CN213083599U - Automatic flat-sealing packaging machine for spirulina tablets - Google Patents

Abstract

The utility model discloses a flat-sealing automatic packing machine for spirulina slices, which comprises a base, wherein one side of the base is provided with an upper film roller and a lower film roller, and is provided with an upper film collecting barrel and a lower film collecting barrel; a blanking square hole is formed in the middle of the base, a feeding mechanical arm is arranged on the side edge of the base, and the feeding mechanical arm places the spirulina slices on the lower film above the blanking square hole; a hot melting part is arranged above the blanking square hole, an annular cutting part is arranged outside the hot melting part, the top of the annular cutting part is connected with a top column, and the top column is connected with a cylinder; the top column pushes the circular cutting part to move downwards, the circular cutting part drives the hot melting part to move downwards together and move towards the blanking square hole, so that the upper film and the lower film are fused to package the spirulina slices, and the whole package is cut off. The utility model discloses can carry out complete automatic encapsulation packing, improve production efficiency promptly, still guarantee the quality of spirulina piece, can also avoid accident at last, guarantee production safety.

Description

Automatic flat-sealing packaging machine for spirulina tablets

Technical Field

The utility model relates to a spirulina piece flat sealing automatic packaging machine.

Background

The spirulina contains comprehensive and balanced nutrients, and is rich in protein, amino acids, polysaccharide, unsaturated fatty acid, carotene, phycocyanin, etc. And also contains multiple vitamins, minerals and trace elements. Has effects in improving immunity and improving body constitution. The spirulina is used as a health food, and has effects of regulating physiological function balance of human body, promoting metabolism, enhancing immunity and improving physical quality.

In order to facilitate sale and transportation, the spirulina is packaged after being made into spirulina tablets, and then the spirulina tablets are put into outer packages of products for transportation and sale.

At present, spirulina tablets of part of enterprises are packaged by adopting a manual matching machine. Wherein, the inner package is made of transparent film, the spirulina sheet is put in the bag after being made into the bag, then the opening is sealed, and then the outer commodity package is carried out.

In such a packaging method, the film-sealed package is manually operated, which not only causes inefficiency, but also affects the quality of the spirulina sheet. Because the manual mode is adopted, bacteria on hands can be accidentally attached to the spirulina plateaus. In most of the manual work, the film is spread with both hands after being bagged. This can have the potential safety hazard, very easily takes place the incident.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to not enough among the prior art, provide a spirulina piece flat sealing automatic packaging machine, can carry out complete automatic encapsulation packing, improved production efficiency promptly, still guaranteed the quality of spirulina piece, can also avoid accident at last, guarantee production safety.

In order to solve the technical problem, the utility model discloses a following technical scheme can solve: an automatic flat-sealing packing machine for spirulina slices comprises a base, wherein an upper film roller and a lower film roller which are arranged up and down are rotatably arranged on one side of the base, an upper film collecting barrel and a lower film collecting barrel which are arranged up and down are rotatably arranged on the other side of the base, plastic sealing films released from the upper film roller and the lower film roller penetrate through the upper part of the base and are respectively wound on the upper film collecting barrel and the lower film collecting barrel; a blanking square hole is formed in the middle of the base, a feeding mechanical arm is arranged on the side edge of the base, and the feeding mechanical arm places the spirulina slices on the lower film above the blanking square hole; a hot melting part is arranged above the blanking square hole, an annular cutting part is arranged outside the hot melting part, the top of the annular cutting part is connected with a top post, and the top post is connected with an air cylinder; the top column pushes the circular cutting part to move downwards, the circular cutting part drives the hot melting part to move downwards together and move towards the blanking square hole, so that the edges of the upper film and the lower film are fused to package the spirulina slices, and the whole package is cut off; and a conveying belt is arranged below the blanking square hole and used for conveying the packaged spirulina slices to the next process. Besides the feeding mechanical arm, the spirulina slices can also be placed in a conveying belt mode. If a conveyor belt is used, the end of the conveyor belt needs to be retractable, so that the conveyor belt can be separated from the space between the upper film and the lower film when being pressed downwards.

