阅读说明：本技术 一种密胺砂锅底座及其生产工艺 (Melamine casserole base and production process thereof ) 是由 张良勇 江涛 于 2020-12-15 设计创作，主要内容包括：本申请涉及餐具的技术领域,具体公开了一种密胺砂锅底座及其生产工艺。一种密胺砂锅底座,包括底板,所述底板的下表面边缘上设置有支撑凸边,所述底板设置有放置口,所述底板上连接有位于放置口内的承托台；其生产工艺包括模具预热、原料预热、初制品成型及成品制备等步骤。本申请用于放置砂锅,可减少砂锅过热可能损坏桌子的问题。(The application relates to the technical field of tableware, and particularly discloses a melamine casserole base and a production process thereof. A melamine casserole base comprises a bottom plate, wherein a supporting convex edge is arranged on the edge of the lower surface of the bottom plate, a placing opening is formed in the bottom plate, and a bearing platform positioned in the placing opening is connected to the bottom plate; the production process comprises the steps of preheating a mould, preheating raw materials, molding a primary product, preparing a finished product and the like. This application is used for placing the marmite, and the overheated problem that probably damages the desk of reducible marmite.)

1. The utility model provides a melamine casserole base which characterized in that: including bottom plate (1), be provided with on the lower surface edge of bottom plate (1) and support chimb (2), bottom plate (1) is provided with places the mouth, be connected with on bottom plate (1) and be located and place intraoral bearing platform (3).

2. The melamine casserole base of claim 1, wherein: the side surface of the supporting platform (3) far away from the earthen pot is evenly and fixedly connected with a plurality of anti-slip strips.

3. The melamine casserole base of claim 1, wherein: the edge of the upper surface of the bottom plate (1) is fixedly connected with a blocking edge (5).

4. The melamine casserole base of claim 3, wherein: bottom plate (1) includes four unit boards (11) of connecting in order, it is formed by four unit board (11) concatenations to place the mouth, support chimb (2) including four unit chimbs (21) of connecting in order, four unit chimb (21) and four unit board (11) one-to-one fixed connection, bearing platform (3) include four unit platform (31) of connecting in order, four unit platform (31) and four unit board (11) one-to-one fixed connection, keep off along (5) including four unit baffle (51) of connecting in order, four unit baffle (51) and four unit board (11) one-to-one fixed connection, be equipped with adjustment mechanism (7) that are used for adjusting distance between four unit boards (11) on the lower surface of bottom plate (1).

5. The melamine casserole base of claim 4, wherein: adjustment mechanism (7) are including adjusting box (71), dwang (72), gear (73) and rack (74), dwang (72) are rotated and are connected in adjusting box (71), the fixed cover of gear (73) is established on dwang (72), the quantity of rack (74) is four, four rack (74) all mesh with gear (73), four rack (74) are the cross and distribute, and four rack (74) keep away from the tip of gear (73) and all slide and wear to establish the lateral wall of adjusting box (71), four the tip and four cell boards (11) one-to-one fixed connection of gear (73) are kept away from to rack (74), be equipped with on adjusting box (71) and be used for driving dwang (72) pivoted drive structure (8).

6. The melamine casserole base of claim 5, wherein: drive structure (8) include worm wheel (81), actuating lever (82), worm (83) and knob (84), worm wheel (81) fixed cover is established on dwang (72), actuating lever (82) are rotated and are worn to establish the lateral wall of adjusting box (71), worm (83) are fixed and are located the tip in adjusting box (71) at actuating lever (82), and worm (83) and worm wheel (81) meshing, knob (84) are fixed and are located the outer tip of adjusting box (71) at actuating lever (82).

7. The melamine casserole base of claim 4, wherein: adjacent connection structure (6) of jointly connecting between cell board (11), connection structure (6) are including extending board (61) and limiting plate (62), connection chamber (12) have been seted up on cell board (11), set up on the side of cell board (11) and be connected a hole (13) of chamber (12) intercommunication, wear to establish a hole (13) on adjacent cell board (11) and extend to in connecting chamber (12) respectively at the both ends of extension board (61), limiting plate (62) are fixed and are located the terminal surface in connecting chamber (12) at extension board (61).

