CN216363629U - Food material molding machine - Google Patents

Abstract

The utility model discloses an edible material molding machine, which relates to the field of molding machines and comprises a die carrier lower base plate and a die carrier upper base plate, wherein four guide posts are fixedly arranged between the die carrier lower base plate and the die carrier upper base plate, an upper telescopic pressure cylinder is arranged on the top side of the die carrier upper base plate, and an output shaft of the upper telescopic pressure cylinder is fixedly provided with an upper pressure head sliding support plate through a first flange connector. And a lower telescopic pressure cylinder is installed at the bottom side of the lower base plate of the die frame, and an output shaft of the lower telescopic pressure cylinder is fixedly provided with a sliding support plate of a lower die pressing head through a second flange connector. According to the utility model, the food material in the molding cavity can be pressed and molded by the mutual approach of the upper die pressing head and the lower die pressing head. Four molding cavities and four pairs of upper and lower mould pressure heads that set up the array and put can one shot forming four, and a suppression traditional relatively, shaping speed is very fast.

Description

Food material molding machine

Technical Field

The utility model relates to the technical field of molding machines, in particular to a food material molding machine.

Background

The food material refers to raw materials required for preparing food, such as tea, kelp, laver, Chinese medicinal materials, and the like.

The food materials are required to be molded and packaged in the production and processing processes, and the food materials are required to be pressed and molded, and the shape of the food materials can be circular, square or special-shaped, so that the purchasing power of customers is attracted. Traditional edible materials are in the process of carrying out press molding, and the food material finished product of only one manufactured type can be formed in one working process, so that the yield speed is low, the efficiency is low, and the material is not easy to fall off in the press molding, therefore, an efficient food material molding machine is needed to meet the market needs and the demands of people.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a food material molding machine with high capacity and efficiency, which aims to solve the problems that some food materials need to be molded and packaged in the production and processing process, the food materials need to be rapidly molded in a pressing mode in capacity, and the food materials can be round, square or special-shaped in shape, so that the food material molding machine can attract the purchasing power of customers.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides an eat material molding machine, includes the molding machine shell, fixed mounting has the shaping module on the inner wall of molding machine shell, is equipped with the suppression module in the middle of the shaping module, and the suppression module includes die carrier lower plate and die carrier upper plate, its characterized in that: four guide posts are arranged between the lower die carrier bottom plate and the upper die carrier bottom plate, an upper telescopic pressure cylinder is arranged on the top side of the upper die carrier bottom plate, an output shaft of the upper telescopic pressure cylinder is fixedly provided with an upper telescopic rod through a first flange coupler, the bottom end of the upper telescopic rod movably penetrates through the upper die carrier bottom plate and is fixedly provided with an upper pressure head sliding support plate, four upper die pressure heads are fixedly arranged on the bottom side of the upper pressure head sliding support plate, a forming die carrier cavity support plate is arranged on the four guide posts, four forming cavities are arranged on the forming die carrier cavity support plate, the same forming cavity pressure plate is fixedly sleeved on the four forming cavities, positioning holes are respectively arranged at the top ends of the four forming cavities, forming cavity material inlet ports are arranged in the positioning holes, a lower telescopic pressure cylinder is fixedly arranged on the bottom side of the lower die carrier bottom plate, and a lower telescopic rod is fixedly arranged on the output shaft of the lower telescopic pressure cylinder through a second coupler, the top activity of lower telescopic link runs through die carrier lower plate and fixed mounting has pressure head slip backup pad down, and the top side fixed mounting of pressure head slip backup pad has pressure head under four moulds down, and the pressure head is located the below of shaping die carrier cavity backup pad under the mould, the bottom of pressure head has seted up the stripper groove piston on the mould, is equipped with the stripping piston rod in the stripper groove piston, and the bottom of stripping piston rod extends to the stripper piston rod and outside the fixed shaping surface tip.

Preferably, four mounting holes are formed in the top side of the forming die carrier cavity supporting plate, and the four forming cavities are fixedly mounted in the four mounting holes respectively.

Preferably, four positioning holes are formed in the top side of the molding cavity pressing plate, and the top ends of the four molding cavities extend into the four positioning holes.