Preferably, four oblique plane sliding blocks are arranged on the top surface of the base, and the oblique plane sliding blocks surround the blanking square hole in the middle; the oblique plane sliding block is provided with a connecting rod, the connecting rod penetrates through a clamping ring arranged on the base, a tail end blocking disc is arranged at the end, and a reset spring is sleeved on the connecting rod and between the clamping ring and the oblique plane sliding block.

Preferably, auxiliary leveling wheels are arranged on two sides of the base, and the auxiliary leveling wheels support the lower die to be in a horizontal state and enable the lower die to be higher than the upper top surface of the chamfer slide block.

Preferably, edge steps are arranged on the periphery of the blanking square hole, square convex rings are arranged on the edge steps, a square hot-melt pressure ring and a heating part for heating the square hot-melt pressure ring are arranged at the bottom of the hot-melt part, and the square convex rings are matched with the square hot-melt pressure ring to realize the hot-melt adhesion effect on the upper film and the lower film; the heating part circuit is connected with an external power supply.

Preferably, a knife inlet groove is formed outside the edge step, and the circular cutting part is provided with a square circular cutting knife which enters the knife inlet groove when moving downwards so as to cut the upper film and the lower film.

Preferably, the top of the hot melting part is provided with a plurality of guide posts, the guide posts penetrate through the top surface of the circular cutting part and are provided with limiting end heads at the end parts, the guide post sleeves are provided with pressure-bearing springs, and the pressure-bearing springs prop up the top surface of the circular cutting part and prop against the top surface of the hot melting part downwards.

Preferably, be provided with the spliced pole that stretches out downwards in the middle of the circular cutting portion, the spliced pole passes the top surface of hot melt portion, hot melt portion bottom is provided with the upper groove, the spliced pole tip is provided with thermal-insulated pressure head down, thermal-insulated pressure head is located down in the upper groove.

Preferably, the top surface of the hot melting part is provided with a distance measuring probe, and the distance measuring probe detects the distance from the top surface of the circular cutting part to the top surface of the hot melting part.

Preferably, the inclined plane sliding block is provided with a pressure-bearing inclined plane, the bottom end of the pressure-bearing inclined plane faces the blanking square hole, the pressure-bearing inclined plane covers the cutter feeding groove and part of the square convex rings, and the hot melting pressure ring and the square ring cutter move downwards to the pressure-bearing inclined plane to force back the inclined plane sliding block.

Preferably, the bottom end of the pressure-bearing inclined plane is provided with a fillet.

The utility model relates to a spirulina piece flat sealing automatic packaging machine can carry out complete automatic encapsulation packing, has improved production efficiency promptly, has still guaranteed the quality of spirulina piece, can also avoid accident at last, guarantee production safety.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be discussed below, it is obvious that the technical solutions described in conjunction with the drawings are only some embodiments of the present invention, and for those skilled in the art, other embodiments and drawings can be obtained according to the embodiments shown in the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the heat melting portion and the circular cutting portion of the present invention.

In the figure: the film winding machine comprises an upper film roller 1, an upper die 10, an upper film winding drum 11, a lower film roller 2, a lower die 20, a lower film winding drum 21, an auxiliary leveling wheel 22, a base 3, a blanking square hole 31, an edge step 32, a square convex ring 3211, a knife feeding groove 33, a clamping ring 34, a diagonal plane sliding block 4, a pressure-bearing inclined plane 40, a connecting rod 41, a tail end baffle disc 42, a reset spring 43, a hot melting part 5, a square hot melting pressing ring 51, a guide column 52, a limiting end head 521, a pressure-bearing spring 53, a distance measuring probe 54, an upper groove 55, an annular cutting part 6, a square annular cutting knife 61, a connecting column 62, a heat-insulating lower pressing head 63, a top column.

Detailed Description

The technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings, and it is to be understood that the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments described in the present disclosure, all other embodiments obtained by a person skilled in the art without creative efforts are within the scope of the present disclosure.