8. The melamine casserole base of claim 7, wherein: fixedly connected with reset spring (63) on the limiting plate (62) keep away from the side of extending board (61), the tip that limiting plate (62) were kept away from in reset spring (63) and the inner wall fixed connection of connecting chamber (12), it is adjacent when cell board (11) are laminated each other, reset spring (63) are in the original length state.

9. A production process of a melamine casserole base is characterized by comprising the following steps: the method comprises the following steps:

1) preheating a mold: placing the dinner plate mold in an oven for preheating, wherein the preheating temperature is 150-180 ℃;

2) preheating raw materials: weighing powder according to the gram weight of the earthen pot base to be produced, and then heating the powder, wherein the heating temperature is about 160-170 ℃, and the preheating time is about 35-45S, so that the powdery raw material is agglomerated;

3) and molding a primary product: pouring the raw materials agglomerated in the step 2) into a preheated mold, wherein the molding pressure is 140-170 MPa, the molding temperature is about 115-125 ℃, the molding time is 1-2 min, and opening the mold to obtain a primary product;

4) and preparing a finished product: and naturally cooling the primary product, trimming, grinding and polishing to obtain the casserole base.

Technical Field

The application relates to the technical field of melamine tableware, in particular to a melamine casserole base and a production process thereof.

Background

In daily life, people often use tableware, which refers to a non-edible tool directly contacting food during eating, and utensils and appliances for assisting food distribution or food intake, and the tableware on the market at present is various and comprises ceramic tableware, glass tableware, enamel tableware, wood tableware, copper tableware, iron tableware, alloy tableware, melamine tableware and the like, wherein the melamine tableware is formed by heating, pressurizing and pressing melamine resin powder. The composite material has the advantages of light weight, high temperature resistance, difficult breaking, compact structure and the like, is widely used in catering industry, and has wider application range.

The traditional earthenware pot is made of ceramic products compounded by quartz, feldspar, clay and other raw materials which are difficult to transfer heat, and is fired at high temperature, and has the characteristics of air permeability, adsorbability, uniform heat transfer, slow heat dissipation and the like. The earthen pot is hot, and the table can be damaged when the earthen pot is directly placed on the table, so that a base for placing the earthen pot is needed urgently.

Disclosure of Invention

In order to reduce the problem that the table is possibly damaged due to overheating of the marmite, the application provides a melamine marmite base and a production process thereof.

In a first aspect, the application provides a melamine casserole base, which adopts the following technical scheme:

the utility model provides a melamine casserole base, includes the bottom plate, be provided with the support chimb on the lower surface edge of bottom plate, the bottom plate is provided with places the mouth, be connected with on the bottom plate and be located and place intraoral bearing platform.

By adopting the technical scheme, when the marmite needs to be placed, the bottom plate is placed on the table top, the supporting table is in contact with the table top when the marmite needs to be placed, the effect of supporting the bottom plate is achieved, then the bottom of the marmite is placed on the supporting table, so that the bottom of the marmite cannot be in contact with the table top, and the problem that the table is possibly damaged due to overheating of the marmite is reduced.

Preferably, a plurality of anti-slip strips are uniformly and fixedly connected to the side surface of the supporting platform close to the marmite.

Through adopting above-mentioned technical scheme, the frictional force between bearing platform and the earthenware pot base can be increased in the setting of antislip strip, reduces the condition emergence that the earthenware pot slided on the bearing platform to the stability after the earthenware pot is put has been promoted.

Preferably, the edge of the upper surface of the bottom plate is fixedly connected with a blocking edge.

Through adopting above-mentioned technical scheme, be provided with on the upper surface edge of bottom plate and keep off the edge, when the hot water in the casserole spills, keep off along can stopping hot water and spill the falling son on the desktop along the bottom plate.

