CN210782783U - Power device for forming sugar blocks of sugar making machine - Google Patents

Abstract

The utility model discloses a sugared piece shaping power device of sugaring machine belongs to sugaring technical field, and the inside compactness of sugared piece of having solved the production of current sugaring machinery is non-unified, and overall compactness is poor, the relatively poor problem of sugared piece drawing of patterns efficiency, the technical measure who takes: a sugar block forming power device of a sugar making machine comprises a rotating shaft, and a driving mechanism is used for driving the rotating shaft to do circumferential reciprocating motion and is characterized in that a row of pressing blocks and a row of pushing blocks are respectively arranged on the rotating shaft along the axial direction of the rotating shaft, and the pressing blocks and the pushing blocks are in one-to-one correspondence with each other in the axial direction of the rotating shaft; the pressing block and the pushing block are staggered in the circumferential direction of the rotating shaft; the pressing block and the pushing block are respectively connected with respective power mechanisms, the power mechanisms are arranged on the rotating shaft, and under the driving of the power mechanisms, the pressing block acts on the target sugar material before the pushing block.

Description

Power device for forming sugar blocks of sugar making machine

Technical Field

The utility model relates to a candy shaping machine, in particular to a power device for shaping candy on a candy shaping machine.

Background

Before preparing the candy or chocolate block, hot syrup is mixed with auxiliary materials such as nutlet and the like, the mixture is stirred to form thick and loose candy, and then the thick and loose candy is rolled by a roller to form a flaky material. The thin sheet materials need to be divided into a plurality of strips by a hobbing cutter, and the strip materials need to be conveyed to a transverse cutter position by a conveying belt so as to be transversely cut into blocks.

Chinese patent document (publication number: CN 206238291U) discloses a black sugar block forming die, which belongs to the field of black sugar block processing equipment, and the structure comprises a bottom frame and a demoulding frame, wherein the bottom frame and a die supporting frame are spliced for use; the chassis comprises a bottom plate, a sliding groove, a fixed template, a connecting block, a pawl and a pressing block, and the demolding frame comprises a side plate, a demolding plate, a partition plate and a rack. The utility model discloses convenient operation can realize the not black sugar piece of equidimension and stereotype, can once only accomplish all black sugar piece drawing of patterns, and the drawing of patterns is efficient, and the black sugar piece after the not fragile shaping of drawing of patterns in-process, finished product are of high quality.

The brown sugar block forming die is provided with a plurality of die cavities, viscous materials are filled in the die cavities, the outer opening parts of the die cavities are scraped by the scraping plates, and then integral demolding is realized. When filling material in toward the die cavity, not carrying out the stop-motion fixed point to every die cavity and filling, be integral filling usually, this just makes the material volume difference in the different die cavities great, when utilizing the scraper blade to strike off the die cavity, the interior structure of the sugar piece that obtains in the die cavity that the material volume is few is comparatively loose, and the interior structure of the sugar piece that obtains in the die cavity that the material volume is many is comparatively compacter, and the inside compactness degree difference of sugar piece can influence the taste of sugar piece. Moreover, the degree of densification of the interior of the mass obtained with such a mold is not too high overall. In addition, when the mold is used for demolding, the sugar material is relatively still in a viscous state, so that the demolding efficiency of the sugar material cannot be well guaranteed.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that needs to solve is: the utility model provides a sugar machine sugar piece shaping power device for the sugar piece compactness of making is good, can effectively guarantee the taste of sugar piece, and the shedder rate of sugar piece is high, makes the work efficiency of sugar machine can obtain guaranteeing.

For solving the technical problem, the utility model discloses the technical scheme who takes: a sugar block forming power device of a sugar making machine comprises a rotating shaft, and a driving mechanism is used for driving the rotating shaft to do circumferential reciprocating motion and is characterized in that a row of pressing blocks and a row of pushing blocks are respectively arranged on the rotating shaft along the axial direction of the rotating shaft, and the pressing blocks and the pushing blocks are in one-to-one correspondence with each other in the axial direction of the rotating shaft; the pressing block and the pushing block are staggered in the circumferential direction of the rotating shaft; the pressing block and the pushing block are respectively connected with respective power mechanisms, the power mechanisms are arranged on the rotating shaft, and under the driving of the power mechanisms, the pressing block acts on the target sugar material before the pushing block.

