amount, frame part made of plastic that surrounds the periphery of the net part and acts as a frame for locking in the spout cap, and the frame The fitting convex portion formed in a convex shape on the upper surface or the bottom surface of the body portion, the fitting concave portion formed in a concave shape on the bottom surface or the upper surface of the frame portion, the fitting convex portion and the fitting concave portion. Formed as a filter with multiple layers by fitting. (14) The fitting recess is formed as an annular recess on the bottom surface of the frame body. (15) A plurality of rectifying filters having different mesh structures or mesh shapes, in which the fitting convex portions and the fitting concave portions are formed symmetrically on the upper surface and the bottom surface, respectively, so that various rectifying filters can be freely combined. (16) A fitting convex portion and a fitting concave portion are formed symmetrically on the upper surface and the bottom surface of each of a plurality of rectifying filters having different colors,
Flexible combination of various color rectification filters. (17) A net part made of plastic for adjusting the water flow / water amount, a frame part made of plastic that surrounds the periphery of the net part and acts as a frame for locking in the spout cap, and the net. An induction zone having a diameter larger than that of the net groove for accumulating / releasing the molten resin and a gate for injecting the molten resin on the induction zone are formed on the portion. (18) A plurality of induction zones each having a diameter larger than that of the mesh groove for accumulating / releasing the molten resin and a gate for injecting the molten resin on the induction zone are formed on the mesh portion. (19) A plurality of induction zones having a diameter larger than that of the mesh groove for accumulating / releasing the molten resin and a gate for injecting the molten resin on the induction zone are formed on the mesh portion, respectively. A rib with a large diameter that divides the mesh into a plurality of parts so as to surround each induction zone. (20) Net part made of plastic for adjusting water flow / water amount, frame part made of plastic that surrounds the periphery of the net part and acts as a frame for locking in the spout cap, and the net A plurality of rectifying filters can be integrally used by providing a connecting portion for connecting each rectifying filter between a plurality of rectifying filters having different mesh structures or shapes. (21) The net groove portions made of plastic for adjusting the water flow / water amount are separated and formed in a stepped shape, and a joint groove for forming a joint portion is provided between the plurality of net groove portions. This is a product in which a plurality of integrated plastic rectifying filters are manufactured with a stepped groove structure.

[0005]