Preferably, the bottom plate includes four cell boards connected in order, it is formed by four cell board concatenations to place the mouth, it includes four cell chimbs connected in order, four to support the chimb the unit chimb is four the unit chimb and four cell board one-to-one fixed connection, the supporting platform includes four unit platforms connected in order, four unit platform and four cell board one-to-one fixed connection, keep off along the unit baffle including four connections in order, four unit baffle and four cell board one-to-one fixed connection, be equipped with the adjustment mechanism who is used for adjusting distance between four cell boards on the lower surface of bottom plate.

Through adopting above-mentioned technical scheme, different according to the size of marmite, usable adjustment mechanism adjusts the distance between the cell board, makes the mouth of placing that forms between four cell boards can adapt to the size of marmite to the practicality of melamine marmite base has been promoted.

Preferably, adjustment mechanism is including adjusting box, dwang, gear and rack, the dwang rotates to be connected in the adjusting box, the fixed cover of gear is established on the dwang, the quantity of rack is four, four the rack all with gear engagement, four the rack is the cross and distributes, and four racks keep away from the tip of gear and all slide and wear to establish the lateral wall of adjusting box, four the tip and four cell board one-to-one fixed connection of gear are kept away from to the rack, be equipped with on the adjusting box and be used for driving dwang pivoted drive structure.

Through adopting above-mentioned technical scheme, when the distance between the cell board needs to be adjusted and the change of adaptation marmite size, utilize drive structure drive dwang to rotate, fixedly connected with gear on the dwang, and gear and four rack all mesh, consequently when gear revolve, four racks remove to four different directions respectively, because the cell board is fixed on the tip of rack, thereby the regulation of cell board position has been accomplished, make the melamine marmite base can be applicable to the marmite of not unidimensional, the practicality of melamine marmite base has been promoted.

Preferably, the drive structure includes worm wheel, actuating lever, worm and knob, the fixed cover of worm wheel is established on the dwang, the actuating lever rotates the lateral wall of wearing to establish the regulation box, the worm is fixed on the tip that the actuating lever is located the regulation box, and worm wheel meshing, the knob is fixed on the tip that the actuating lever is located outside the regulation box.

By adopting the technical scheme, the drive rod fixedly connected with the knob can be driven to rotate through the knob, and the worm is fixed on the drive rod so as to rotate along with the drive rod; and the worm is meshed with the worm wheel which is fixed on the rotating rod, so that the worm can rotate to drive the worm wheel and the rotating rod to rotate, and the position of the unit plate can be conveniently adjusted to adapt to marmite with different sizes.

Preferably, it is adjacent connection structure who connects jointly between the cell board, connection structure is including extending board and limiting plate, the connection chamber has been seted up on the cell board, set up on the side of cell board with be connected the strip hole of chamber intercommunication, the strip hole on the adjacent cell board is worn to establish respectively at the both ends of extending board and extends to connecting the intracavity, the limiting plate is fixed and is located the terminal surface of connecting the intracavity at the extending board.

By adopting the technical scheme, when the distance between the adjacent unit plates is changed, the length of the extension plate in the connecting cavity is changed so as to adapt to the change of the position of the unit plates; the extension plate can strengthen the stable shape of connecting between the adjacent cell board, and the limiting plate can prevent that the extension plate from sliding excessively and from connecting the problem that the chamber breaks away from, has further promoted the stability of connecting between the adjacent cell board.

Preferably, the limiting plate is fixedly connected with a return spring on the side face away from the extension plate, the end part of the return spring away from the limiting plate is fixedly connected with the inner wall of the connecting cavity, and when the adjacent unit plates are mutually attached, the return spring is in an original long state.

Through adopting above-mentioned technical scheme, when adjacent unit board was close to each other, reset spring was in the original length state, when adjacent unit board was kept away from each other, reset spring was in tensile state, when taking the marmite from the base, at the effort of reset spring resilience force, can make the rotation of worm wheel more laborsaving to make the unit board can resume to the state that is close to each other fast.

In a second aspect, the application provides a production process of a melamine casserole base, which adopts the following technical scheme.

