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CN-122004333-A - Syrup sheet paving mechanism and soft sweet production equipment comprising same

CN122004333ACN 122004333 ACN122004333 ACN 122004333ACN-122004333-A

Abstract

The invention relates to the technical field of sugar production, in particular to a syrup sheet paving mechanism and soft sweet production equipment comprising the same, comprising an extrusion box, an extrusion molding assembly, an auxiliary flattening assembly, an auxiliary vibrating assembly and a vibrating assembly, wherein the extrusion molding assembly comprises a die arranged on one side of the extrusion box, a scraping piece is arranged in the die, the auxiliary flattening assembly comprises two guide frames arranged at the outlet of the die, when the scraping piece moves, a flattening plate reciprocates up and down along the guide frames, and the auxiliary vibrating assembly comprises a knocking plate arranged on one side of the die. The syrup is extruded periodically in an extrusion mode, the pouring mode is replaced, the stacking of syrup is avoided, the treatment step of syrup is simplified, meanwhile, some bubbles in the syrup can be eliminated, the scraping frame is arranged in the die, the syrup in the syrup is extruded through the scraping frame in time after the foundation is finished each time, the production interval is shortened, and the syrup is flattened and vibrated through the flattening plate and the knocking plate in the scraping process, so that the treatment efficiency is further improved.

Inventors

  • ZHANG WENBING

Assignees

  • 上海阿兵食品机械有限公司

Dates

Publication Date
20260512
Application Date
20260304

Claims (12)

  1. 1. A syrup sheet paving mechanism comprising an extrusion box, further comprising: The extrusion molding assembly comprises a die arranged at one side of an extrusion box, a flat molding cavity is formed in the die, a scraping piece is arranged in the die, an extrusion piece which periodically extrudes materials in the extrusion box into the die is arranged in the extrusion box, and when the extrusion piece stops extrusion, the scraping piece pushes the materials in the die out; the auxiliary flattening component comprises two guide frames arranged at the outlet of the die, and a flattening plate which moves synchronously with the scraping piece is also arranged at the outlet of the die, and the flattening plate reciprocates up and down along the guide frames when the scraping piece moves; the auxiliary vibrating component comprises a knocking plate arranged on one side of the die, and the knocking plate vibrates up and down in a reciprocating manner when the scraping piece moves.
  2. 2. The syrup sheet paving mechanism of claim 1 wherein a slitting assembly is provided on one side of the extrusion box, the slitting assembly includes a plurality of sets of knife holders disposed on one side of the extrusion box, each knife holder including a plurality of equally spaced knives, and the spacing of the knives in each knife holder is different.
  3. 3. The syrup sheet spreading mechanism of claim 1 wherein the scraping means comprises a scraping frame slidably mounted in the die, the scraping frame being sized to fit the molding cavity of the die, the top of the die adjacent the side of the extrusion box being provided with a receiving slot adapted to the scraping frame, the scraping frame moving gradually downwardly into the molding cavity away from the extrusion box, the bottom wall of the scraping frame being flush with the top wall of the molding cavity when the scraping frame is fully received in the receiving slot.
  4. 4. A syrup sheet paving mechanism according to claim 3, wherein the scraping member further comprises a chute formed in the top wall of the mold, the chute is in communication with the molding cavity, a slide plate is slidably mounted in the chute, the top wall of the slide plate is fixedly provided with a mounting plate, an elastic rod is arranged on the mounting plate, the bottom end of the elastic rod is provided with a telescopic end, the telescopic end is fixedly connected with the scraping frame, and the size of the telescopic end is smaller than that of the chute.
  5. 5. The syrup paving mechanism according to claim 4, wherein the mounting plate is fixedly provided with a mounting frame, the extruding box is provided with a transmission frame in a sliding manner, a connecting component is arranged between the transmission frame and the mounting frame, the reciprocating screw rod is rotatably arranged above the extruding box, the transmission frame is provided with a threaded hole matched with the reciprocating screw rod, and the extruding box is provided with a motor for driving the reciprocating screw rod to rotate.
  6. 6. The syrup spreading mechanism of claim 4, wherein the spreading plate is fixedly arranged on one side of the mounting plate away from the extrusion box, the guide frame is provided with a wavy guide groove, and the spreading plate is provided with a guide block matched with the guide groove.
  7. 7. The syrup paving mechanism according to claim 1, wherein the knocking vibration component comprises a first conveying belt arranged on one side of the die, a support is arranged in the first conveying belt, a cam is fixedly installed on a rotating shaft of the first conveying belt, a first piston pipe is fixedly installed on the support, a first piston rod is movably inserted on the first piston pipe, a transmission plate is fixedly connected on the first piston rod, the transmission plate is in sliding connection with a curved surface of the cam, a second piston pipe is fixedly installed on the support, a second piston rod is movably inserted on the top of the second piston pipe, the knocking plate is fixedly connected with the second piston rod, and the first piston pipe is communicated with the second piston pipe.
  8. 8. The syrup paving mechanism of claim 7, wherein a second conveyor belt is horizontally arranged on one side of the die away from the extrusion box, a third conveyor belt is obliquely arranged below the second conveyor belt, a driving frame is arranged on the top of the second conveyor belt, and a second electric push rod for driving the knife rest to lift is arranged on the driving frame.
  9. 9. The syrup sheet paving mechanism of claim 8, wherein a cooling rack is disposed in the second conveyor belt, a plurality of cooling channels are disposed in the cooling rack, the cooling channels are larger in channel size as the cooling channels are farther from the mold, a cold water pipe is disposed on one side of the cooling rack, the first piston pipe is communicated with the cold water pipe, and the first piston pipe is externally connected with a cold water tank.
  10. 10. The syrup spreading mechanism of claim 5 wherein the extrusion comprises an extrusion plate slidably disposed within an extrusion box, the exterior of the extrusion box being provided with a first electrical push rod for driving the extrusion plate to slide back and forth.
  11. 11. The syrup spreading mechanism according to claim 10, wherein a feeding frame is provided at the top of the extrusion box, a movable baffle is provided in the feeding frame, a trigger switch is fixedly installed on the inner wall of the extrusion box far from the side of the die, and when the trigger switch is extruded, the movable baffle is opened and the motor is started.
  12. 12. A soft candy production apparatus employing the syrup film spreading mechanism of any one of claims 1-11.