2. Description of the Related Art The following application has been filed with respect to the prevention of so-called rib slippage occurring when a mesh is injection-molded. JP-A-6-246796 By providing a convex weir inside the cavity for forming the frame, the flow of the molten resin into the frame, which is larger in diameter than the mesh and easily flows into the molten resin, is temporarily obstructed, and the diameter is reduced. Is to be preferentially flowed into the mesh portion. In order to preferentially form the grid-like ribs, a bypass wall having a function of temporarily blocking the inflow of the plastic material is provided on the frame, and an induction band having a larger diameter than the grid-like ribs is provided. It is characterized in that a partial detour wall is formed particularly in the longitudinal direction of the guide band because of its use. However, in each of these applications, weirs for preventing the inflow of molten resin are provided inside the frame.
Since the wall is provided, it is necessary to form a finer convex portion in the groove for the frame body, which is a troublesome process for the die.
Also, the shape of the frame could not be flattened, and at first glance, it gave a feeling of sink marks, which was not preferable in terms of design. In addition, the purpose of the present invention /
Although it is completely different from the configuration, a large number of applications including the following have been filed for those adopting only a split mold. JP, 6-238768, A A plurality of cavity blocks can be arranged in a plane, and can be molded, and various filters with different widths and lengths can be easily manufactured by increasing or decreasing the number of cavity blocks. However, this application is also intended only to allow the size of the filter to be easily adjusted. As in the present invention, the flow of the molten resin is formed by using the split mold / splitting insert and not forming the net grooves of the split portion directly. It is not assumed that the molten resin is temporarily interrupted to give priority to the inflow of the molten resin into the net portion, and the ribs are prevented from coming off without using a weir or a wall. Is. Further, regarding the rectifying filter made of plastic, the following applications have been filed. JP-A-6-306901 As shown in FIG. 26 (b), a frame and a mesh are integrally formed of plastic, and has a thickness of 3 mm in the longitudinal direction for rectification. As shown in FIG. 26 (a), a plurality of wire mesh filters 24 are conventionally used, but it is described that one filter of the present invention functions as a filter for a water outlet. However, the present invention does not sufficiently function as a rectifying filter because of the following. There is no doubt that the water flow will be adjusted if there is a certain amount of thickness in the vertical direction, but the mesh ribs 26 with wide intervals as shown in the figure cannot adjust the amount of water and prevent dripping when stopping water. If only finer meshes are used in the description of the embodiments, the flow of water will be spilling and the function of the rectifying filter cannot be fulfilled. Furthermore, the function of the rectifying filter is to remove dust and scaly components contained in tap water, but in order to remove it with a single filter, it is only possible to have a mesh of 60 mesh or more. is there. This point can be easily understood by an experiment. Also,
If only the current plate 27 is attached to the spout cap 25 without packing, water will spout from the gap between the spout cap 25 and the water faucet 28. The water pressure at the faucet is considerable, and it is useless unless sealing and packing are performed reliably. From this, it can be said that the present invention merely regulates the flow of water. An ordinary bellows faucet is equipped with a bellows-shaped straightening plate to prevent straightening and sagging when water is stopped. If only the straightening is intended, the straightening filter of the present invention is not necessary. The present invention is intended to provide a rectifying filter that has the functions of adjusting the amount of water, preventing dripping when water is stopped, and removing dust and chlorine components contained in tap water at the same time as rectifying. further,
Since a combination of a plurality of rectifying filters is required to simultaneously perform a plurality of functions, it is intended to simplify the combination and are completely different from the conventional invention. As shown in FIG. 27, there is the invention regarding the point that packing is actually integrated. Resin or rubber 29 is integrally molded around the periphery of the wire mesh 30 that serves as a filter.
Although it has the effect of rectifying / filtering dust, etc./preventing dripping, it is insert molding of wire mesh and resin, which does not lead to reduction in man-hours / cost. In the present invention, the packing and the filter section are integrally molded of plastic, and the rectifying filter itself is used as the packing member, and the rectifying filter is configured to be easily laminated. There is a completely different idea from the conventional device. JP-A-56-100937 Although not shown, a conical integrally molded plastic filter is described. This conical plastic filter is a net for crushing flow and is for crushing the water flow. However, this filter alone does not serve as a rectifying filter, but it can also serve as a spout filter and a jet regulator only when combined with other ordinary wire mesh filters and rubber packing, providing a simple and effective rectifying filter. It can't be said to do. Therefore, the object / configuration of the present invention is completely different. Hereinafter, embodiments of the present invention for solving these conventional drawbacks will be described in detail.

[0006]

BEST MODE FOR CARRYING OUT THE INVENTION

EXAMPLES One of the problems to realize the present invention is to integrally mold a filter having a fine mesh by injection molding, and the present invention cannot be achieved unless this problem is solved. As elemental technologies that form the basis of these solutions, Japanese Patent Application Laid-Open No. 6-87174, Japanese Patent Application Laid-Open No. 6-126784, Japanese Patent Application Laid-Open No. 7-1464 and Japanese Patent Application Laid-Open No.
52164 and the like. Although detailed description will be omitted, the present invention will not be linked until the present invention is utilized. Regarding the plastic filter, various applications have been made as publicly known examples, but in all of the actual molding, the occurrence of welds due to the fine mesh,
Although it is very difficult to remove ribs, etc., there is a description that it can be realized in the specification, and although it seems theoretically possible, in the die manufacturing technology as of October 1995, 100 It must be recognized that the mesh equivalent to the mesh is barely formed. Although the plastic filters of these known examples have been gradually marketed recently, they have a mesh size of at most about 20 mesh and the application range is still narrow. Therefore, the present invention cannot be understood only by comparing the shapes / configurations of the known examples that are difficult to realize with those of the present invention.