As shown in fig. 1 and 2, an automatic flat-sealing packaging machine for spirulina platecomprises a base 3, wherein one side of the base 3 is rotatably provided with an upper film roller 1 and a lower film roller 2 which are arranged up and down, the other side is rotatably provided with an upper film receiving barrel 11 and a lower film receiving barrel 21 which are arranged up and down, and plastic sealing films released from the upper film roller 1 and the lower film roller 2 pass through the upper part of the base 3 and are respectively wound on the upper film receiving barrel 11 and the lower film receiving barrel 21; a blanking square hole 31 is formed in the middle of the base 3, a feeding mechanical arm is arranged on the side edge of the base 3, and the feeding mechanical arm places spirulina pieces on a lower film above the blanking square hole 31; a hot melting part 5 is arranged above the blanking square hole 31, an annular cutting part 6 is arranged outside the hot melting part 5, the top of the annular cutting part 6 is connected with a top post 7, and the top post 7 is connected with an air cylinder; the top pillar 7 pushes the circular cutting part 6 to move downwards, the circular cutting part 6 drives the hot melting part 5 to move downwards together and move towards the blanking square hole 31, so that the edges of the upper film and the lower film are fused to package the spirulina slices, and the whole package is cut off; a conveyer belt 8 is arranged below the blanking square hole 31, and the conveyer belt 8 conveys the encapsulated spirulina slices to the next process.

Four oblique plane sliding blocks 4 are arranged on the top surface of the base 3, and the blanking square hole 31 is surrounded in the middle by the oblique plane sliding blocks 4; the inclined plane sliding block 4 is provided with a connecting rod 41, the connecting rod 41 penetrates through a clamping ring 34 arranged on the base 3, a tail end blocking disc 42 is arranged at the end, and a return spring 43 is sleeved on the connecting rod 41 and is positioned between the clamping ring 34 and the inclined plane sliding block 4.

And auxiliary leveling wheels 22 are arranged on two sides of the base 3, and the auxiliary leveling wheels 22 support the lower die to be in a horizontal state and enable the lower die to be higher than the upper top surface of the chamfer slide block 4.

An edge step 32 is arranged on the periphery of the blanking square hole 31, a square convex ring 321 is arranged on the edge step 32, a square hot-melt press ring 51 and a heating part for heating the square hot-melt press ring 51 are arranged at the bottom of the hot-melt part 5, and the square convex ring 321 is matched with the square hot-melt press ring 51 to realize the hot-melt bonding effect on the upper film and the lower film; the heating part circuit is connected with an external power supply.

A knife inlet 33 is arranged outside the edge step 32, the ring cutting part 6 is provided with a square ring cutter 61, and when the square ring cutter 61 moves downwards, the square ring cutter enters the knife inlet 33 so as to cut the upper film and the lower film.

The top of the hot melting part 5 is provided with a plurality of guide posts 52, the guide posts 52 penetrate through the top surface of the circular cutting part 6 and are provided with limiting end heads 521 at the end parts, the guide posts 52 are sleeved with pressure-bearing springs 53, and the pressure-bearing springs 53 are propped against the top surface of the circular cutting part 6 upwards and are propped against the top surface of the hot melting part 5 downwards.

The centre of 6 girdling portions is provided with the spliced pole 62 that stretches out downwards, spliced pole 62 passes the top surface of hot melt portion 5, 5 bottoms of hot melt portion are provided with upper groove 55, spliced pole 62 tip is provided with thermal-insulated pressure head 63 down, thermal-insulated pressure head 63 is located down in the upper groove 55.

The top surface of the hot melting part 5 is provided with a distance measuring probe 54, and the distance measuring probe 54 detects the distance from the top surface of the circular cutting part 6 to the top surface.

The inclined plane sliding block 4 is provided with a pressure-bearing inclined plane 40, the bottom end of the pressure-bearing inclined plane 40 faces the blanking square hole 31, the pressure-bearing inclined plane 40 covers the cutter inlet 33 and a part of the square convex ring 321, and the hot melt pressing ring 51 and the square ring cutter 61 move downwards to the pressure-bearing inclined plane 40 to enable the inclined plane sliding block 4 to be ejected and retracted.

