CN215501183U - Impression mechanism for sugar manufacturing - Google Patents

Abstract

The utility model discloses a stamping mechanism for sugar production, and belongs to the technical field of sugar production equipment. This impression mechanism for sugaring, including equipment rack and mould mechanism, mould mechanism includes can mould rack, the setting that equipment rack reciprocated are in mould rack middle part just is used for the mould board of impression, movable mounting has in the mould rack is located mould board top and the clamp plate that can reciprocate, the clamp plate can with when pushing down the mould board offsets, be provided with the suction hood on the mould board. Carry out striking many times through the clamp plate to the mould board, ensure the powdered sugar compaction, improve the shaping quality of pit in the powdered sugar to after the shaping is accomplished, the clamp plate is strikeed the mould board once more, and then makes adnexed powdered sugar drop on the mould board, thereby guarantees subsequent shaping effect, and the suction hood that sets up in mould board top moreover can be siphoned away unnecessary powdered sugar, further reduces the influence of unnecessary powdered sugar to follow-up work, has promoted the shaping quality.

Description

Impression mechanism for sugar manufacturing

Technical Field

The utility model relates to the technical field of sugar making equipment, in particular to a stamping mechanism for sugar making.

Background

The candy industry, as one of the two traditional post snack industries in China, keeps growing rapidly, and the potential market share is expanding continuously. Meanwhile, the consumption level of people is improved, and on the basis of meeting the taste of the candy, the appearance of the candy is one of the conditions for consumers to choose, so that a new challenge is provided for the existing candy production industry.

At present, the candy shaping mainly relies on the mode of die casting, and the die mainly rubs out required shape on the powdered sugar through the mould, later pours into the syrup into the pit that forms in the powdered sugar again, and then makes the syrup shaping, but because powdered sugar self does not have fixed shape, current die often can be because the dynamics is not enough or other reasons lead to the powdered sugar shaping loose at rubbing, the condition of deformation takes place very probably after the syrup pours into, and then the shaping quality that has leaded to the candy is difficult to guarantee.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned shortcomings of the prior art, it is an object of the present invention to provide a stamping mechanism for sugar production.

In order to achieve the purpose, the technical scheme adopted by the utility model is that the stamping mechanism for sugar production comprises an equipment rack and a die mechanism, wherein the die mechanism comprises a die rack capable of moving up and down on the equipment rack and a die plate arranged in the middle of the die rack and used for stamping, a pressing plate which is positioned above the die plate and capable of moving up and down is movably arranged on the die rack, the pressing plate can abut against the die plate when pressed downwards, and a dust hood is arranged on the die plate.

Furthermore, the dust hoods are arranged in a front-back distribution mode, and the pressing plate is located between the two dust hoods.

Furthermore, a middle plate located above the die plate is erected on the die rack along the left-right direction, and the pressing plate is installed on the middle plate through a second air cylinder.

Furthermore, the pressing plates are arranged to be distributed in a left-right mode, and the two pressing plates are located between the two dust hoods.

Furthermore, a second guide rod is connected between the pressing plate and the middle plate, and the second guide rod penetrates through the middle plate.

Furthermore, the mould mechanism further comprises four first air cylinders which are arranged on the mould rack and correspond to four corners of the mould plate, and the first air cylinders are used for clamping the mould rack and the mould plate.

Furthermore, the dust hood is set to be a triangular structure, and a dust collection outlet is formed in the top of the triangular structure.

Furthermore, be equipped with on the mould board with two suction hood two first blowpipe subassemblies of assorted, first blowpipe subassembly sets up and is corresponding the suction hood with between the mould board border.

Furthermore, the first air blowing pipe assembly is provided with air blowing holes which are unfolded along the left-right direction, and the first air blowing pipe assembly blows air towards the direction close to the corresponding dust hood.

Furthermore, four first guide rods corresponding to four corners of the mold frame are arranged on the equipment frame, and the first guide rods penetrate through the mold frame.

Compared with the prior art, the utility model has the advantages that after the impression mechanism for sugar manufacturing is adopted: this impression mechanism for sugaring passes through impression frame up-and-down motion, drive the mould board and push down, and act on the powdered sugar of below, and then form the pit that matches with mould shape dress in making the powdered sugar, so that follow-up syrup shaping of pouring into, furthermore, the clamp plate of setting in mould board top, when the sugar dish is located the clamp plate below, the clamp plate strikes the mould board, and then make adnexed powdered sugar drop into the sugar dish on the mould board, so that follow-up shaping, when the shaping is pushed down to the mould board simultaneously, carry out striking many times to the mould board, further increase the pressure to the powdered sugar of mould board, ensure the powdered sugar compaction, improve the shaping quality of pit in the powdered sugar, and the suction hood that sets up above the mould board can be siphoned away unnecessary powdered sugar, further reduce the influence of unnecessary powdered sugar to follow-up work. Through such setting, both improved the shaping efficiency of powdered sugar pit, promoted the shaping quality again.