The present invention will be described in detail below with reference to examples. FIG. 1 (a) shows a split insert of the present invention and a net groove formed in the split insert. The upper mold 1 is used as a base mold, and the first insert 4 and the second insert are further formed therein. The child 3 is fitted. The first insert 4 has a left slant groove 5 and a right slant groove 6.
And are crossed to form a diamond-shaped net groove. Second nest 3
The vertical groove 7 and the horizontal groove 8 are intersected with each other to form a rectangular net groove. This shape is so-called one-sided carving. Then, as shown in the partially enlarged view of FIG. 1B, the vertical groove 7 and the horizontal groove 8 of the insert 3 and the net groove of the left inclined groove 5 and the right inclined groove 6 of the insert 4 are not directly connected. is there. In this way, when a gate (not shown) is provided at the center of the second insert 3 and molten resin is injected, the molten resin flowing in from the vertical groove 7 and the horizontal groove 8 will be It tries to flow into the right slant groove 6 as the left slant groove 5, but the first nest 4
Since the groove between the second insert 3 and the second insert 3 is not directly connected, the molten resin flowing in the second insert 3 cannot easily flow into the second insert 4. Therefore, the molten resin whose flow has been once stopped is forced to flow toward the vertical groove 7 and the horizontal groove 8 formed as the inflow groove, and the phenomenon of rib loss does not occur. When the vertical groove 7 and the horizontal groove 8 are all filled with the molten resin, the excess molten resin changes its flow to the next inflow destination. It flows into the left inclined groove 5 and the right inclined groove 6 from a very small gap between the fitting portions of the inserts 3 and 4 divided as indicated by the arrow. On the contrary, when the gate is provided on the side of the first insert 4, when the molten resin from the insert 4 flows into the insert 3, the insert 3, the vertical groove 7 and the horizontal groove 8 serve as weirs and walls. To fulfill. FIG. 1 (c) is a sectional view taken along the line AA ', in which a gas vent hole 13 is provided in the fitting surface of the inserts 3 and 4, and gas / air is vented from there. In the manufacture of this kind of plastic filter, the gas generated from the air and the molding resin in the cavity of the mold during the injection molding process is not released to the outside of the mold, and the resin is not filled in the entire cavity and the desired shape is obtained. It becomes impossible to obtain a plastic molded product. In particular, when forming a mesh, it is necessary to take special measures because it is directly affected by gas / air. Therefore, the finer the mesh becomes, the more important the degassing becomes, and the use of the mating surface of the split insert is extremely easy because the degassing on the mesh that is most affected by gas / air can be performed. Is effective in. FIG.
3A is a lower mold 2, which is pressed against the upper mold 1 described above to provide a plan view of FIG. 3A and C- of FIG. 3B.
A molding is obtained which is illustrated as a C ′ cross section. The molded product includes a frame body portion 10, a first net portion 11, and a second net portion 12. Since the upper die 1 has no frame groove, the lower die 2 is provided with the frame groove 9. FIG. 2B is a sectional view taken along line BB ′.
A frame groove 9 is formed. In the embodiment, the mesh shapes of the inserts 3 and 4 are rectangular and rhombic, respectively, but the same effect can be obtained by reversing the shapes.

4 to 6 show what is called double-sided carving in which net grooves are cut on both sides of the upper die 1 and the lower die 2. First, referring to FIG. 4A, the upper die 1 and the first insert 4 are the same body, and the frame groove 9 is formed therein. The insert 3 is fitted inside thereof, and the vertical groove 7 and the horizontal groove 8 are formed in a rectangular shape on the surface thereof. (B) is the D-
Fig. 7 is a sectional view of D ', in which a gas vent hole 13 for venting gas / air is provided in the divided surface. FIG. 5A shows a lower mold 2 in which a left slant groove 5 and a right slant groove 6 are formed in a rhombic shape, and the inner circumference of the mesh is located where it contacts the outer circumference of the mesh of the insert 3. Is arranged as. (B) is E
-E 'is a cross-sectional view showing a left inclined groove 5 on the surface of the lower mold 2.
And a right inclined groove 6 are provided. FIG. 6A shows a molded product formed by pressing the upper mold 1 and the lower mold 2 together. The molded product includes a frame body portion 10, a first net portion 11, and a second net portion 12. . (B) is a cross-sectional view of the molded product and shows the frame body portion 10, the first net portion 11, and the second net portion 12. FIG. 7 shows a case where the split insert is circular, and the first insert 4 in which the left inclined groove 5 and the right inclined groove 6 are formed in a rhombus inside the upper mold 1 and further the inside thereof A second insert 3 is provided in which only the vertical groove 7 is cut. A frame groove 9 is formed on the inner side of the lower mold 2 in FIG. 8, and a lateral groove 8 having the same area and at a position corresponding to the insert 3 is formed further inside thereof.
The lateral groove 8 portion may be the same as the lower mold 2 or may be a split insert. When these molds are pressed together, the vertical groove 7 and the horizontal groove 8 are not directly connected to the left inclined groove 5 and the right inclined groove 6 of the first insert 4, so that the effect described in FIG. Does not occur. 9 and 10 show an upper mold 1 and a lower mold 2 which are pressed against each other. The basic structure is the same as that of the mold shown in FIGS. 7 and 8, but a large diameter is formed on the lateral groove 8 of the lower mold 2. The feature is that the induction band 14 is provided. The detailed principle is
Since it has been described in Japanese Patent Application Laid-Open No. 6-87174, which is the applicant's earlier application, description thereof will be omitted.
Due to the releasing action, the inflow of the molten resin into the mesh becomes very smooth, and it is possible to obtain a special effect that the mesh can be formed quickly and that the molten resin can fully go around the mesh. There is a gate at the center intersection of the induction zone 14, and the molten resin injected from this gate is temporarily accumulated in the large-diameter induction zone 14 and then discharged all at once into the narrow lateral groove 8 and the vertical groove 7. The molten resin is sufficiently filled with the molten resin in the net grooves, which makes it possible to take many pieces and increase the number of molding shots.