The driving mechanism usually drives the rotating shaft to rotate in the circumferential direction, but may drive the rotating shaft to horizontally reciprocate. When the rotating shaft moves horizontally, the corresponding sugar block mold is flat, the rotating shaft is arranged on the upper side of the mold, a plurality of through mold cavities are arranged on the mold, and the rotating shaft compacts sugar materials in the mold cavities firstly in the horizontal moving process and then pushes out the sugar blocks from the mold cavities of the mold. When the rotating shaft can circumferentially rotate in a reciprocating manner, the mold is cylindrical, a plurality of through mold cavities are formed in the mold, the rotating shaft is inserted into the mold, the push block and the press block on the rotating shaft are used for firstly compacting sugar in the mold cavities from the inner opening parts of the mold cavities, and then the compacted sugar is pushed out from the outer opening parts of the mold cavities.

Further, the pressing block and the pushing block are arranged on the installation end side of the rotating shaft, the other end side of the rotating shaft is a connection end side, and the connection end side is connected with the supporting structure to enable the installation end side to be in a cantilever shape. The power device can well meet the assembly and working requirements of the cylindrical die, the structure of the sugar making machine is compact, and the occupied space of the sugar making machine is saved.

Furthermore, the power mechanism is an air cylinder, and each pressing block is fixedly connected with the outer end part of a piston rod in one air cylinder. The air cylinders can be connected to the same air source, the pressure of compressed air at the air source is certain, so that the force applied to the piston rod is consistent, the pressure of the sugar in each die cavity is equal when the pressing block presses the sugar, and the sugar block with good compactness and consistency can be conveniently prepared. Moreover, the purpose of changing the internal compactness of the sugar block can be achieved by changing the pressure of the compressed air, so that the sugar block with various tastes can be prepared by the sugar making machine, and the application range of the sugar making machine is improved.

Furthermore, a connecting port is arranged on the circumferential surface of the mounting end side of the rotating shaft, the connecting port is arranged along the axial direction of the rotating shaft, a connecting plate is fixed in the connecting port, and the cylinder connected with the pressing block is connected with the connecting plate. Through setting up connecting plate and coupling port, and the convenience is fixed to the hookup of cylinder for the hookup fastness of cylinder in the pivot is good.

Furthermore, the connecting plate is L-shaped, one side part of the connecting plate is fixedly attached to the bottom surface of the connecting port, and the back surface of the air cylinder connected with the pressing block is fixedly attached to the other side part of the connecting plate. The connection stability of the connecting plate on the rotating shaft is further improved, so that a good foundation is provided for the stability of the air cylinder, and the pressing block is conveniently and stably pressed towards the die cavity.

Further, cylinders coupled to the press block are inserted into the coupling ports, and bottom surfaces of the cylinders are fitted to one side portion of the coupling plate. The connection firmness between the air cylinder and the connecting plate is further improved, so that the connection stability of the air cylinder on the rotating shaft is good.

Furthermore, the power mechanism is an air cylinder, all the push blocks are connected with a piston rod in the air cylinder through a connecting rod, and the push blocks are connected and fixed on the connecting rod. The push block is connected and fixed with the cylinder through the connecting rod, the structure is simple, the push block can well meet the push requirement of the push block on the sugar block, the whole-line demoulding operation of the sugar block in the mould cavity is convenient, and the operation efficiency is high.

Therefore, the utility model has the advantages that: through being provided with this shaping power device on sugaring machinery for when carrying out the preparation of sugar piece, can drive the briquetting through power unit and carry out the compaction to the material of mould intracavity on the mould, make the inside compactness of sugar piece good, can effectively guarantee the taste of sugar piece. Through the compaction of the materials in the die cavity, the compactness inside the sugar block is relatively uniform, the taste difference of the same batch of sugar blocks is small, and the uniformity of the quality of the sugar blocks is facilitated. Can be through the change to power unit power supply, and can refine the control to the quality of sugar piece to be convenient for prepare the sugar piece of different taste, can satisfy consumer's consumption demand better. After the sugar is compacted, the molded sugar can be pushed out to the outer side of the mold cavity through the push block, so that the demolding after the sugar molding is facilitated, and the demolding efficiency is high.