A production process of a melamine casserole base comprises the following steps:

1) preheating a mold: placing the dinner plate mold in an oven for preheating, wherein the preheating temperature is 150-180 ℃;

2) preheating raw materials: weighing powder according to the gram weight of the earthen pot base to be produced, and then heating the powder, wherein the heating temperature is about 160-170 ℃, and the preheating time is about 35-45S, so that the powdery raw material is agglomerated;

3) and molding a primary product: pouring the raw materials agglomerated in the step 2) into a preheated mold, wherein the molding pressure is 140-170 MPa, the molding temperature is about 115-125 ℃, the molding time is 1-2 min, and opening the mold to obtain a primary product.

4) And preparing a finished product: and naturally cooling the primary product, trimming, grinding and polishing to obtain the casserole base.

By adopting the technical scheme, the raw materials are preheated to be agglomerated, so that the problem of raw material loss caused by flying of raw material powder during charging can be reduced, the quality of products is ensured on one hand, and the waste of the raw materials is reduced on the other hand; in addition, the mould is preheated, so that the melting of the raw materials can be accelerated, and the production speed of the melamine casserole base is accelerated; the primary product is trimmed, ground, polished and the like, so that the attractiveness of the product can be improved, and the quality of the product is improved; in addition, the production method has simple steps and excellent product performance and is suitable for batch production.

In summary, the present application has the following beneficial effects:

1. when the marmite needs to be placed, the bottom plate is placed on the table top, the supporting table is in contact with the table top when the marmite needs to be placed, the bottom plate is supported, then the bottom of the marmite is placed on the supporting table, the bottom of the marmite cannot be in contact with the table top, and therefore the problem that the table is possibly damaged due to overheating of the marmite is solved.

2. According to the size difference of marmite, the distance between the usable adjustment mechanism regulation cell board makes the mouth of placing that forms between four cell boards can adapt to the size of marmite to the practicality of melamine marmite base has been promoted.

3. The drive rod fixedly connected with the knob can be driven to rotate through the knob, and the worm rotates along with the drive rod because the worm is fixed on the drive rod; and the worm is meshed with the worm wheel which is fixed on the rotating rod, so that the worm can rotate to drive the worm wheel and the rotating rod to rotate, and the position of the unit plate can be conveniently adjusted to adapt to marmite with different sizes.

Drawings

Fig. 1 is a schematic view of the overall structure of embodiment 1 of the present application.

Fig. 2 is a sectional view of embodiment 1 of the present application.

Fig. 3 is a schematic view of the overall structure of embodiment 2 of the present application.

Fig. 4 is a schematic view of the mounting structure of the adjusting mechanism in embodiment 2 of the present application.

Fig. 5 is a schematic view of the mounting structure of the driving structure in embodiment 2 of the present application.

Description of reference numerals: 1. a base plate; 11. a unit plate; 12. a connecting cavity; 13. a bar hole; 2. a support flange; 21. a unit flange; 3. a support platform; 31. a unit table; 4. anti-skid lines; 5. blocking edges; 51. a unit baffle; 6. a connecting structure; 61. an extension plate; 62. a limiting plate; 63. a return spring; 7. an adjustment mechanism; 71. an adjustment box; 72. rotating the rod; 73. a gear; 74. a rack; 8. a drive structure; 81. a worm gear; 82. a drive rod; 83. a worm; 84. a knob.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

Example 1:

the embodiment 1 of the application discloses a melamine casserole base. Referring to fig. 1 and 2, the solar water heater comprises a bottom plate 1, wherein the bottom plate 1 is of an octagonal structure, and the bottom plate 1 is horizontally arranged. Integrated into one piece has support chimb 2 on bottom plate 1's the lower surface edge, supports chimb 2 and is octagon annular structure, and the thickness that supports chimb 2 reduces in proper order to the side of keeping away from bottom plate 1 by the side that is close to bottom plate 1, and it is big consequently to support the area of contact between chimb 2 and the bottom plate 1, supports being connected between chimb 2 and the bottom plate 1 more stably. The bottom plate 1 is provided with a placing opening which is arranged coaxially with the bottom plate 1. The base plate 1 is integrally formed with a bearing platform 3, the bearing platform 3 is of a circular ring structure, the bearing platform 3 and the base plate 1 are coaxial, and the bottom of the marmite can be placed on the bearing platform 3. The side surface of the bearing platform 3 close to the marmite is provided with anti-slip lines 4, the anti-slip lines 4 are annular and uniform parts on the side surface of the bearing platform 3 close to the marmite, and the anti-slip lines 4 can increase the friction force between the marmite and the bearing platform 3 and reduce the problem that the marmite can slide.