Next, a rectifying filter mounted on a water outlet of a water supply using the mold apparatus of the present invention will be described based on embodiments. FIG. 13 corresponds to that, and the net portion 16 formed by the split insert is composed of the first net portion 11 and the second net portion 12, and the frame body portion 10 is formed on the outer periphery thereof.
It becomes the rectifying filter 15. In order to regulate the water flow, the mesh portion 11 may be made a coarser mesh than the mesh portion 12, and the flow rate of water may be increased. The amount of water on the outside is increased to suppress the water flow on the inside. When it is desired to save water, the net portion 12 can be made a finer mesh to suppress the water flow, and the mesh portion 11 on the outer side can be made to have a relatively coarse mesh so that the rectifying effect is not impaired. Conventionally, as shown in FIG. 26 (a), a plurality of wire mesh filters are used for rectification and water saving, but the first mesh portion 11 of the rectification filter of the present invention is used.
When the meshes of the second mesh portion 12 and the mesh of the second mesh portion 12 are combined in various shapes / roughnesses, the function of one rectifying filter is sufficiently exerted. Most of the spout filters currently on the market use three, and in some cases, five use. Further, conventionally, in most cases, a ring-shaped rubber packing is laminated together with the above-mentioned plurality of metal nets in the spout cap. This is a very troublesome thing to actually install in the spout cap, and if possible, we would like to integrate the wire mesh filter and packing. As an improvement of this, an application as shown in FIG. 27 is also filed, but since rubber packing is insert-molded on the wire mesh filter, a special device is required and the manufacturing cost becomes high. Therefore, in the present invention, as shown in FIGS. 11, 12, and 14, the packing portion 17 is integrated with the frame body portion 10.
Is formed. In FIG. 11, the packing portion 17 is formed on the outer peripheral portion of the frame body portion 10, and sealing is to be performed on the outer peripheral portion of the tap of the water supply. FIG.
Is for forming the packing portion 17 on the inner peripheral portion of the frame body portion 10 and is intended to perform sealing at the inner peripheral portion of the tap of the water supply. In FIG. 14, the packing part 17 is formed in the central part of the frame part 10, and sealing is attempted at the central part on the circumference of the faucet of the water supply. With such a filter, it is not necessary to attach it to the water outlet cap in a single operation, and it is not necessary to align the wire mesh filter with the rubber packing. Further, in order to make the packing portion 17 of the present invention more highly functional, it is possible to provide a stepped step in the packing portion 17 as shown in FIGS. Next, as an improvement when using a plurality of filters, a rectangular fitting recess 18 may be provided on the bottom surface of the frame body 10 as shown in FIG. (A) is a rectifying filter 15 in which a packing part 17 is formed on the upper surface of the frame part 10, and is arranged in the uppermost layer when a plurality of filters are combined. (B)
Is disposed immediately below the uppermost filter, and a rectangular fitting convex portion for fitting with the rectangular fitting concave portion 18 is provided on the upper surface of the frame body portion 10. A hemispherical fitting recess 18 is provided on the bottom surface. (C) is arranged in the lowermost layer, and a hemispherical fitting convex portion is provided on the upper surface of the frame body portion 10, and this is fitted into the hemispherical fitting concave portion 18. By integrally combining these three rectifying filters, the integrated laminated filter of (d) can be obtained. When the filtering agent 20 is attached between the nets 16, (e)
As a result, a more perfect rectifying filter can be obtained.
Since the plurality of filters are formed almost integrally with the fitting concave portion and the fitting convex portion, they can be attached to the spout cap very efficiently. Further, it is possible to easily combine the filters having various shapes / mesh roughness to obtain a desired water flow / rectification. Further, it is more effective if the shape of each mesh is as shown in FIG. The uppermost filter has an inverted trapezoidal shape, which increases the amount of water taken in and releases it in a concentrated manner, and the semicircular net portion of the intermediate layer filter receives it to make the water flow slightly gentle,
It discharges water while adjusting the water flow by the triangular mesh part of the filter at the bottom layer.