Drawings

FIG. 1 is a schematic perspective view of a sugar-making die mechanism according to the present invention;

FIG. 2 is a schematic front view of the stamp mechanism for sugar production according to the present invention;

FIG. 3 is a schematic top view of the sugar-making die mechanism of the present invention;

FIG. 4 is a schematic cross-sectional view taken along line A-A in FIG. 3;

FIG. 5 is a schematic perspective view of another embodiment of the sugar-making stamp mechanism of the present invention;

in the figure: 10. an equipment rack; 11. a first guide bar; 20. a mold frame; 21. a first cylinder; 30. a mold plate; 40. pressing a plate; 50. a dust hood; 51. a dust collection outlet; 60. a middle plate; 61. a second cylinder; 62. a second guide bar; 70. a first blowpipe assembly; 80. a second blowpipe assembly.

Detailed Description

The following description is only a preferred embodiment of the present invention, so that the present invention is more clearly and clearly understood, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1 to 5, the present invention discloses a stamping mechanism for sugar production, which comprises an apparatus frame 10 and a mold mechanism, wherein the mold mechanism comprises a mold frame 20 capable of moving up and down on the apparatus frame 10, and a mold plate 30 arranged in the middle of the mold frame 20 and used for stamping, a press plate 40 capable of moving up and down and located above the mold plate 30 is movably installed on the mold frame 20, the press plate 40 can abut against the mold plate 30 when pressed down, and a dust hood 50 is arranged on the mold plate 30.

The sugar making mold mechanism is arranged above a sugar tray, sugar powder is poured into the sugar tray, the mold mechanism drives a mold plate 30 to press downwards through the upward and downward movement of a mold frame and acts on the sugar powder in the sugar tray below, so that pits matched with the mold shape are formed in the sugar powder, syrup can be conveniently filled into the pits for molding, when the mold plate 30 is positioned below the pressing plate, the pressing plate 40 impacts the mold plate 30, redundant sugar powder attached to the lower end face of the mold plate 30 falls down and falls into the sugar tray below, so that the subsequent molding work is convenient, meanwhile, in the process of pressing the mold plate 30 downwards, when the mold plate 30 is pressed on the sugar powder, the pressing plate 40 moves downwards and continuously impacts the mold plate 30 for multiple times, the mold plate 30 is continuously struck for multiple times through the pressing plate 40, so that the mold plate 30 further compacts the sugar powder, pits in the required shape are pressed out, and in the process of working of the mold plate 30, the dust hood 50 above the die plate 30 continuously sucks away and recovers redundant powdered sugar through negative pressure, so that the subsequent working quality is not affected, the waste of powdered sugar is reduced, and resources are saved.

Further, the dust hoods 50 are arranged in two in a front-back distribution, and the pressing plate 40 is located between the two dust hoods 50.

Through two suction hoods 50 that distribute around, can be more comprehensive walk unnecessary powdered sugar, set up clamp plate 40 between two suction hoods 50 in addition, can make clamp plate 40 act on the middle part position of mould board 30, and then play better impact effect.

Further, a middle plate 60 located above the mold plate 30 is erected on the mold frame 20 in the left-right direction, and the pressing plate 40 is mounted on the middle plate 60 through a second cylinder 61.

The middle plate 60 is used for fixing the second cylinder 61, and the pressing plate 40 is driven by the second cylinder 61 to move up and down, so that the impact force of the pressing plate 40 on the die plate 30 is enough, and power resources can be saved by driving the cylinder.

Furthermore, the pressing plates 40 are disposed in two left-right distribution, and the two pressing plates 40 are located between the two dust hoods 50.

The two pressing plates 40 act simultaneously, so that the stamping force on the die plate 30 can be improved, the stamping effect of the pressing plates 40 is more uniform, and the working quality is improved.

Further, a second guide rod 62 is connected between the pressing plate 40 and the middle plate 60, and the second guide rod 62 penetrates through the middle plate 60.

The second guide rod 62 can guide the movement of the pressing plate 40, and limit the pressing plate 40 at the same time, so that the situation that the pressing plate 40 deviates or fails in movement is prevented, and the work of the whole mechanism can be safely and stably carried out.

Further, the mold mechanism further includes four first air cylinders 21 installed on the mold frame 20 and corresponding to four corners of the mold plate 30, and the first air cylinders 21 are used for clamping the mold frame 20 and the mold plate 30.