The bottom end of the pressure-bearing inclined plane 40 is provided with a fillet.

The upper film roller 1 and the lower film roller 2 of the device provide an upper film and a lower film for plastic package, the spirulina slices are placed on the lower film, and then the air cylinder is started to work to push the circular cutting part 6 to move downwards. When moving, the circular cutting part 6 can move together with the hot melting part 5 because of the action of the pressure spring 53.

When the hot melting part 5 moves downwards, the square hot melting ring 51 on the hot melting part contacts the upper film 10, the lower die 20 and the pressure bearing inclined plane 40 in sequence. After the square hot-melt pressing ring 51 contacts the pressure-bearing inclined surface 40, the oblique-plane sliding block 4 is driven to retreat to make it leave enough space, and then continuously moves downwards until the square hot-melt pressing ring contacts the square convex ring 321 on the edge step 32, so that the plastic packaging work is completed. In this process, the square fusible ring 51 fuses and bonds the upper mold 10 and the lower mold 20.

In addition, in order to improve the adhesion effect, the square convex ring 321 may also be connected to a heating circuit, then a switch is arranged on the moving path of the oblique-section slider 4, and when the oblique-section slider 4 is pushed back, the switch is activated, so that the square convex ring 321 also heats. In this way, when the square fusible ring 51 is pressed down to the square protruding ring 321, heat can be generated together from above and below, and the upper film and the lower film can be fusion bonded better.

After the square hot-melt press ring 51 is pressed down to the square convex ring 321, the top pillar continues to move down, and the square ring cutter 61 is driven to cut downwards. The square ring cutter 61 presses the pressure bearing inclined plane 40 and drives the inclined plane slide block 4 to retreat again to give way to a space. The square-ring cutter 61 finally enters the cutter inlet groove 33, thereby completing the cutting work.

In this device, square ring cutter 61 is located the square hot melt clamping ring 51 outside, during consequently the cutting, can guarantee to go up the membrane and the lower membrane bonding department is complete.

This device has still set up thermal-insulated pressure head 61 down, and it is after square ring cutter 61 cutting is accomplished, pushes down the product that the encapsulation is good, makes on its conveyer belt 8 that falls in the below, and outwards carry.

A distance measuring probe 54 is provided on the top surface of the heat-fusible part 5, which can control the amount of downward movement of the square ring cutter 61, thereby preventing a cutter collision.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive. The scope of the invention is indicated by the appended claims, rather than the foregoing description, and all changes that come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

The utility model relates to a spirulina piece flat sealing automatic packaging machine can carry out complete automatic encapsulation packing, has improved production efficiency promptly, has still guaranteed the quality of spirulina piece, can also avoid accident at last, guarantee production safety.

Claims (10)

1. The utility model provides a spirulina piece flat sealing automatic packaging machine, includes base (3), its characterized in that: an upper film roller (1) and a lower film roller (2) which are arranged up and down are rotatably arranged on one side of the base (3), an upper film receiving barrel (11) and a lower film receiving barrel (21) which are arranged up and down are rotatably arranged on the other side of the base, and plastic sealing films released from the upper film roller (1) and the lower film roller (2) penetrate through the upper part of the base (3) and are respectively wound on the upper film receiving barrel (11) and the lower film receiving barrel (21); a blanking square hole (31) is formed in the middle of the base (3), a feeding mechanical arm is arranged on the side edge of the base (3), and the feeding mechanical arm places spirulina slices on a lower film above the blanking square hole (31); a hot melting part (5) is arranged above the blanking square hole (31), an annular cutting part (6) is arranged outside the hot melting part (5), the top of the annular cutting part (6) is connected with a top post (7), and the top post (7) is connected with an air cylinder; the top pillar (7) pushes the circular cutting part (6) to move downwards, the circular cutting part (6) drives the hot melting part (5) to move downwards together and move towards the blanking square hole (31), so that the edges of the upper film and the lower film are fused to package the spirulina slices, and the whole package is cut off; a conveying belt (8) is arranged below the blanking square hole (31), and the conveying belt (8) conveys the encapsulated spirulina slices to the next working procedure.