As a further improvement in the case of using a plurality of filters, as shown in FIGS. 20 to 21, the fitting convex portion 19 on the upper surface of the frame body portion 10 is the same as the filter having the net portion 16 of the same shape. Although not shown, by providing a fitting concave portion at a position corresponding to the fitting convex portion 19 on the bottom surface of the frame body portion 10, even when the rectifying filters of the same shape are combined with each other, the angle thereof can be adjusted. Filters having various mesh shapes can be obtained by changing each other. FIG.
When 0 (a) and (b) are combined in the positional relationship of the fitting convex portion with the mark, since there is an angle of about 22 degrees, the groove directions intersect obliquely, so that a rhombic mesh is obtained. FIG. 21 (a)
When (b) and (b) are combined with each other in the positional relationship of the fitting convex portions with marks, since there is an angle of 45 degrees, the groove directions intersect at a right angle, so that a rectangular mesh is obtained. The user can change the water flow to some extent according to his or her preference by arbitrarily combining these. Also, by coloring each filter, without attaching a mark on the fitting protrusion,
Appropriate combinations can be easily made. In the case of coloring, it is particularly effective to combine filters having different mesh shapes and different mesh numbers. A coarse filter with a small number of meshes is yellow in the top layer, a fine filter with a large number of meshes is white in the bottom layer, and anyone can easily understand the combination. FIG.
(B) is a further improvement of the present invention, which is characterized in that the fitting with the fitting convex portion 19 of (a) is a circular rail-shaped fitting concave portion 18. In this case, the fitting recess 19 and the fitting recess 1
It is not necessary to consider the positioning with respect to 8, and the die manufacturing becomes simple. In the case of plastic, some deformation is unavoidable due to changes over time and various environments. Therefore, if the fitting recess and the fitting projection are fitted at specific positions, it may not be possible to fit them. It was The circular rail-shaped fitting concave portion of the present invention eliminates the concern. (C) is a combination of the two filters shown in (a) and (b), and a rectangular net portion 16 is formed. (D) is GG '
In the cross-sectional view, 18 is a circular rail-shaped fitting recess. FIG.
3 (a) and 3 (b) show a rectifying filter provided with the induction band 14 described above. In the case of (a), the induction band and the gate are formed in the central portion of the mesh portion 16, and in the case of (b), the mesh portion 1
It is formed symmetrically at 4 points of 6. This is an effective configuration because the through hole 20 for improving the water flow is provided in the central portion, and when it is desired to increase the size of the mesh portion or increase the number of molding shots. (C) shows a filter formed by using a split insert, (d) shows a filter of the present invention in which the shape of the mesh portion 16 is a spider web and a reinforcing rib 21 is provided for reinforcing the strength of the mesh portion. Is.

24 to 25 show a plurality of filters integrated with each other through the connecting portion 22, and the combination is simplified. FIG. 24 shows a filter having three kinds of mesh numbers, and a bent rectifying filter is obtained by bending the connecting portion 22 and superposing it. FIG.
Reference numeral 5 is a combination of two filters. In one mesh portion 16 joined by the joining portion 22, a guide band 14 is provided on each mesh divided into four by the cross-shaped reinforcing ribs 21. ing. This is one improvement for surely and quickly forming the net portion 16, and the portion forming the net portion is made into a small area by the reinforcing ribs 21 and the induction zone 14 for accumulating / releasing the molten resin is formed therein. The molten resin is injected from the provided gate 23. The guide band 14 is a net 16
Since the diameter is larger than that of the mesh, the molten resin injected from the gate 23 does not immediately flow into the small-diameter mesh portion 19 and is temporarily accumulated inside the large-diameter induction zone 14. At this time, the force that tends to flow out is accumulated inside the induction zone 14, and it becomes a sufficient molten resin inflow pressure into the mesh portion 16 having a small diameter, and rapidly and strongly flows into the mesh portion 16 to cause the ribs to flow. It is possible to form the mesh portion 16 quickly while preventing the mesh portion 16 from coming off. Further, since the net portion 16 is divided into small parts by the reinforcing ribs 23 and the strong guide band 14 is used for the net part having a small size, the forming speed and reliability are very good. It is obvious that the smaller the area, the easier the formation of the net portion 16. Therefore, in the example of the present invention, the filter yield can be increased and a large number of filters can be produced, so that the mass production of the filter is possible. It can be said that it is also suitable for.

