CN116766695A - Full-automatic wax dipping device for carton production and wax dipping process thereof - Google Patents

Abstract

The invention provides a full-automatic waxing device for carton production and a waxing process thereof, comprising a conveyor belt, wherein the conveyor belt sequentially passes through a first powder spreading unit, a first baking oven, a first cooling bin, a second powder spreading unit, a second baking oven and a second cooling bin, the first powder spreading unit and the second powder spreading unit are respectively arranged at a plurality of output ends of a screening linkage mechanism, the first powder spreading unit, the first baking oven, the first cooling bin, the second powder spreading unit, the second baking oven and the second cooling bin are all arranged in a main frame, the top surface of the main frame is provided with a feeding hopper, and the feeding hopper is arranged above the screening linkage mechanism; and the double-layer wax film is formed by spreading and baking for multiple times, so that the waterproof performance of the carton is further improved, the production cost is greatly reduced, and the commodity quality is improved.

Description

Full-automatic wax dipping device for carton production and wax dipping process thereof

Technical Field

The invention relates to the technical field of carton production equipment, in particular to a full-automatic wax dipping device for carton production and a wax dipping process thereof.

Background

The wax-impregnated paper box is a novel paper box manufactured by impregnating common corrugated paper boxes with wax liquid in a molten state, has strong waterproof and moistureproof capacity and good pressure resistance, is used for packing vegetables, fruits, meats, aquatic products and seafood in a refrigeration house or a humid environment, and can prevent the paper boxes from water seepage and crush, thereby effectively protecting products in the boxes. The wax dipping paper box can effectively replace a plastic box and a foam box, is more environment-friendly than a plastic packing box, and can be recycled by a paper mill or used for producing other environment-friendly building materials, thereby being a green package which can be greatly popularized.

The existing carton wax dipping technology is divided into two types: one is that after the paper box is immersed in the synthetic wax melt, the paper box is suspended, leveled and solidified, and the way needs to keep the synthetic wax melt state all the time, so the energy consumption is high; the other is that a small amount of synthetic wax powder is preheated into wax liquid and then sprayed on the preheated paper box, and the hanging leveling solidification is completed.

Disclosure of Invention

The invention provides a full-automatic wax dipping device for carton production and a wax dipping process thereof, aiming at solving the technical problems of the two carton wax dipping processes in the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a full-automatic wax dipping device is used in carton production, includes the conveyer belt, the conveyer belt is through first shop's powder unit, first stoving case, first cooling storehouse, second shop's powder unit, second stoving case and second cooling storehouse in proper order, first shop's powder unit with the second shop's powder unit locates a plurality of outputs of screening link gear respectively, first shop's powder unit first stoving case first cooling storehouse the second shop's powder unit the second stoving case with the inside of main frame is all located in the second cooling storehouse, the top surface of main frame is equipped with the charging hopper, the charging hopper is located screening link gear's top.

Further, the first powder spreading unit and the second powder spreading unit are consistent in structure and comprise spreading boxes, a plurality of sliding sleeves are symmetrically arranged on two sides of each spreading box and are respectively and slidably connected to the middle parts of spreading guide rods, and two ends of each spreading guide rod are respectively arranged on one sides of each guide rod fixing block; the guide rod fixing blocks are respectively arranged on two sides of the inside of the main frame, and the upper part of the spreading box is arranged at a plurality of output ends of the screening linkage mechanism.

Further, a plurality of strip-shaped spreading holes are formed in the bottom surface of the spreading box, the minimum aperture width of the strip-shaped spreading holes of the spreading box in the first powder spreading unit is 0.3mm, and the minimum aperture width of the strip-shaped spreading holes of the spreading box in the second powder spreading unit is 0.15mm.

Further, screening link gear includes the screening pipeline, the input of screening pipeline is located the lower extreme of charging hopper, a plurality of outputs of screening pipeline are equipped with a plurality of linkage shifting blocks respectively, and is a plurality of the linkage shifting block is located respectively first shop whitewashed unit with the upper portion of powder unit is spread to the second, the middle part of screening pipeline is equipped with the screen cloth, the bilateral symmetry of screening pipeline is equipped with a plurality of reciprocal lane change units, and a plurality of reciprocal lane change unit is located respectively the inside both sides of main frame, the one end of screening pipeline is equipped with actuating mechanism.

