CN213006105U - Die set - Google Patents

Abstract

The utility model discloses a mold, wherein, have the quasicrystal coating on the internal surface of mold, the quasicrystal coating is formed by the quasicrystal material. Therefore, the mold has the advantages of long service life, demolding resistance and demolding efficiency, and further can reduce the scratch probability of the surface of the injection molding part and improve the quality of the injection molding part. In addition, the inner surface of the mold has a lower friction coefficient, so that the draft angle is lower, the requirement of the current market on the appearance design of the injection molding part is met, and the market competitiveness of the product is improved.

Description

Die set

Technical Field

The utility model belongs to the mould field particularly, the utility model relates to a mould.

Background

In order to facilitate the removal of the plastic part from the mold cavity during the plastic molding process, the contact portion between the plastic part and the sidewall of the mold must have a draft angle, called draft angle. The draft angle is related to the non-tackiness of the inner surface of the mold and the friction coefficient, the better the non-tackiness of the inner surface of the mold, the lower the friction coefficient, the smaller the draft angle can be designed. The draft of a common metal die is 0.5-2 degrees, and the small draft can cause the increase of the demoulding resistance and scratch the surface of a finished piece. However, the market is more and more pursuing differentiated products, and products designed by small-angle die drawing are favored by consumers. Therefore, the current injection mold is in need of further improvement.

SUMMERY OF THE UTILITY MODEL

The present invention aims at solving at least one of the technical problems in the related art to a certain extent. Therefore, the utility model discloses an aim at propose one kind have the internal surface hardness height, the low mould of coefficient of friction.

According to an aspect of the utility model, the utility model provides a mould, according to the utility model discloses a specific embodiment, the quasi-crystal coating has on the internal surface of mould, the quasi-crystal coating is formed by the quasi-crystal material.

From this, the utility model discloses the mould of above-mentioned embodiment is through forming the quasicrystal coating on the inner surface, has good cohesion between this quasicrystal coating and the mould internal surface, is difficult for droing to this quasicrystal coating has high rigidity, low coefficient of friction and excellent non-stick performance's advantage. Therefore, the service life of the die can be obviously prolonged, the demolding resistance can be further reduced, the demolding efficiency of the injection molding part is improved, the scratch probability of the surface of the injection molding part is reduced, and the quality of the injection molding part is improved. In addition, because the mold is internally provided with the quasicrystal coating with low friction coefficient and excellent non-stick performance, the demolding difficulty is reduced, the draft angle can be further reduced, the appearance design requirement of injection molding parts is met, and the market competitiveness of products is improved.

In the present invention, the quasicrystalline material comprises one or more of aluminum, iron, copper, chromium, titanium, nickel, and zirconium.

In the utility model, the quasicrystal material contains 60-70% of aluminum, 15-25% of copper, 5-15% of iron and 5-15% of chromium by atomic percentage respectively.

In the present invention, the draft of the mold is 0.5 ° or less.

The utility model discloses in, the material of mould is stainless steel or aluminum alloy.

In the present invention, the hardness of the inner surface of the mold is 5 to 6 GPa.

In the present invention, the friction coefficient of the inner surface of the mold is 0.4 to 0.5.

In the present invention, the inner surface of the cavity of the mold and/or the outer surface of the core have the quasicrystalline coating.

In the present invention, the insert of the die, the outer surface of the slider have the quasicrystalline coating.

Drawings

Fig. 1 is a structural view of a mold according to an embodiment of the present invention.

Fig. 2 is a flow chart of a method of making a mold according to one embodiment of the present invention.

Fig. 3 is a flow chart of a method of making a mold according to another embodiment of the present invention.

Fig. 4 is a flow chart of a method of making a mold according to the present invention in one embodiment.

Fig. 5 is a flow chart of a method of making a mold according to the present invention in one embodiment.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

According to an aspect of the present invention, as shown in fig. 1, the present invention provides a mold 100, according to the specific embodiment of the present invention, the inner surface of the mold 100 has a quasicrystalline coating 110 thereon, and the quasicrystalline coating 110 is formed of a quasicrystalline material.