[0012]

As in the prior art, in order to prevent ribs from coming off, the frame of the filter is provided with a weir or a wall to prevent the inflow of the molten resin. However, a weir is provided in the frame surrounding the mesh. In order to make a wall, the shape of the frame could not be made flat, and at first glance it gave a feeling of sinking, which was not desirable in terms of design, and the manufacturing efficiency of the mold device was also high. Although it is bad, the present invention employs a split mold and can prevent the rib from coming off only by combining the meshes. Further, it is possible to provide an inexpensive degassing die apparatus by utilizing the structure itself of the divided die apparatus without using a large and expensive apparatus such as a gas vent for gas / air bleeding. Then, the present invention will provide a rectifying filter having a fine mesh that has the functions of simultaneously adjusting the amount of water, preventing dripping at the time of water stoppage, and removing dust and chlorine components contained in tap water. It is what In addition, the rectifying filter itself is used as a packing member, and the structure that facilitates the stacking of a plurality of rectifying filters reduces the number of parts of the water outlet filter device, and also allows the combination of a plurality of filters. This has the effect of increasing convenience in time. Although one of the embodiments of the present invention has been described above, it goes without saying that other embodiments utilizing the principle of the present invention are also covered by the protection of the present invention.

[0013]

[Brief description of the drawings]

FIG. 1 is a plan view, a cross-sectional view, and a partially enlarged view of a mold device of the present invention.

FIG. 2 is a plan view and a sectional view of the mold apparatus of the present invention.

FIG. 3 is a plan view and a sectional view of a molded product of the present invention.

FIG. 4 is a plan view and a sectional view of the mold apparatus of the present invention.

FIG. 5 is a plan view and a sectional view of the mold apparatus of the present invention.

FIG. 6 is a plan view and a cross-sectional view of a molded product of the present invention.

FIG. 7 is a plan view of the mold apparatus of the present invention.

FIG. 8 is a plan view of the mold apparatus of the present invention.

FIG. 9 is a plan view of the mold apparatus of the present invention.

FIG. 10 is a plan view of the mold apparatus of the present invention.

FIG. 11 is a cross-sectional view of the filter of the present invention.

FIG. 11 is a plan view of the mold apparatus of the present invention.

FIG. 12 is a cross-sectional view of the filter of the present invention.

FIG. 13 is a cross-sectional view of the filter of the present invention.

FIG. 14 is a cross-sectional view of the filter of the present invention.

FIG. 15 is a cross-sectional view of the filter of the present invention.

FIG. 16 is a partially enlarged cross-sectional view of the filter of the present invention.

FIG. 17 is a partially enlarged cross-sectional view of the filter of the present invention.

FIG. 18 is a cross-sectional view showing a laminated state of the filter of the present invention.

FIG. 19 is a cross-sectional view of the mold device of the present invention.

FIG. 20 is a plan view of the filter of the present invention.

FIG. 21 is a plan view of the filter of the present invention.

FIG. 22 is a plan view and a cross-sectional view of the filter of the present invention.

FIG. 23 is a plan view of the filter of the present invention.

FIG. 24 is a plan view of the filter of the present invention.

FIG. 25 is a plan view of the filter of the present invention.

FIG. 26 is a perspective view of a conventional filter attachment, a plan view and a cross-sectional view of the filter.

FIG. 27 is a cross-sectional view of a conventional filter.