Further, the screening pipeline comprises a screening box, the bottom surface of the screening box is provided with a screen, one side of the screening box is provided with a coarse grain conveying channel, the lower part of the screening box is provided with a fine grain conveying channel, the lower end of the coarse grain conveying channel is arranged on the upper part of the first powder paving unit through a plurality of linkage shifting blocks, and the fine grain conveying channel is arranged on the upper part of the second powder paving unit through a plurality of linkage shifting blocks.

Further, the linkage shifting block comprises a channel-changing chute, the channel-changing chute is slidably connected to the lower end of one of the conveying channels, linkage clamping grooves are symmetrically formed in two ends of the channel-changing chute, and the linkage clamping grooves are formed in the upper portion of one of the powder paving units.

Further, the reciprocating channel changing unit comprises a channel changing limiting block, an olive-shaped chute is formed in the middle of the channel changing limiting block, the middle of the olive-shaped chute is rotationally connected with the middle of a channel changing block, a torsion spring is arranged in the middle of the channel changing block, a guide column is arranged in the olive-shaped chute and outside the channel changing block, and one end of the guide column is arranged on one side of the screening pipeline.

Further, the actuating mechanism includes the biax motor, a plurality of execution ends of biax motor are coaxial coupling bent axle's one end respectively, and is a plurality of the other end of bent axle rotates respectively and connects in the both ends of drive base, drive base's both ends are located respectively the inside both sides of main frame, biax motor is located drive base's middle part, a plurality of the one end of drive connecting rod is rotated respectively in the middle part of bent axle, a plurality of the other end of drive connecting rod rotate respectively connect in the one end both sides of screening pipeline.

According to the technical scheme, the wax dipping process of the full-automatic wax dipping device for carton production is also provided, and comprises the following steps of:

s1, preparing materials: preparing a wax powder and a semi-finished product carton, and screening the wax powder to the first powder spreading unit and the second powder spreading unit through the screening linkage mechanism;

s2, primarily paving wax powder: uniformly screening wax powder on the surface of a semi-finished product carton through the first powder paving unit;

s3, baking to form a film: baking the semi-finished product paper box attached with the wax powder through the first baking box to melt the wax powder and form a bottom wax film;

s4, cooling and solidifying: the baked paper box enters the first cooling bin for cooling;

s5, spreading wax powder: uniformly screening the wax powder on the surface of the semi-finished product carton through the second powder paving unit;

s6, secondary baking: baking the semi-finished product paper box attached with the wax powder through the second baking box to enable the wax powder to be melted, so that a two-layer wax film is formed;

s7, curing and blanking: and (5) entering the second cooling bin for cooling, and discharging and packaging after the cooling is finished.

Further, the particle size of the wax powder in the step S2 is 0.1-0.3 mm, and the particle size of the wax powder in the step S5 is less than 0.15mm.

Compared with the prior art, the invention has the beneficial effects that:

the wax powder is paved on the surface of the paper box in a spreading way and baked to form the wax film, so that the energy consumption is low, and the situation that dewaxing is excessive during leveling is avoided; and the double-layer wax film is formed by spreading and baking for multiple times, so that the waterproof performance of the carton is further improved, the production cost is greatly reduced, and the commodity quality is improved.

Drawings

FIG. 1 is a schematic view of the external structure of the present invention;

FIG. 2 is a schematic illustration of a cut-away view of the internal structure of the present invention;

FIG. 3 is a schematic drawing showing a cross-section of the internal structure of the present invention;

FIG. 4 is a schematic diagram of the structure of the powder spreading unit of the present invention;

FIG. 5 is a schematic view of the screening linkage of the present invention;

FIG. 6 is a schematic view of a cross-section of the screening linkage of the present invention;

FIG. 7 is a schematic view of the screening tube construction of the present invention;

FIG. 8 is a schematic diagram of a linkage block structure of the present invention;

FIG. 9 is a schematic diagram illustrating the disassembly of the reciprocating lane-changing unit structure of the present invention;

fig. 10 is a schematic view of the driving mechanism of the present invention.