Referring to fig. 2, when the marmite needs to be placed, the bottom plate 1 is placed on a table top, the supporting table 3 is in contact with the table top when the marmite needs to be placed, the bottom of the marmite is placed on the supporting table 3, and therefore the bottom of the marmite cannot be in contact with the table top, and the problem that the table is damaged due to the fact that the marmite is overheated is solved. The side of the bottom plate 1 far away from the supporting convex edge 2 is integrally formed with a baffle edge 5, the baffle edge 5 is of an eight-edge annular structure, the baffle edge 5 and the bottom plate 1 are arranged coaxially, the height direction of the baffle edge 5 is consistent with the height direction of the supporting convex edge 2, and when soup in the casserole is spilled, the baffle edge 5 can prevent the soup from spilling on a table top along the bottom plate 1.

The implementation principle of a melamine casserole base of embodiment 1 of this application is: when the marmite needs to be placed, the bottom plate 1 is placed on the table top, the supporting table 3 is in contact with the table top when the marmite needs to be placed, the effect of supporting the bottom plate 1 is achieved, then the bottom of the marmite is placed on the supporting table 3, the bottom of the marmite cannot be in contact with the table top, and therefore the problem that the table is possibly damaged due to overheating of the marmite is solved.

Example 2:

the embodiment 2 of the application discloses a melamine casserole base. Referring to fig. 3, the difference from embodiment 1 is that:

referring to fig. 3, the base plate 1 includes four unit plates 11, the four unit plates 11 have the same shape, and the four unit plates 11 are sequentially connected to the base plate 1, which may form an octagon. The connecting structure 6 is arranged between the adjacent unit plates 11, and the connecting structure 6 comprises an extending plate 61 and a limiting plate 62. The cell plate 11 is provided with two connecting cavities 12, and the two connecting cavities 12 are symmetrically distributed along the central axis of the cell plate 11. The unit plate 11 is provided with two bar holes 13, and the two bar holes 13 are respectively communicated with the two connecting cavities 12. Extension board 61 is the arc, and extension board 61's both ends are located adjacent connection chamber 12 on the adjacent cell board 11 respectively, and limiting plate 62 is rectangular shaped plate, and limiting plate 62's quantity is two, and two limiting plates 62 are fixed respectively on the relative both sides face of extension board 61, and limiting plate 62 slides and sets up in connecting chamber 12. Fixedly connected with reset spring 63 on the side that extension board 61 was kept away from to limiting plate 62, the quantity of reset spring 63 on any limiting plate 62 is three, and three reset spring 63's deformation direction is unanimous, and reset spring 63 keeps away from the tip of limiting plate 62 and the inner wall fixed connection of connecting chamber 12, and when reset spring 63 was in the primary length state, adjacent cell board 11 was laminated each other.

Referring to fig. 3, the placing port is located in the bottom plate 1, and four unit plates 11 of the placing port are formed by splicing. Support chimb 2 includes four unit chimbs 21, four unit chimbs 21 and four cell boards 11 one-to-one fixed connection, and four unit chimbs 21 splice in order can form eight annular support chimbs 2. The supporting platform 3 comprises four unit platforms 31, the four unit platforms 31 are fixedly connected with the four unit plates 11 in a one-to-one correspondence mode, and the four unit platforms 31 are sequentially spliced to form the octagonal supporting platform 3. The blocking edge 5 comprises four unit baffles 51, the four unit baffles 51 are fixedly connected with the four unit plates 11 in a one-to-one correspondence manner, and the four unit baffles 51 are sequentially spliced to form the eight-edge annular blocking edge 5.