2. The automatic flat-sealing and packaging machine for spirulina slices as claimed in claim 1, wherein: the top surface of the base (3) is provided with four oblique plane sliding blocks (4), and the blanking square hole (31) is surrounded in the middle by the oblique plane sliding blocks (4); the inclined plane sliding block (4) is provided with a connecting rod (41), the connecting rod (41) penetrates through a clamping ring (34) arranged on the base (3), a tail end blocking disc (42) is arranged at the end, and a part, located on the connecting rod (41), of the clamping ring (34) and between the inclined plane sliding blocks (4) is sleeved with a return spring (43).

3. The automatic flat-sealing and packaging machine for spirulina slices as claimed in claim 2, wherein: the base (3) both sides are provided with supplementary flatting wheel (22) of looking for, supplementary flatting wheel (22) of looking for will the lower mould props up for the horizontality to make it higher than the last top surface of scarf slider (4).

4. The automatic flat-sealing and packaging machine for spirulina slices as claimed in claim 2, wherein: the periphery of the blanking square hole (31) is provided with an edge step (32), the edge step (32) is provided with a square convex ring (321), the bottom of the hot melting part (5) is provided with a square hot melting press ring (51) and a heating part for heating the square hot melting press ring (51), and the square convex ring (321) is matched with the square hot melting press ring (51) to realize the hot melting bonding effect on the upper film and the lower film; the heating part circuit is connected with an external power supply.

5. The automatic flat-sealing and packaging machine for spirulina slices as claimed in claim 4, wherein: a cutter inlet groove (33) is formed in the outer side of the edge step (32), a square ring cutter (61) is arranged on the ring cutting part (6), and when the square ring cutter (61) moves downwards, the square ring cutter enters the cutter inlet groove (33) to cut an upper film and a lower film.

6. The automatic flat-sealing and packaging machine for spirulina slices as claimed in claim 5, wherein: the top of the hot melting part (5) is provided with a plurality of guide columns (52), the guide columns (52) penetrate through the top surface of the circular cutting part (6) and are provided with limiting end heads (521) at the end parts, the guide columns (52) are sleeved with pressure-bearing springs (53), and the pressure-bearing springs (53) prop up the top surface of the circular cutting part (6) and downwards prop against the top surface of the hot melting part (5).

7. The automatic flat-sealing and packaging machine for spirulina slices as claimed in claim 6, wherein: the centre of circular cutting portion (6) is provided with spliced pole (62) that downwardly stretches out, spliced pole (62) pass the top surface of hot melt portion (5), hot melt portion (5) bottom is provided with upper groove (55), spliced pole (62) tip is provided with thermal-insulated lower pressure head (63), thermal-insulated lower pressure head (63) are located in upper groove (55).

8. The automatic flat-sealing and packaging machine for spirulina slices as claimed in claim 6, wherein: the top surface of hot melt portion (5) is provided with range finding probe (54), range finding probe (54) detect the top surface of circular cutting portion (6) apart from its distance.

9. The automatic flat-sealing and packaging machine for spirulina slices as claimed in claim 6, wherein: the inclined plane sliding block (4) is provided with a pressure-bearing inclined plane (40), the bottom end of the pressure-bearing inclined plane (40) faces towards the blanking square hole (31), the pressure-bearing inclined plane (40) covers the cutter inlet groove (33) and a part of square convex rings (321), and the hot melt pressing ring (51) and the square ring cutter (61) move down to the pressure-bearing inclined plane (40) and can approach and retreat the inclined plane sliding block (4).

10. The automatic flat-sealing and packaging machine for spirulina platesari as claimed in claim 9, wherein: and the bottom end of the pressure-bearing inclined plane (40) is provided with a fillet.

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