In the figure: 10. a conveyor belt; 20. a first powder spreading unit; 201. spreading the box; 2011. spreading holes in a strip shape; 202. a sliding sleeve; 203. spreading a guide rod; 204. a guide rod fixing block; 30. a first baking oven; 40. a first cooling bin; 50. a second powder spreading unit; 60. a second baking oven; 70. a second cooling bin; 80. a screening linkage mechanism; 801. screening the pipeline; 8011. a screening box; 8012. a coarse grain conveying path; 8013. a fines transport passage; 802. a linkage shifting block; 8021. a lane changing chute; 8022. a linkage clamping groove; 803. a screen; 804. a reciprocating lane changing unit; 8041. a lane changing limiting block; 8042. an olive shaped chute; 8043. a lane changing block; 8044. a guide post; 805. a driving mechanism; 8051. a biaxial motor; 8052. a crankshaft; 8053. a drive base; 8054. a drive link; 90. a main frame; 100. and (5) feeding a hopper.

Detailed Description

In order that the invention may be more fully understood, a more particular description of the invention will be rendered by reference to the appended drawings, in which several embodiments of the invention are illustrated, but which may be embodied in different forms and are not limited to the embodiments described herein, which are, on the contrary, provided to provide a more thorough and complete disclosure of the invention.

It will be understood that when an element is referred to as being "mounted" on another element, it can be directly on the other element or intervening elements may be present, and when an element is referred to as being "connected" to the other element, it may be directly connected to the other element or intervening elements may also be present, the terms "vertical", "horizontal", "left", "right" and the like are used herein for the purpose of illustration only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the terms used herein in this description of the invention are for the purpose of describing particular embodiments only and are not intended to be limiting of the invention, with the term "and/or" as used herein including any and all combinations of one or more of the associated listed items.

1-3, please focus on a full-automatic waxing device for carton production, including a conveyor belt 10, the conveyor belt 10 passes through a first powder paving unit 20, a first baking oven 30, a first cooling bin 40, a second powder paving unit 50, a second baking oven 60 and a second cooling bin 70 in sequence, the first powder paving unit 20 and the second powder paving unit 50 are respectively arranged at a plurality of output ends of a screening linkage mechanism 80, the first powder paving unit 20, the first baking oven 30, the first cooling bin 40, the second powder paving unit 50, the second baking oven 60 and the second cooling bin 70 are respectively arranged inside a main frame 90, a feeding hopper 100 is arranged on the top surface of the main frame 90, and the feeding hopper 100 is arranged above the screening linkage mechanism 80.

In the embodiment, please refer to fig. 4, the first powder spreading unit 20 and the second powder spreading unit 50 have the same structure and each include a spreading box 201, a plurality of sliding sleeves 202 are symmetrically disposed on two sides of the spreading box 201, the sliding sleeves 202 are respectively slidably connected to the middle parts of the spreading guide rods 203, and two ends of the spreading guide rods 203 are respectively disposed on one sides of the guide rod fixing blocks 204; the guide rod fixing blocks 204 are respectively arranged at two sides of the inside of the main frame 90, the upper part of the spreading box 201 is arranged at a plurality of output ends of the screening linkage mechanism 80, and the screening linkage mechanism 80 drives the spreading box 201 to reciprocate along the direction of the spreading guide rod 203, so that wax powder in the spreading box 201 is spread on the surface of the semi-finished product paper box.

A plurality of strip-shaped spreading holes 2011 are formed in the bottom surface of the spreading box 201, the minimum aperture width of the strip-shaped spreading holes 2011 of the spreading box 201 in the first powder spreading unit 20 is 0.3mm, and the minimum aperture width of the strip-shaped spreading holes 2011 of the spreading box 201 in the second powder spreading unit 50 is 0.15mm.

Referring to fig. 5-9, the screening linkage mechanism 80 includes a screening pipe 801, an input end of the screening pipe 801 is disposed at a lower end of the upper hopper 100, a plurality of output ends of the screening pipe 801 are respectively provided with a plurality of linkage shifting blocks 802, a plurality of linkage shifting blocks 802 are respectively disposed at upper portions of the first powder paving unit 20 and the second powder paving unit 50, a screen 803 is disposed in a middle portion of the screening pipe 801, a plurality of reciprocating channel changing units 804 are symmetrically disposed at two sides of the screening pipe 801, a plurality of reciprocating channel changing units 804 are respectively disposed at two sides of an inner portion of the main frame 90, and a driving mechanism 805 is disposed at one end of the screening pipe 801.