Referring to fig. 4, the bottom plate 1 is provided with an adjusting mechanism 7, the adjusting mechanism 7 is used for adjusting the distance between the four unit plates 11, and the adjusting mechanism 7 includes an adjusting box 71, a rotating rod 72, a gear 73 and a rack 74. The adjusting box 71 is a circular box body, the adjusting box 71 and the bottom plate 1 are coaxially arranged, the upper surface of the adjusting box 71 is positioned below the lower surface of the supporting platform 3, so that the marmite can be placed on the supporting platform 3 and cannot contact with the adjusting box 71. The rotating rod 72 is a round rod-shaped structure, the rotating rod 72 and the adjusting box 71 are coaxial, the length direction of the rotating rod 72 is consistent with the thickness direction of the adjusting box 71, the rotating rod 72 is located in the adjusting box 71, and two end parts of the rotating rod 72 are rotatably connected with the inner wall of the adjusting box 71. The gear 73 is coaxial with the rotating rod 72, and the gear 73 is fixedly sleeved on the rotating rod 72. The number of the racks 74 is four, the four racks 74 are distributed in a cross shape, the four racks 74 are all meshed with the racks 74, the end portions, far away from the racks 74, of the four racks 74 are all slidably arranged on the side wall of the adjusting box 71 in a penetrating mode, and the end portions, far away from the gear 73, of the four racks 74 are fixedly connected with the lower surfaces of the four unit plates 11 in a one-to-one corresponding mode.

Referring to fig. 4 and 5, the adjusting box 71 is provided with a driving structure 8, and the driving structure 8 includes a worm wheel 81, a driving rod 82, a worm 83, and a knob 84. The worm gear 81 is coaxial with the rotating lever 72, the worm gear 81 is located in the regulating box 71, and the worm gear 81 is fixed to the rotating lever 72 below the gear 73. The driving rod 82 is a round rod structure, one end of the driving rod 82 rotatably penetrates through the side wall of the adjusting box 71 and extends into the adjusting box 71, and the other end of the driving rod 82 is located outside the adjusting box 71. The worm 83 is coaxial with the driving rod 82, the worm 83 is located in the adjusting box 71, the worm 83 is fixed on the driving rod 82 located in the adjusting box 71, and the worm 83 is meshed with the worm wheel 81. The knob 84 is of a cylindrical structure, the knob 84 is coaxial with the driving rod 82, and the knob 84 is fixed on the end of the driving rod 82 outside the adjustment box 71.

The implementation principle of a melamine casserole base of embodiment 2 of this application is: according to different sizes of marmite, when the size of the melamine marmite base needs to be adjusted, the drive rod 82 fixedly connected with the drive rod can be driven to rotate through the knob 84, and the worm 83 is fixed on the drive rod 82, so that the worm 83 rotates along with the drive rod; the worm 83 is meshed with the worm wheel 81, and the worm wheel 81 is fixed on the rotating rod 72, so that the worm 83 can rotate to drive the worm wheel 81 and the rotating rod 72 to rotate; fixedly connected with gear 73 on dwang 72, and gear 73 all meshes with four racks 74, consequently when gear 73 rotated, four racks 74 moved to four different directions respectively, because cell board 11 is fixed on the tip of rack 74 to accomplished the regulation of cell board 11 position, made the melamine marmite base can be applicable to not unidimensional marmite, promoted the practicality of melamine marmite base.

Example 3:

the embodiment 3 of the application discloses a production process of a melamine casserole base, which comprises the following steps:

1) preheating a mold: placing the dinner plate mould in an oven for preheating, wherein the preheating temperature is 165 ℃;

2) preheating raw materials: weighing powder according to the gram weight of a marmite base to be produced, and heating the powder at 165 ℃ for 40S to agglomerate the powdery raw materials;

3) and molding a primary product: pouring the raw materials agglomerated in the step 2) into a preheated mold, wherein the molding pressure is 155MPa, the molding temperature is about 120 ℃, the molding time is 1.5min, and opening the mold to obtain a primary product;

10% of the primary products are selected for applique operation: when pasting the pattern, the pattern paper is firstly sent into an oven to be dried, the drying temperature is about 70 ℃, and the drying time is about 2 hours; brushing the dried stained paper with a powder slurry, drying, pasting on plain-surface formed tableware, sending into an oil press again, and performing pressure pasting;

selecting 60% of the primary products to carry out gold adding operation: when adding gold, uniformly scattering the surface of the primary product with the glazing powder, putting the primary product into an oil press for pressurizing and heating, wherein the heating temperature is 175 ℃, the duration is 30S, and opening the die to obtain gold-added melamine tableware;

4) and preparing a finished product: and naturally cooling the primary product, the applique primary product and the gold-added primary product, and then trimming, grinding and polishing to obtain the casserole base.