[Explanation of symbols]

 3 2nd nesting 4 1st nesting 5 Left slanting groove 6 Right slanting groove 7 Right slanting groove 8 Vertical groove 8 Horizontal groove 9 Frame groove 10 Frame body part 11 First mesh part 12 Second mesh part 13 Gas vent hole 14 Induction Belt 17 Packing part 18 Fitting concave part 19 Fitting convex part 22 Coupling part

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[Procedure amendment]

[Submission date] March 9, 1996

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Brief description of drawings

[Correction method] Change

[Correction contents]

[Brief description of the drawings]

FIG. 1 is a plan view, a cross-sectional view, and a partially enlarged view of a mold device of the present invention.

FIG. 2 is a plan view and a sectional view of the mold apparatus of the present invention.

FIG. 3 is a plan view and a sectional view of a molded product of the present invention.

FIG. 4 is a plan view and a sectional view of the mold apparatus of the present invention.

FIG. 5 is a plan view and a sectional view of the mold apparatus of the present invention.

FIG. 6 is a plan view and a cross-sectional view of a molded product of the present invention.

FIG. 7 is a plan view of the mold apparatus of the present invention.

FIG. 8 is a plan view of the mold apparatus of the present invention.

FIG. 9 is a plan view of the mold apparatus of the present invention.

FIG. 10 is a plan view of the mold apparatus of the present invention.

FIG. 11 is a cross-sectional view of the filter of the present invention.

FIG. 12 is a cross-sectional view of the filter of the present invention.

FIG. 13 is a cross-sectional view of the filter of the present invention.

FIG. 14 is a cross-sectional view of the filter of the present invention.

FIG. 15 is a cross-sectional view of the filter of the present invention.

FIG. 16 is a partially enlarged cross-sectional view of the filter of the present invention.

FIG. 17 is a partially enlarged cross-sectional view of the filter of the present invention.

FIG. 18 is a cross-sectional view showing a laminated state of the filter of the present invention.

FIG. 19 is a cross-sectional view of the mold device of the present invention.

FIG. 20 is a plan view of the filter of the present invention.

FIG. 21 is a plan view of the filter of the present invention.

FIG. 22 is a plan view and a cross-sectional view of the filter of the present invention.

FIG. 23 is a plan view of the filter of the present invention.

FIG. 24 is a plan view of the filter of the present invention.

FIG. 25 is a plan view of the filter of the present invention.

FIG. 26 is a perspective view of a conventional filter attachment, a plan view and a cross-sectional view of the filter.

FIG. 27 is a cross-sectional view of a conventional filter.

[Explanation of reference numerals] 3 Second insert 4 First insert 5 Left slant groove 6 Right slant groove 7 Vertical groove 8 Horizontal groove 9 Frame groove 10 Frame body portion 11 First mesh portion 12 Second mesh portion 13 Gas vent hole 14 Induction zone 17 Packing part 18 Fitting concave part 19 Fitting convex part 22 Coupling part

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁶ Identification code Agency reference number FI Technical display location B29L 31:14

Claims (21)