The screening pipeline 801 comprises a screening box 8011, a screen 803 is arranged on the bottom surface of the screening box 8011, a coarse grain conveying channel 8012 is arranged on one side of the screening box 8011, a fine grain conveying channel 8013 is arranged below the screening box 8011, the lower end of the coarse grain conveying channel 8012 is arranged on the upper portion of the first powder paving unit 20 through a plurality of linkage shifting blocks 802, the fine grain conveying channel 8013 is arranged on the upper portion of the second powder paving unit 50 through a plurality of linkage shifting blocks 802, wax powder in the screening box 8011 is separated into two parts through the screen 803 by the design, the aperture of the screen 803 is 0.15mm, wax powder with the particle size smaller than 0.15mm falls into the fine grain conveying channel 8013, the wax powder with the particle size larger than 0.15mm is conveyed to the second powder paving unit 50, and the wax powder with the particle size smaller than 0.15mm is conveyed to the first powder paving unit 20 through the coarse grain conveying channel 8012.

The linkage shifting block 802 comprises a lane changing chute 8021, the lane changing chute 8021 is slidably connected to the lower end of one of the conveying lanes, linkage clamping grooves 8022 are symmetrically formed in two ends of the lane changing chute 8021, a plurality of linkage clamping grooves 8022 are formed in the upper portion of one of the powder paving units, and the design drives the plurality of linkage shifting blocks 802 to move through a screening pipeline 801, so that the first powder paving unit 20 and the second powder paving unit 50 are driven to move.

The reciprocating channel changing unit 804 comprises a channel changing limiting block 8041, wherein an olive-shaped chute 8042 is formed in the middle of the channel changing limiting block 8041, the middle of the olive-shaped chute 8042 is rotationally connected with the middle of a channel changing block 8043, a torsion spring is arranged in the middle of the channel changing block 8043, a guide post 8044 is arranged in the olive-shaped chute 8042 and outside the channel changing block 8043, one end of the guide post 8044 is arranged on one side of the screening pipeline 801, one end of the channel changing block 8043, close to the driving mechanism 805, is downward through the torsion spring, the other end of the channel changing block 8043 is upward, the inside of the olive-shaped chute 8042 is divided into two parts, and when the guide post 8044 moves from one end, close to the driving mechanism 805, of the channel changing block 8043 upwards; when the guide post 8044 moves from the other end to the end close to the driving mechanism 805, the channel is changed downwards under the action of the channel changing block 8043; so that the reciprocating track of the whole screening pipeline 801 is olive-shaped, which is beneficial to improving the screening efficiency.

Referring to fig. 10, the driving mechanism 805 includes a dual-shaft motor 8051, a plurality of execution ends of the dual-shaft motor 8051 are coaxially connected with one end of a crankshaft 8052, a plurality of other ends of the crankshaft 8052 are rotatably connected with two ends of a driving base 8053, two ends of the driving base 8053 are respectively disposed on two inner sides of a main frame 90, the dual-shaft motor 8051 is disposed in the middle of the driving base 8053, a plurality of middle parts of the crankshaft 8052 are rotatably connected with one end of a driving connecting rod 8054, a plurality of other ends of the driving connecting rod 8054 are rotatably connected with two sides of one end of a sieving pipeline 801, and the dual-shaft motor 8051 drives two crankshafts 8052 to rotate, so that the sieving pipeline 801 is driven by the two driving connecting rods 8054 to reciprocate.

An embodiment, a wax dipping process of a full-automatic wax dipping device for carton production comprises the following steps:

s1, preparing materials: preparing a wax powder and a semi-finished product carton, and screening the wax powder to the first powder spreading unit 20 and the second powder spreading unit 50 through the screening linkage mechanism 80;

s2, primarily paving wax powder: uniformly sieving wax powder on the surface of the semi-finished product carton through the first powder spreading unit 20;

s3, baking to form a film: baking the semi-finished product carton attached with the wax powder through the first baking oven 30 to melt the wax powder and form a bottom wax film;

s4, cooling and solidifying: the baked paper box enters the first cooling bin 40 for cooling;

s5, spreading wax powder: uniformly sieving wax powder on the surface of the semi-finished product carton through the second powder spreading unit 50;

s6, secondary baking: baking the semi-finished product carton attached with the wax powder through the second baking oven 60 to melt the wax powder to form a two-layer wax film;

s7, curing and blanking: and the material enters the second cooling bin 70 for cooling, and the material is discharged and packed after the completion of the cooling, and the design passes through.