The implementation principle of a melamine casserole base of embodiment 3 of this application is: the raw materials are preheated to be agglomerated, so that the problem of raw material loss caused by flying raw material powder during charging can be solved, the product quality is ensured on one hand, and the waste of the raw materials is reduced on the other hand; in addition, the mould is preheated, so that the melting of the raw materials can be accelerated, and the production speed of the melamine casserole base is accelerated; the primary product is trimmed, ground, polished and the like, so that the attractiveness of the product can be improved, and the quality of the product is improved; in addition, the production method has simple steps and excellent product performance and is suitable for batch production.

Example 4:

the embodiment 4 of the application discloses a production process of a melamine casserole base, which comprises the following steps:

1) preheating a mold: placing the dinner plate mould in an oven for preheating, wherein the preheating temperature is 150 ℃;

2) preheating raw materials: weighing the powder according to the gram weight of the casserole base to be produced, and then heating the powder, wherein the heating temperature is about 160 ℃, and the preheating time is about 35S, so that the powdery raw materials are agglomerated;

3) and molding a primary product: pouring the raw materials agglomerated in the step 2) into a preheated mold, wherein the molding pressure is 140MPa, the molding temperature is about 115 ℃, the molding time is 1min, and opening the mold to obtain a primary product;

10% of the primary products are selected for applique operation: when pasting the pattern, the pattern paper is firstly sent into an oven to be dried, the drying temperature is about 70 ℃, and the drying time is about 2 hours; brushing the dried stained paper with a powder slurry, drying, pasting on plain-surface formed tableware, sending into an oil press again, and performing pressure pasting;

selecting 60% of the primary products to carry out gold adding operation: when adding gold, uniformly scattering the surface of the primary product with the glazing powder, putting the primary product into an oil press for pressurizing and heating, wherein the heating temperature is 175 ℃, the duration is 30S, and opening the die to obtain gold-added melamine tableware;

4) and preparing a finished product: and naturally cooling the primary product, the applique primary product and the gold-added primary product, and then trimming, grinding and polishing to obtain the casserole base.

Example 5:

the embodiment 5 of the application discloses a production process of a melamine casserole base, which comprises the following steps:

1) preheating a mold: placing the dinner plate mould in an oven for preheating, wherein the preheating temperature is 180 ℃;

2) preheating raw materials: weighing powder according to gram weight of a marmite base to be produced, and heating the powder at the temperature of about 170 ℃ for about 45 seconds to agglomerate the powdery raw materials;

3) and molding a primary product: pouring the raw materials agglomerated in the step 2) into a preheated mold, wherein the molding pressure is 170MPa, the molding temperature is about 125 ℃, the molding time is 2min, and opening the mold to obtain a primary product;

10% of the primary products are selected for applique operation: when pasting the pattern, the pattern paper is firstly sent into an oven to be dried, the drying temperature is about 70 ℃, and the drying time is about 2 hours; brushing the dried stained paper with a powder slurry, drying, pasting on plain-surface formed tableware, sending into an oil press again, and performing pressure pasting;

selecting 60% of the primary products to carry out gold adding operation: when adding gold, uniformly scattering the surface of the primary product with the glazing powder, putting the primary product into an oil press for pressurizing and heating, wherein the heating temperature is 175 ℃, the duration is 30S, and opening the die to obtain gold-added melamine tableware;

4) and preparing a finished product: and naturally cooling the primary product, the applique primary product and the gold-added primary product, and then trimming, grinding and polishing to obtain the casserole base.

The present embodiment is only for explaining the present application, and it is not limited to the present application, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present application.