From this, the utility model discloses the mould of above-mentioned embodiment is through forming the quasicrystal coating on the inner surface, has good cohesion between this quasicrystal coating and the mould internal surface, is difficult for droing to this quasicrystal coating has high rigidity, low coefficient of friction and excellent non-stick performance's advantage. Therefore, the service life of the die can be obviously prolonged, the demolding resistance can be further reduced, the demolding efficiency of the injection molding part is improved, the scratch probability of the surface of the injection molding part is reduced, and the quality of the injection molding part is improved. In addition, because the quasi-crystal coating with low friction coefficient and excellent non-stick performance is arranged in the mold, the friction force between the product and the mold is reduced, and meanwhile, the product can be prevented from being adhered to the mold in the demolding process, so that the demolding difficulty is reduced, the draft angle can be lowered, the appearance design requirement of an injection molding part is improved, and the market competitiveness of the product is improved.

Therefore, the mold of the above embodiment of the present invention is based on the modification of the inner surface of the mold by the inventors, and in an unexpected attempt to form a quasicrystalline coating on the inner surface of the mold, it was found that a complete quasicrystalline coating can be formed, and the quasicrystalline coating can be firmly bonded to the inner surface of the mold. Through further testing that the quasi-crystal coating has higher hardness and lower friction coefficient than stainless steel, the demoulding resistance of the injection molding piece in the mould can be obviously reduced, so that the demoulding efficiency is improved, and the scratch to the injection molding piece is reduced.

According to a specific embodiment of the present invention, the quasicrystalline material comprises one or more of aluminum, iron, copper, chromium, titanium, nickel and zirconium.

According to an embodiment of the present invention, preferably, the quasicrystalline material forming the quasicrystalline coating layer comprises aluminum, copper, iron and chromium. Therefore, the hardness of the quasicrystal coating can be further improved, the friction coefficient of the quasicrystal coating can be reduced, and the service life and the demoulding efficiency of the mould can be further improved.

According to the specific embodiment of the present invention, the quasicrystalline material contains 60-70 atomic% of aluminum, 15-25 atomic% of copper, 5-15 atomic% of iron, and 5-15 atomic% of chromium, respectively. Therefore, the content and purity of the quasicrystal in the quasicrystal powder can be further improved. The quasicrystal powder with the above element components and proportions has special diffraction spots with 5-order rotational symmetry and ten-order rotational symmetry, thereby forming a structure of a ten-order body and an icosahedron. Therefore, the hardness of the quasicrystal coating can be further improved, the friction coefficient is reduced, and then the mold can be set to have smaller draft so as to improve the product quality of injection molding parts.

According to the utility model discloses a specific embodiment, quasi-crystal coating on the internal surface of mould, specifically, quasi-crystal coating can only exist and need set up the drawing die on the mould

On the lateral wall of inclination, and then can still effectively reduce the draft angle under the prerequisite of saving quasi-crystal coating cost, just improve the product quality of injection molding.

According to the embodiment of the present invention, the draft angle of the existing mold is 0.5 ° -2 °, and the draft angle α of the mold with the quasicrystalline coating inner surface of the embodiment of the present invention can be reduced to below 0.5 ° (as shown in fig. 1). Therefore, the appearance design requirement of the injection molding part can be further improved, and the market competitiveness of the product is improved.

According to the utility model discloses a concrete embodiment, the material of above-mentioned mould is stainless steel or aluminum alloy. And the quasicrystal coating of the inner layer has higher hardness and lower friction coefficient than stainless steel, so that the demoulding efficiency of the stainless steel or aluminum alloy mould can be obviously improved, the draft angle is reduced, and the market competitiveness of products is improved.

According to the specific embodiment of the utility model, above-mentioned mould can be the mould that is used for moulding plastics frying pan, stew pot, electricity rice cooker or pressure cooker etc. with plastic accessories. And then can improve the drawing of patterns efficiency of injection molding, reduce the fish tail to the injection molding surface simultaneously, improve the quality of injection molding, and then improve the quality of frying pan, stew pot, electricity rice cooker and pressure cooker etc.. Meanwhile, the molds have smaller draft angles, so that the appearance design requirements of injection molding parts of a frying pan, a stew pan, an electric cooker, a pressure cooker and the like can be further met, and the market competitiveness of the product is improved.

According to a specific embodiment of the present invention, the hardness of the inner surface of the mold is 5-6 GPa. Therefore, the service life of the die can be further prolonged, and the die drawing efficiency can be improved.