Preferably, the four upper die pressing heads are respectively matched with the four forming cavity feeding ports, and the four lower die pressing heads are respectively matched with the four forming cavity feeding ports.

Preferably, four sliding holes are formed in the top side of the upper pressure head sliding support plate, sliding guide sleeves are fixedly mounted in the four sliding holes, and the four sliding guide sleeves are movably sleeved on the four guide columns respectively.

Preferably, four guide post fixing holes are formed in one side, close to each other, of the die carrier lower base plate and the die carrier upper base plate, guide post mounting screws are fixedly mounted at two ends of the four guide posts, and one ends of the eight guide post mounting screws movably penetrate through the eight guide post fixing holes respectively.

Preferably, movable holes are formed in one side of the lower die carrier bottom plate and one side of the upper die carrier bottom plate, and the lower telescopic rod and the upper telescopic rod respectively penetrate through the two movable holes in a movable mode.

The utility model has the beneficial effects that:

according to the utility model, the required pressed food materials are respectively and automatically placed into the four forming cavities arranged in an array, and after the food materials are placed into the forming cavities, the upper telescopic pressure cylinder is started, so that the upper pressure head sliding support plate can be driven to move downwards, and the upper pressure heads of the four dies can be driven to move downwards. Through pressure head on the mould and mould lower pressure head be close to each other, can carry out the press forming to the edible material in the shaping cavity, set up four shaping cavities that the array was put and four to mould pressure heads about, can one shot press forming four, a traditional suppression relatively, shaping speed is very fast.

According to the utility model, after compression molding, the lower telescopic pressure cylinder operates to drive the four lower die pressing heads to return, the stripping piston rod in the upper die pressing head operates and can move towards the end part of the molding surface, and the end part of the molding surface moves to automatically strip the food materials after compression molding, so that after compression molding, the food materials can be rapidly stripped, the phenomenon of die sticking is avoided, and the stability of the machine is improved.

Drawings

Fig. 1 is a schematic general perspective view of a food material molding machine according to the present invention;

fig. 2 is a schematic connection diagram of an internal structure of a food material molding machine according to the present invention;

fig. 3 is a schematic top-view perspective structure view of a food material molding machine according to the present invention;

fig. 4 is a schematic structural diagram of a food material molding machine according to the present invention in a bottom perspective view;

fig. 5 is a partial sectional structural schematic view of a food material molding machine according to the present invention;

fig. 6 is a schematic structural diagram of a mold ram of a food material molding machine according to the present invention.

In the figure: 1. a molding machine housing; 2. a molding module; 3. pressing the die set; 4. a lower base plate of the mold frame; 5. an upper base plate of the die carrier; 6. a guide post; 7. an upper telescopic pressure cylinder; 8. an upper pressure head sliding support plate; 9. pressing heads on the die; 10. a material removal groove piston; 11. a material-removing piston rod; 12. shaping the surface end; 13. forming a die carrier cavity support plate; 14. mounting holes; 15. forming a cavity; 16. molding a cavity pressing plate; 17. positioning holes; 18. forming a cavity feeding port; 19. a lower telescopic pressure cylinder; 20. a lower pressure head sliding support plate; 21. a lower pressure head of the mold; 22. a guide post fixing hole; 23. a screw rod is installed on the guide pillar; 24. and (4) sliding the guide sleeve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-6, an edible material molding machine comprises a molding machine housing 1, a molding module 2 is fixedly installed on the inner wall of the molding machine housing 1, a pressing module 3 is arranged in the middle of the molding module 2, the pressing module 3 comprises a mold frame lower base plate 4 and a mold frame upper base plate 5, four guide posts 6 are installed between the mold frame lower base plate 4 and the mold frame upper base plate 5, an upper telescopic pressure cylinder 7 is installed on the top side of the mold frame upper base plate 5, an output shaft of the upper telescopic pressure cylinder 7 is fixed with an upper pressure head sliding support plate 8 through a first flange connector, four mold upper pressure heads 9 are fixedly installed on the bottom side of the upper pressure head sliding support plate 8, a molding mold frame cavity support plate 13 penetrates through the guide posts 6 and is installed and fixed above the mold frame lower base plate 4, and one side, close to the mold frame lower base plate 4, in the middle of the mold frame lower base plate 4 and the mold frame upper base plate 5. Four forming cavities 15 are arranged on a forming die set cavity supporting plate 13, a forming cavity pressing plate 16 is fixed at the upper end parts of the four forming cavities 15, a positioning hole 17 is formed in the forming cavity pressing plate 16, a forming cavity 15 is arranged between the forming die set cavity supporting plate 13 and the forming cavity pressing plate 16, an output shaft of a lower telescopic pressure cylinder 19 and a lower telescopic pressure cylinder 19 are fixedly arranged at the bottom side of a die set lower bottom plate 4 and fixed with a lower pressure head sliding supporting plate 20 through a second flange connector, four die lower pressure heads 21 are fixedly arranged at the top side of the lower pressure head sliding supporting plate 20, the die lower pressure heads 21 are positioned below the forming die set cavity supporting plate 13, a stripping groove piston 10 is arranged inside an upper pressure head 9 of a die, a stripping piston rod 11 is arranged in the stripping groove piston 10, and the bottom end of the stripping piston rod 11 extends to the end part 12 of a forming surface to facilitate stripping.