The grain size of the wax powder in the step S2 is 0.1-0.3 mm, and the grain size of the wax powder in the step S5 is less than 0.15mm, so that the design is passed.

Principle of operation: first, wax powder is put into a screening pipeline 801 through a feeding hopper 100; the two crankshafts 8052 are driven to rotate by the double-shaft motor 8051, and then the screening pipeline 801 is driven to reciprocate by the two driving connecting rods 8054; when the screening pipe 801 moves from one end close to the driving mechanism 805 to the other end, the pipe is changed upwards under the action of the channel changing block 8043; when the screening pipe 801 moves from the other end to the end close to the driving mechanism 805, the channel is changed downwards under the action of the channel changing block 8043; so that the track of the reciprocating motion of the whole screening pipeline 801 is olive-shaped, which is beneficial to improving the screening efficiency of the screen 803; screening wax powder into first and second powder spreading units 20 and 50 at screening through screen 803; the semi-finished product cartons firstly pass through a first powder spreading unit 20 on a conveyor belt 10, a screening linkage mechanism 80 drives a spreading box 201 to reciprocate along the direction of a spreading guide rod 203, and coarse grain wax powder in the spreading box 201 is spread on the surface of the semi-finished product cartons; then baking the semi-finished product carton attached with the wax powder through the first baking oven 30 to melt the wax powder and form a bottom wax film; the baked paper box enters the first cooling bin 40 for cooling; uniformly screening the fine wax powder on the surface of the semi-finished product carton through a second powder paving unit 50; then the semi-finished product cartons attached with wax powder are put into a second baking box 60 to be baked, so that the wax powder is melted, and two layers of wax films are formed; and finally, the material enters the second cooling bin 70 for cooling, and the material is discharged and packaged after the completion.

While the invention has been described above with reference to the accompanying drawings, it will be apparent that the invention is not limited to the embodiments described above, but is intended to be within the scope of the invention, as long as such insubstantial modifications are made by the method concepts and technical solutions of the invention, or the concepts and technical solutions of the invention are applied directly to other occasions without any modifications.

Claims (10)

1. Full-automatic wax dipping device is used in carton production, including conveyer belt (10), its characterized in that: the conveyor belt (10) sequentially passes through a first powder paving unit (20), a first baking oven (30), a first cooling bin (40), a second powder paving unit (50), a second baking oven (60) and a second cooling bin (70), the first powder paving unit (20) and the second powder paving unit (50) are respectively arranged at a plurality of output ends of a screening linkage mechanism (80), the first powder paving unit (20) the first baking oven (30), the first cooling bin (40), the second powder paving unit (50), the second baking oven (60) and the second cooling bin (70) are respectively arranged inside a main frame (90), a feeding hopper (100) is arranged on the top surface of the main frame (90), and the feeding hopper (100) is arranged above the screening linkage mechanism (80).

2. The full-automatic wax dipping device for carton production according to claim 1, wherein: the first powder spreading unit (20) and the second powder spreading unit (50) are identical in structure and comprise a spreading box (201), a plurality of sliding sleeves (202) are symmetrically arranged on two sides of the spreading box (201), the sliding sleeves (202) are respectively and slidably connected to the middle part of a spreading guide rod (203), and two ends of the spreading guide rod (203) are respectively arranged on one sides of a plurality of guide rod fixing blocks (204); the guide rod fixing blocks (204) are respectively arranged on two sides of the inside of the main frame (90), and the upper part of the spreading box (201) is arranged at a plurality of output ends of the screening linkage mechanism (80).

3. The full-automatic wax dipping device for carton production according to claim 2, wherein: a plurality of strip-shaped spreading holes (2011) are formed in the bottom surface of the spreading box (201), the minimum aperture width of the strip-shaped spreading holes (2011) of the spreading box (201) in the first powder spreading unit (20) is 0.3mm, and the minimum aperture width of the strip-shaped spreading holes (2011) of the spreading box (201) in the second powder spreading unit (50) is 0.15mm.