According to a particular embodiment of the invention, the coefficient of friction of the inner surface of the mould is between 0.43 and 0.5. From this the lower coefficient of friction of this mould can show improvement drawing of patterns efficiency, reduces the fish tail to the injection molding, has simultaneously and can also reduce the draft of mould under the prerequisite of lower coefficient of friction, and then can further satisfy the requirement to the injection molding appearance design, improves the market competition of product.

According to the utility model discloses a specific embodiment has the quasicrystal coating on the internal surface of mould, and the quasicrystal coating can only exist on the mould need set up the lateral wall of draft on the mould promptly, and is specific, the internal surface of the die cavity of mould and/or the surface of mold core have the quasicrystal coating, the surface of the insert of mould, slider has the quasicrystal coating. On the premise of saving the cost for preparing the quasi-crystal coating, the draft angle of the drawing die can be effectively reduced, and the quality of a molded product is further improved; and because of the excellent non-stick performance of the quasicrystal coating, the product can be prevented from being adhered to the surface of a mold cavity and/or a mold core, and the difficulty in mold drawing is reduced.

According to another aspect of the present invention, the present invention also provides a method of making the mold of the previous embodiment. According to the utility model discloses an embodiment, this method includes:

(1) carrying out powder making treatment on the quasicrystal alloy ingot so as to obtain quasicrystal powder;

(2) spheroidizing the quasicrystal powder to obtain quasicrystal particles; and

(3) and providing a mould forming product, and forming a quasicrystal coating on the inner surface of the mould forming product based on the quasicrystal particles.

From this, through adopting the utility model discloses the method of preparation mould of above-mentioned embodiment can form the quasicrystal coating on the internal surface of mould shaping article effectively, and then is showing the hardness that improves the mould internal surface, reduces coefficient of friction. Thereby remarkably prolonging the service life of the die and more importantly, further reducing the demoulding resistance of the die. Therefore, the mold can be used for remarkably improving the demolding efficiency of the injection molding part, further reducing the scratch probability of the surface of the injection molding part and improving the quality of the injection molding part. In addition, because the low-friction-coefficient quasicrystal coating is arranged in the mold, the demolding difficulty is reduced, the mold drawing inclination of the mold is further reduced, the appearance design requirement of an injection molding piece is further improved, and the market competitiveness of a product is improved.

The method for manufacturing the mold according to the embodiment of the present invention is described in detail below with reference to fig. 2 to 5:

s100: powder processing

According to the embodiment of the present invention, in the step (1), the quasicrystalline alloy ingot is formed by performing a melting process on a mixture containing one or more of aluminum, iron, copper, chromium, titanium, nickel, and zirconium.

Firstly, a quasi-crystal alloy ingot is subjected to powder making treatment so as to obtain quasi-crystal powder.

According to a specific embodiment of the present invention, the quasicrystalline alloy ingot is formed by melting a mixture containing aluminum material, copper material, iron material and chromium material. Therefore, the obtained quasicrystal alloy ingot is more suitable for forming a quasicrystal coating later.

According to a specific embodiment of the present invention, the atomic percentages of aluminum, copper, iron and chromium in the above mixture are: 60-70% of aluminum, 15-25% of copper, 5-15% of iron and 5-15% of chromium. Therefore, the quasicrystal content in the obtained quasicrystal coating can be higher. Further improving the hardness of the quasi-crystal coating, reducing the friction coefficient of the quasi-crystal coating and further improving the performance of the die.

According to the specific embodiment of the present invention, the processing method for preparing the quasicrystalline alloy ingot into the quasicrystalline powder is not particularly limited, and those skilled in the art can flexibly select the quasicrystalline powder according to actual needs. According to the utility model discloses a preferred embodiment can prepare quasicrystal alloy ingot into quasicrystal powder through atomizing system powder method, and the quasicrystal powder that from this preparation obtains is more suitable for follow-up being used for forming the quasicrystal coating.

S200: spheroidizing treatment

Secondly, the quasicrystalline powder prepared above is spheroidized to obtain quasicrystalline particles. The quasicrystal particles obtained by spheroidizing have better fluidity, so that the feeding of the quasicrystal particles in the subsequent spraying treatment process is facilitated, and the spraying uniformity is improved.