In the utility model, four array-type mounting holes 14 are formed on the top side of a forming die carrier cavity supporting plate 13, and four forming cavities 15 are respectively and fixedly mounted in the four mounting holes 14.

In the utility model, four array-type positioning holes 17 are formed on the top side of the connecting molding cavity pressing plate 16, and the top ends of the four molding cavities 15 extend into the four positioning holes 17.

In the utility model, the four upper die pressing heads 9 are respectively matched with the inner holes of the four forming cavities 15, and the four lower die pressing heads 21 are respectively matched with the inner holes of the four forming cavities 15.

In the utility model, four sliding holes are arranged on the top side of the upper pressure head sliding support plate 8, sliding guide sleeves 24 are fixedly arranged in the four sliding holes, and the four sliding guide sleeves 24 are respectively movably sleeved on the four guide posts 6.

In the utility model, four guide post fixing holes 22 are respectively formed in the mutually close sides of the lower die carrier bottom plate 4 and the upper die carrier bottom plate 5, guide post mounting screws 23 are respectively arranged at two ends of four guide posts 6, and the lower die carrier bottom plate 4 and the upper die carrier bottom plate 5 are respectively fixed at two ends of the guide posts 6.

In the utility model, a forming die carrier cavity supporting plate 13 penetrates through a guide column 6 and is fixedly arranged above a die carrier lower bottom plate 4, namely, one side of the middle of the die carrier lower bottom plate 4 and the die carrier upper bottom plate 5 close to the die carrier lower bottom plate 4.

In the utility model, one side of the lower die carrier bottom plate 4 and one side of the upper die carrier bottom plate 5 are both provided with pressure cylinder output shaft holes, and the lower telescopic rod and the upper telescopic rod respectively and movably penetrate through the two movable holes.

This practical theory of operation:

in the utility model, when the food material is pressed and molded, when the food material automatically works, the output shaft of the lower telescopic pressure cylinder 19 slides upwards, the lower pressure head sliding support plate 20 is driven to move upwards, and the lower pressure head 21 of the die is driven to seal the lower port of the molding cavity 15. The method comprises the steps of respectively and automatically weighing required pressed food materials, automatically feeding steam into a cavity through a forming cavity feeding port 18, automatically pushing the food materials into the cavity, extending an output shaft of an upper telescopic pressure cylinder 7 after the food materials are pushed to drive an upper pressure head sliding support plate 8 to move, driving four sliding guide sleeves 24 to slide on four guide posts 6 through the movement of the upper pressure head sliding support plate 8, limiting the movement of the upper pressure head sliding support plate 8 through the four sliding guide sleeves 24, driving four mould upper pressure heads 9 to move downwards through the movement of the upper pressure head sliding support plate 8, enabling the mould upper pressure heads 9 and the mould lower pressure heads 21 to be close to each other, performing press forming on the food materials in a forming cavity 15, performing press forming on the four forming cavities 15 and the four mould upper pressure heads 9 through the four mould upper pressure heads 15 and the four mould lower pressure heads 21 through the operation of a lower telescopic pressure cylinder 19 after the press forming, and returning the four mould lower pressure heads 21 to the pressing speed through the operation of one mould, the material piston rod 11 that takes off in the pressure head 9 moves on the mould, can remove to shaping surface tip 12, takes off the material with the edible material after the press forming to accomplish the press forming after, can take off the material fast automatically, can not produce the sticking phenomenon and improve machine stability.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (7)