Fix mould frame 20 and mould board 30 through first cylinder 21 and can enough play good fixed effect, make the dismantlement of mould board 30 and change work convenient and fast more simultaneously, improved mould board 30's change speed, when the candy of different shapes or specifications needs to be produced, quick change mould board 30 also can promote production efficiency.

Further, the dust hood 50 is provided with a triangular structure, and a dust suction outlet 51 is arranged at the top of the triangular structure.

Further, the mold plate 30 is provided with two first air blowing pipe assemblies 70 matched with the two dust hoods 50, and the first air blowing pipe assemblies 70 are arranged between the edges of the corresponding dust hoods 50 and the mold plate 30.

Further, the first air blowing pipe assembly 70 is provided with air blowing holes which are opened in the left-right direction, and the first air blowing pipe assembly 70 blows air in a direction close to the corresponding dust hood 50.

Because the plurality of capillary holes are formed in the mold plate 30, powdered sugar is always attached to the mold plate 30 when the mold plate 30 works, and the two first air blowing pipe assemblies 70 blow air towards the dust hood 50, so that the powdered sugar attached to the mold plate 30 can be blown up, the powdered sugar is prevented from being adhered to the mold plate 30, the powdered sugar is sucked away by the dust hood 50 and is discharged from the dust suction outlet 51, the powdered sugar can be sucked more smoothly, and the dust suction efficiency is improved.

Further, the both sides of mould board 30 still are equipped with second gas blowing pipe assembly 80, can blow away the powdered sugar on the sugar dish below the mould board through setting up of second gas blowing pipe assembly 80, reduce the remaining of powdered sugar, ensure that mould board 30 is tight silk seamless when the compound die, ensure to have more outstanding shaping effect.

Further, four first guide rods 11 corresponding to four corners of the mold frame 20 are disposed on the apparatus frame 10, and the first guide rods 11 penetrate through the mold frame 20.

The first guide rods 11 can guide the overall movement of the impression mechanism, the impression mechanism can work safely and stably, the four corners are respectively provided with the first guide rods 11, the stability of the impression mechanism is further improved, and the safety of the mechanism is ensured.

While the utility model has been described with reference to a preferred embodiment and principles of technology applied thereto, it will be understood by those skilled in the art that the utility model is not limited to the particular embodiments described herein, but is capable of numerous obvious changes, rearrangements and substitutions without departing from the scope of the utility model.

Claims (10)

1. The utility model provides a press mold mechanism for sugaring, its characterized in that, includes equipment rack and mould mechanism, mould mechanism includes can mould rack, the setting that equipment rack reciprocated are in mould rack middle part just is used for the mould board of die, movable mounting has the position in the mould rack the clamp plate that mould board top just can reciprocate, when the clamp plate pushes down can with the mould board offsets, be provided with the suction hood on the mould board.

2. A sugar refining die mechanism as claimed in claim 1, wherein said dust hoods are arranged in two in a front-to-back arrangement, and said platen is located between said dust hoods.

3. A sugar-making die mechanism according to claim 2, wherein a middle plate is provided on said die frame in the left-right direction above said die plate, and said pressing plate is mounted on said middle plate by a second cylinder.

4. A stamping mechanism for sugar production as claimed in claim 3, wherein the two pressing plates are arranged in a left-right distribution, and the two pressing plates are both located between the two dust hoods.

5. A saccharide stamping mechanism according to claim 3, wherein a second guide rod is connected between the pressing plate and the middle plate, and the second guide rod passes through the middle plate.

6. A sugar refining die mechanism as defined in claim 1, wherein said die mechanism further includes four first pneumatic cylinders mounted to said die frame and corresponding to four corners of said die plate, said first pneumatic cylinders being adapted to clamp said die frame and said die plate together.

7. A sugar refining die mechanism as claimed in claim 1, wherein the suction hood is provided in a triangular configuration and a suction outlet is provided at the top of the triangular configuration.

8. A stamping mechanism for sugar production as claimed in claim 2 or 7, wherein the mould plate is provided with two first air blowing pipe assemblies which are matched with the two dust hoods, and the first air blowing pipe assemblies are arranged between the corresponding dust hoods and the edge of the mould plate.

9. A sugar-making die mechanism according to claim 8, wherein said first air blowing pipe assembly is provided with air blowing holes which are opened in the left-right direction, and said first air blowing pipe assembly blows air toward a direction close to the corresponding dust suction hood.

10. A stamping mechanism for sugar production as claimed in claim 1, wherein four first guide rods are provided on the equipment frame corresponding to four corners of the mould frame, the first guide rods passing through the mould frame.

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