According to an embodiment of the present invention, the particle size of the quasicrystalline particles is less than 150 μm. Therefore, the quasicrystal coating can be effectively formed on the inner surface of the die forming product, so that the hardness of the inner surface of the die is improved, and the friction coefficient of the inner surface is reduced. Specifically, the particle diameter of the quasicrystalline particles is preferably 60 μm, 70 μm, 80 μm, 90 μm, 100 μm, 110 μm, 115 μm, 120 μm, or 150 μm. This can further increase the hardness of the inner surface of the mold and reduce the friction coefficient of the inner surface.

S300: spray coating treatment

Finally, providing a mould forming product, and uniformly forming a quasicrystal coating on the inner surface of the mould forming product based on the quasicrystal particles.

According to a specific embodiment of the present invention, the quasicrystalline coating is formed by plasma spraying. Therefore, the quasicrystal coating can be effectively formed on the inner surface of the die forming product, and the method is mature in process, easy to operate and easy for industrial production.

According to the utility model discloses a concrete embodiment, above-mentioned plasma spraying treatment's condition includes: the arc power is 30-40kW, the main gas flow is 50-60L/min, the auxiliary gas flow is 20-30L/min, and the powder delivery amount is 15-20 g/min. Whereby the quasicrystalline coating can be formed uniformly.

S400: annealing treatment

According to an embodiment of the present invention, referring to fig. 3, the method of forming a quasicrystalline coating of the present invention further includes, after step S300: and annealing the quasicrystalline coating.

In this step, annealing treatment is performed on the alignment crystal coating. The inventors have found that forming a quasicrystalline coating on the inner surface of a mould by plasma spraying converts at least a portion of the quasicrystalline particles to an amorphous phase. And then, the quasicrystal seed crystal in the quasicrystal coating can be converted into quasicrystal again by annealing the quasicrystal coating, so that the quasicrystal content in the quasicrystal coating is improved.

According to the embodiment of the present invention, the annealing treatment is performed in an inert gas atmosphere or vacuum, the temperature of the annealing treatment is 600-800 ℃, and the time is 0.5-6 hours. Preferably 650 ℃, 700 ℃ and 750 ℃. Therefore, the annealing in the temperature range can not only convert the amorphous phase converted by plasma spraying in the quasicrystal coating into quasicrystal again at high temperature, but also ensure that the quasicrystal crystal seed in the quasicrystal coating grows into quasicrystal crystal grains, and the quality of the quasicrystal coating cannot be influenced; if the temperature is lower than 600 ℃, the amorphous phase is not enough to be converted into quasi-crystal, but the quasi-crystal content in the quasi-crystal coating is increased compared with the quasi-crystal coating before annealing treatment; if the temperature is higher than 800 ℃, although the content of the quasicrystal in the bottom layer and the quasicrystal coating can be greatly increased, in the annealing process, the too high temperature can cause the coating to have too high thermal stress, and the too high thermal stress can cause the quasicrystal coating to crack, thereby seriously affecting the quality and the service performance of the quasicrystal coating and also affecting the friction coefficient of the quasicrystal coating.

S500: polishing treatment

According to an embodiment of the present invention, as shown in fig. 4, after the annealing process is completed, the method further includes polishing the surface of the crystal coating to a roughness Ra of less than 2 μm. Therefore, the friction coefficient of the surface of the quasicrystal coating can be further improved, the demolding efficiency is further improved, the scratch probability of the surface of the injection molding part is reduced, and the quality of the injection molding part is improved. In addition, because the low-friction-coefficient quasicrystal coating is arranged in the mold, the demolding difficulty is reduced, the draft angle can be lowered, the requirement on the appearance design of an injection molding piece is met, and the market competitiveness of a product is improved.

S600: cleaning treatment

According to the embodiment of the present invention, as shown in fig. 5, before step S300, the inner surface of the mold product is subjected to cleaning and sanding in advance, and the cleaning includes: and sequentially adopting alcohol, trichloroethylene and purified water to carry out ultrasonic cleaning so as to remove rust. Therefore, the inner surface of the die forming product is cleaned, the binding force between the quasicrystal coating and the inner surface can be further improved, and the quasicrystal coating is not easy to fall off, so that the quality of the die is improved.

Example 1

The stainless steel mold was prepared as follows:

(1) pure aluminum, pure copper, pure iron and pure chromium are adopted as raw materials, and according to aluminum: 60-70%, copper: 15-25%, iron: 5-15%, chromium: 5-15% of the raw materials are mixed respectively.