4. The full-automatic wax dipping device for carton production according to claim 1, wherein: screening link gear (80) are including screening pipeline (801), the input of screening pipeline (801) is located the lower extreme of feeding hopper (100), a plurality of outputs of screening pipeline (801) are equipped with a plurality of linkage shifting blocks (802) respectively, and a plurality of linkage shifting blocks (802) are located respectively first shop's powder unit (20) with the upper portion of second shop's powder unit (50), the middle part of screening pipeline (801) is equipped with screen cloth (803), the bilateral symmetry of screening pipeline (801) is equipped with a plurality of reciprocal lane change units (804), a plurality of reciprocal lane change units (804) are located respectively the inside both sides of main frame (90), the one end of screening pipeline (801) is equipped with actuating mechanism (805).

5. The full-automatic waxing device for carton production of claim 4, wherein: screening pipeline (801) is including screening box (8011), the bottom surface of screening box (8011) is equipped with screen cloth (803), one side of screening box (8011) is equipped with coarse grain delivery way (8012), the below of screening box (8011) is equipped with fine grain delivery way (8013), the lower extreme of coarse grain delivery way (8012) is through a plurality of linkage shifting block (802) is located the upper portion of first shop powder unit (20), fine grain delivery way (8013) is through a plurality of linkage shifting block (802) are located the upper portion of second shop powder unit (50).

6. The full-automatic waxing device for carton production of claim 4, wherein: the linkage shifting block (802) comprises a lane changing chute (8021), the lane changing chute (8021) is connected to the lower end of one conveying lane in a sliding mode, linkage clamping grooves (8022) are symmetrically formed in two ends of the lane changing chute (8021), and the linkage clamping grooves (8022) are formed in the upper portion of one powder paving unit.

7. The full-automatic waxing device for carton production of claim 4, wherein: reciprocating lane change unit (804) is including becoming way stopper (8041), olive type spout (8042) have been seted up at the middle part of becoming way stopper (8041), the middle part of olive type spout (8042) rotates the middle part of connecting lane change piece (8043), the middle part of lane change piece (8043) is equipped with the torsional spring, the inside of olive type spout (8042) the outside of lane change piece (8043) is equipped with guide post (8044), one end of guide post (8044) is located one side of screening pipeline (801).

8. The full-automatic waxing device for carton production of claim 4, wherein: the driving mechanism (805) comprises a double-shaft motor (8051), a plurality of execution ends of the double-shaft motor (8051) are respectively coaxially connected with one end of a crankshaft (8052), the other ends of the crankshafts (8052) are respectively connected with two ends of a driving base (8053) in a rotating mode, two ends of the driving base (8053) are respectively arranged on two inner sides of the main frame (90), the double-shaft motor (8051) is arranged in the middle of the driving base (8053), the middle of the crankshafts (8052) is respectively connected with one end of a driving connecting rod (8054) in a rotating mode, and the other ends of the driving connecting rods (8054) are respectively connected with two sides of one end of the screening pipeline (801).

9. A process for impregnating a fully automatic impregnating device for producing cartons according to any one of claims 1-8, characterized in that: the method comprises the following steps:

s1, preparing materials: preparing a wax powder and a semi-finished product carton, and screening the wax powder to the first powder spreading unit (20) and the second powder spreading unit (50) through the screening linkage mechanism (80);

s2, primarily paving wax powder: uniformly screening the wax powder on the surface of the semi-finished product carton through the first powder spreading unit (20);

s3, baking to form a film: baking the semi-finished product carton attached with the wax powder through the first baking oven (30) to melt the wax powder to form a bottom wax film;

s4, cooling and solidifying: the baked paper box enters the first cooling bin (40) for cooling;

s5, spreading wax powder: uniformly screening the wax powder on the surface of the semi-finished product carton through the second powder spreading unit (50);

s6, secondary baking: baking the semi-finished product carton attached with the wax powder through the second baking oven (60) to melt the wax powder to form a two-layer wax film;

s7, curing and blanking: and (5) entering the second cooling bin (70) for cooling, and discharging and packaging after the cooling is finished.

10. The wax dipping process of a fully automatic wax dipping device for producing cartons as claimed in claim 9 and is characterized in that: the grain size of the wax powder in the step S2 is 0.1-0.3 mm, and the grain size of the wax powder in the step S5 is less than 0.15mm.