1. A food material molding machine, comprising a molding machine housing (1), characterized in that: the inner wall of the molding machine shell (1) is fixedly provided with a molding module (2), a compression module (3) is arranged in the middle of the molding module (2), the compression module (3) comprises a mold frame lower base plate (4) and a mold frame upper base plate (5), four guide posts (6) are arranged between the mold frame lower base plate (4) and the mold frame upper base plate (5), an upper telescopic pressure cylinder (7) is arranged on the top side of the mold frame upper base plate (5), an upper telescopic rod is fixedly arranged on an output shaft of the upper telescopic pressure cylinder (7) through a first flange connector, an upper pressure head sliding support plate (8) is movably arranged at the bottom end of the upper telescopic rod and penetrates through the mold frame upper base plate (5), four mold upper pressure heads (9) are fixedly arranged on the bottom side of the upper pressure head sliding support plate (8), molding mold frame cavity support plates (13) are arranged on the four guide posts (6), and four molding cavities (15) are arranged on the molding mold frame support plates (13), the four forming cavities (15) are fixedly sleeved with the same forming cavity pressing plate (16), the top ends of the four forming cavities (15) are respectively provided with a positioning hole (17), a forming cavity feeding hole (18) is installed in the positioning hole (17), the bottom side of the die carrier lower base plate (4) is fixedly provided with a lower telescopic pressure cylinder (19), an output shaft of the lower telescopic pressure cylinder (19) is fixedly provided with a lower telescopic rod through a second coupler, the top end of the lower telescopic rod movably penetrates through the die carrier lower base plate (4) and is fixedly provided with a lower pressure head sliding support plate (20), the top side of the lower pressure head sliding support plate (20) is fixedly provided with four die lower pressure heads (21), the die lower pressure heads (21) are positioned below the forming die carrier cavity support plate (13), the bottom end of the die upper pressure head (9) is provided with a stripping groove piston (10), and a stripping piston rod (11) is arranged in the stripping groove piston (10), the bottom end of the stripping piston rod (11) extends to the outside of the stripping groove piston (10) and fixes the end part (12) of the forming surface.

2. The food material molding machine as claimed in claim 1, characterized in that: four mounting holes (14) are formed in the top side of the forming die carrier cavity supporting plate (13), and four forming cavities (15) are fixedly mounted in the four mounting holes (14) respectively.

3. The food material molding machine as claimed in claim 1, characterized in that: four positioning holes (17) are formed in the top side of the forming cavity pressing plate (16), and the top ends of the four forming cavities (15) extend into the four positioning holes (17).

4. The food material molding machine as claimed in claim 1, characterized in that: the four mould upper pressure heads (9) are respectively matched with the four forming cavity feeding ports (18), and the four mould lower pressure heads (21) are respectively matched with the four forming cavity feeding ports (18).

5. The food material molding machine as claimed in claim 1, characterized in that: four sliding holes are formed in the top side of the upper pressure head sliding support plate (8), sliding guide sleeves (24) are fixedly mounted in the four sliding holes, and the four sliding guide sleeves (24) are movably sleeved on the four guide columns (6) respectively.

6. The food material molding machine as claimed in claim 1, characterized in that: four guide post fixing holes (22) are formed in one side, close to each other, of the die carrier lower base plate (4) and the die carrier upper base plate (5), guide post mounting screws (23) are fixedly mounted at two ends of the four guide posts (6), and one ends of the eight guide post mounting screws (23) movably penetrate through the eight guide post fixing holes (22) respectively.

7. The food material molding machine as claimed in claim 1, characterized in that: and movable holes are formed in one side of the die carrier lower base plate (4) and one side of the die carrier upper base plate (5), and the lower telescopic rod and the upper telescopic rod respectively movably penetrate through the two movable holes.

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