Description

Syrup sheet paving mechanism and soft sweet production equipment comprising same Technical Field The invention relates to the technical field of sugar production, in particular to a syrup paving mechanism and soft candy production equipment with the same. Background In the industrial production process of soft sweets, syrup paving is a key process for linking syrup boiling and soft sweets forming, and the paving uniformity directly influences the forming quality and taste of soft sweets and the smoothness of subsequent cutting and cooling processes. At present, the syrup spreading link in the existing soft candy production equipment mostly adopts a traditional dumping discharging mode to finish the syrup spreading operation. Because syrup used in soft candy production has higher viscosity and specific fluidity after boiling, when the dumping type discharging is adopted, syrup is easy to be rapidly piled up on a carrying carrier to form thick blocks, natural flattening is difficult, additional manual work or simple device auxiliary scraping is needed, the manual intervention cost is increased, and the problems of uneven thickness, irregular edges and the like of a paving sheet are easy to occur. The discharging mode causes long time consumption of the sheet laying process, cannot be connected with a subsequent automatic production line in a high-efficiency mode, greatly restricts the improvement of the whole production efficiency of the soft sweet, and meanwhile, the product sanitation and safety are affected due to the fact that impurities are easily introduced through manual scraping. In addition, the conditions of syrup splashing, waste and the like are easy to occur in the pouring process, and the production cost is further increased. Disclosure of Invention Aiming at the defects in the prior art, the invention provides a syrup paving mechanism and soft candy production equipment with the same, which can effectively solve the problem that syrup is accumulated and is not easy to be flattened in a dumping way in the prior art. In order to achieve the above purpose, the invention is realized by the following technical scheme: The invention provides a syrup paving mechanism, which comprises an extrusion box and further comprises: The extrusion molding assembly comprises a die arranged at one side of an extrusion box, a flat molding cavity is formed in the die, a scraping piece is arranged in the die, an extrusion piece which periodically extrudes materials in the extrusion box into the die is arranged in the extrusion box, and when the extrusion piece stops extrusion, the scraping piece pushes the materials in the die out; the auxiliary flattening component comprises two guide frames arranged at the outlet of the die, and a flattening plate which moves synchronously with the scraping piece is also arranged at the outlet of the die, and the flattening plate reciprocates up and down along the guide frames when the scraping piece moves; the auxiliary vibrating component comprises a knocking plate arranged on one side of the die, and the knocking plate vibrates up and down in a reciprocating manner when the scraping piece moves. Further, the extrusion box one side is equipped with cuts the subassembly, divide and the subassembly is including setting up the multiunit knife rest in extrusion box one side, every the knife rest all contains a plurality of equidistance cutter that distributes, and every the interval of cutter is all different in the knife rest. Further, the scraping piece comprises a scraping frame which is slidably mounted in the die, the scraping frame is matched with the size of the molding cavity of the die, a storage groove matched with the scraping frame is formed in the top of one side, close to the extrusion box, of the die, the scraping frame gradually moves downwards into the molding cavity when the scraping frame is far away from the extrusion box, and the bottom wall of the scraping frame is leveled with the top wall of the molding cavity when the scraping frame completely enters the storage groove. Further, strike-off piece still includes the spout of seting up on the mould roof, the spout is linked together with moulding the chamber, slidable mounting has the slide in the spout, the roof fixed mounting of slide has the mounting panel, be equipped with the elastic rod on the mounting panel, the bottom of elastic rod is equipped with flexible end, flexible end and strike-off frame fixed connection, and the size of flexible end is less than the spout. Further, the mounting frame is fixedly mounted on the mounting plate, the transmission frame is slidably mounted on the extrusion box, a connecting component is arranged between the transmission frame and the mounting frame, the reciprocating screw rod is rotatably mounted above the extrusion box, a threaded hole matched with the reciprocating screw rod is formed in the transmission frame, and a motor for driving the reciprocating screw rod t