(2) And putting the weighed raw materials into a medium-frequency induction furnace for smelting treatment, wherein iron and chromium are placed at the bottom end of the medium-frequency induction furnace. And introducing inert gas as protective gas in the whole smelting process or vacuumizing the furnace, and after the alloy is completely melted and slag is removed, casting to obtain a quasi-crystal alloy ingot.

(3) And supplying the quasicrystal alloy ingot into an atomization powder making device, carrying out atomization powder making, and obtaining quasicrystal powder by adopting inert gas protection or vacuumizing a system in the whole process.

(4) And spheroidizing and screening the prepared quasicrystal powder to obtain quasicrystal particles with the particle size of less than 150 um.

(5) And cleaning and drying the inner surface of the stainless steel mold forming product by sequentially adopting modes of alcohol, trichloroethylene or pure water and ultrasonic waves and the like, wherein the surface cannot have rust and the like before plasma spraying.

(6) Forming a bottom layer on the inner surface of the stainless steel mold forming product by using a plasma spraying device based on the quasicrystal particles; the working conditions of the plasma spraying device are as follows: the arc power is 30-40kW, the main gas flow is 50-60L/min, the auxiliary gas flow is 20-30L/min, and the powder delivery amount is 15-20 g/min.

(7) Annealing the mold with the quasicrystal coating by using an annealing device in an inert gas atmosphere or vacuum, wherein the annealing temperature is 600-800 ℃, and the specific conditions are as follows: the temperature rising rate is 5-100 ℃/min, the heat preservation time is 0.5-4 h, the temperature reduction rate is 5-100 ℃/min, the temperature is reduced to 200-300 ℃, and the temperature is cooled to the room temperature along with the furnace.

(8) The surface of the alignment crystal coating is polished to a roughness Ra of less than 2 microns. The draft angle was 0.3 °.

Comparative example 1

Providing a stainless steel mold, wherein the roughness of the inner surface of the stainless steel mold is the same as that of the stainless steel mold in the embodiment 1; the difference from example 1 is that the stainless steel mold does not have a quasicrystalline coating

And (3) testing and analyzing:

the hardness of the inner surface, the frictional force and the average friction coefficient of the mold prepared in example 1 and the existing stainless steel mold provided in comparative example 1 were respectively tested and analyzed.

And (3) hardness testing: the hardness unit is GPa by adopting a Vickers hardness meter.

And (3) testing the friction coefficient: a rotary friction tester is adopted, the load is 1000g, the experimental time is 40 minutes, and the rotating speed is 200 r/min.

And (3) testing results:

	vickers hardness (GPa)	Frictional force	Average coefficient of friction
				Example 1	5.5	1.230	0.4783
Comparative example 1	2.8	4.532	0.7882

As is apparent from the comparison of the above test data, the hardness of the inner surface of the mold (stainless steel mold with quasicrystalline coating) prepared in example 1 is 2 times higher than that of the existing stainless steel mold; the friction force is only 1/4 of the existing stainless steel die; and the average friction coefficient is reduced by 50 percent compared with the prior stainless steel die. Therefore, the mold prepared by the method in the embodiment 1 has stronger hardness and lower friction force and friction coefficient, so that the service life of the mold can be obviously prolonged, the demolding efficiency is improved, the scratch of an injection molding piece is reduced, and simultaneously, the draft angle of the mold can be reduced to 0.3 degrees, so that the requirement of the appearance design of the injection molding piece can be further met, and the product quality and the market competitiveness are improved.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.

Claims (8)

1. A mold having a quasicrystalline coating on an inner surface thereof, the quasicrystalline coating being formed of a quasicrystalline material, wherein a draft angle of the mold is 0.5 ° or less.

2. The mold of claim 1, wherein the mold is a mold for injection molding of plastic parts for woks, frying pans, stews, rice cookers, or pressure cookers.

3. The mold according to claim 1, wherein the draft angle of the mold is 0.3 to 0.5 °.

4. The mold according to claim 1, wherein the material of the mold is stainless steel or aluminum alloy.

5. The mold of claim 1, wherein the hardness of the inner surface of the mold is 5-6 Gpa.

6. The mold of claim 1, wherein the inner surface of the mold has a coefficient of friction of 0.4 to 0.5.

7. The mold of claim 1, wherein an inner surface of a cavity of the mold and/or an outer surface of a core of the mold has the quasicrystalline coating.

8. The die of claim 1, wherein the insert of the die, the outer surface of the slide, has the quasicrystalline coating.

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