[Claims] 1. A mold apparatus for producing a plastic filter having a mesh by injection molding, which has a plurality of inserts each having a net groove, and adjacent nets and net grooves of the nest are adjacent to each other. The plastic which is characterized in that the molten resin flowing in the mesh groove of the first insert does not directly flow into the mesh groove of the second insert but flows in a detour by being arranged not to be directly connected. Filter mold equipment. 2. The gas / air vent hole is provided between the first insert and the second insert, and gas / air generated during molding is discharged to the outside of the mold. Plastic filter mold equipment. 3. One side for pressing a first mold and a second mold having mesh grooves formed in the respective nests that are not directly connected to each other at their ends and pressing a lower mold having no mesh groove at all. The mold device for a plastic filter according to claim 1, wherein the mold is a carved mold. 4. A double-sided engraving die in which mesh grooves that are not directly connected to each other are formed in an upper insert and a lower insert that are shaped so that they do not overlap each other on their push cut surfaces, and they are pressed together. The said claim 1 characterized by the above-mentioned.
2. A mold device for a plastic filter according to claim 2. 5. The mold device for a plastic filter according to claim 1, wherein a frame groove for forming a frame is formed in the outer peripheral portion of the upper and / or lower net grooves. 6. An induction band having a diameter larger than that of the net groove for accumulating / releasing the molten resin and a gate for injecting the molten resin on the induction band are formed on the net groove. A mold device for a plastic filter according to claim 1. 7. A plastic filter using the mold apparatus according to any one of claims 1 to 6, wherein the meshes of the inner peripheral net portion and the outer peripheral net portion are not directly connected to each other at the end of each net portion. A rectifying filter attached to the spout. 8. In a rectifying filter mounted on a faucet such as a water supply, (a) a net portion made of plastic for adjusting water flow / water amount, and (b) surrounding a periphery of the net portion and inside a spout cap. A frame body made of plastic that acts as a frame for locking to the frame, and (c) a packing portion formed of a projecting ring on the top or bottom of the frame body are integrally provided. Plastic rectifier filter. 9. The plastic rectifying filter according to claim 8, wherein the packing portion of the frame body is a stepped projection ring having a plurality of steps. 10. The plastic rectifying filter according to claim 8, wherein the packing portion of the frame body portion is provided substantially at the center of the frame body portion. 11. The plastic rectifying filter according to claim 8, wherein the packing portion of the frame body portion is provided on an outer peripheral portion of the frame body portion and is formed to be inclined toward an inner peripheral direction. 12. The plastic rectifying filter according to claim 8, wherein the packing portion of the frame body portion is provided on an inner peripheral portion of the frame body portion and is formed to be inclined toward an outer peripheral direction. 13. A rectifying filter mounted on a faucet such as a water supply, wherein (a) a net portion made of plastic for adjusting water flow / water amount, and (b) surrounding the periphery of the net portion and inside a spout cap. A frame body made of plastic that acts as a frame for locking to, and (c) a fitting protrusion formed in a convex shape on the top or bottom surface of the frame body,
(D) A fitting recess formed in a concave shape on the bottom surface or the top surface of the frame body, and the fitting projection and the fitting recess are fitted together to form a filter having a plurality of layers. Plastic rectifier filter. 14. The plastic rectifying filter according to claim 13, wherein the fitting recess is formed as an annular recess on the bottom surface of the frame body. 15. A plurality of rectifying filters having different mesh structures or mesh shapes are formed with symmetrical fitting protrusions and fitting recesses on the top and bottom surfaces, respectively, so that various rectifying filters can be freely combined. The plastic rectifying filter according to claim 13, wherein 16. A plurality of rectifying filters having different colors are provided with a fitting convex portion and a fitting concave portion symmetrically formed on the upper surface and the bottom surface thereof, respectively, to freely combine various color rectifying filters. The plastic rectifying filter according to claim 13, wherein 17. A rectifying filter mounted on a faucet such as a water supply, wherein: (a) a net portion made of plastic for adjusting water flow / water amount; and (b) surrounding a periphery of the net portion and inside a spout cap. A frame portion made of plastic that acts as a frame for locking to the wire, and (c) an induction zone having a diameter larger than that of the mesh groove for accumulating / releasing the molten resin on the mesh portion, and the induction zone. A plastic rectifying filter having a gate for injecting a molten resin formed thereon. 18. A plurality of induction zones having a diameter larger than that of the mesh grooves for accumulating / releasing the molten resin and a gate for injecting the molten resin on the induction zones are formed on the mesh portion. The plastic rectifier filter according to claim 17, wherein 19. A plurality of induction zones having a diameter larger than that of the mesh grooves for accumulating / releasing the molten resin and a gate for injecting the molten resin on the induction zones are formed on the mesh portion. The plastic rectifying filter according to claim 17, further comprising a large-diameter rib having a shape that divides the mesh portion into a plurality of portions so as to surround each induction band. 20. In a rectifying filter mounted on a faucet such as a water supply, (a) a net portion made of plastic for adjusting water flow / water amount, and (b) surrounding the periphery of the net portion and inside a spout cap. A frame body made of plastic that acts as a frame for locking the rectification filter, and (c) a coupling portion for coupling each rectification filter between a plurality of rectification filters having different mesh structures or shapes of the mesh portion. ,
The plastic rectifier filter is characterized in that a plurality of rectifier filters can be integrally used by providing the. 21. In a mold device for manufacturing a rectifying filter to be attached to a faucet such as a water supply, (a) a net groove made of plastic for adjusting water flow / water amount is separately formed in a staircase shape. And (b) providing a connecting portion groove for forming a connecting portion between the plurality of net groove portions,
(C) A mold device for a plastic rectifying filter, wherein the coupling groove has a stepped structure, and a plurality of integrated plastic rectifying filters are manufactured.