Drawings

FIG. 1 is a side view in one direction of the power unit for forming the candy mass of the present sugar machine.

Fig. 2 is a transverse sectional view in fig. 1.

FIG. 3 is a perspective view of the power unit for forming sugar mass of the sugar machine in one direction.

FIG. 4 is a perspective view of the power unit for forming sugar mass of the sugar maker in another direction.

Fig. 5 is a reference diagram of the using state of the candy forming power device.

In the figure, 1, a rotating shaft; 11. a coupling end side; 12. a mounting end side; 2. a cylinder; 3. briquetting; 4. a coupling plate; 5. a coupling rod; 6. a push block; 7. a mold; 8. a frame; 9. a drive rod; 10. a hopper; 21. a motor; 22. a speed reducer; 23. a pull rod; 24. a swing link.

Detailed Description

The power device for forming the sugar blocks of the sugar making machine is applied to the sugar making machine by combining with the attached drawing, so that the preparation of the sugar blocks is convenient. This sugar piece shaping power device is arranged in carrying out the compaction and carrying out the drawing of patterns to the material of 7 mould intracavity of mould in the sugar machine to the sugar piece after the shaping to guarantee the smooth and easy nature of work of sugar machine. The power device is mainly applied to a cylindrical die 7, a plurality of through die cavities are arranged on the die 7, the die cavities are cuboid, and the die cavities are arranged in a row in the axial direction of the die 7. After the assembly is completed, the sugar block forming power device extends into the mold 7 and is arranged along the axial direction of the mold 7.

Fig. 5 shows that the cylindrical mold 7 is horizontally arranged on a frame 8 of the sugar making machine, one end of the mold 7 is connected to one end of a driving rod 9, the driving rod 9 is horizontally arranged, the driving rod 9 is in transmission connection with a transmission mechanism, and the driving rod 9 drives the mold 7 to rotate circumferentially under the drive of the transmission mechanism. The hopper 10 supplies sugar into the cavity of the mold 7, where the sugar is molded into sugar pieces, which are released from the cavity at the lower discharge position and conveyed to the outside of the sugar maker.

The drive rod 9 is hollow, the rotating shaft is coaxially inserted in the drive rod 9, a bearing is arranged between the rotating shaft and the drive rod 9, and the rotating shaft can rotate circumferentially relative to the drive rod 9. The rotating shaft is connected with a driving mechanism in a transmission way, the driving mechanism comprises a motor 21, a power output shaft of the motor 21 is connected with a reversing speed reducer 22, a driving wheel is arranged on the reversing speed reducer 22, the driving wheel is eccentrically arranged, one end part of a pull rod 23 is rotatably sleeved on the driving wheel, the other end of the pull rod 23 is movably connected with a swing rod 24, and the swing rod 24 is fixedly connected on the rotating shaft in a connection way. Driven by the motor 21, the rotating shaft can rotate in the reciprocating circumferential direction.

The rotating shaft 1 is respectively provided with a plurality of pressing blocks 3 and pushing blocks 6, the pressing blocks 3 and the pushing blocks 6 are respectively arranged in a row along the axial direction of the rotating shaft 1, and the positions of the pressing blocks 3 and the pushing blocks 6 in the circumferential direction of the rotating shaft 1 are mutually staggered. The pressing blocks 3 and the pushing blocks 6 are in one-to-one correspondence in the axial direction of the rotating shaft 1, and the pressing blocks 3 and the pushing blocks 6 in one row respectively correspond to the die cavities in one row on the die 7. The pressing block 3 and the pushing block 6 are respectively connected with respective power mechanisms, and the power mechanisms are arranged on the rotating shaft 1. When the sugar pressing device works, the transmission mechanism drives the mold 7 to rotate, and when the pressing block 3 or the pushing block 6 presses the sugar in the mold cavity, the rotating shaft 1 is driven by the driving mechanism to rotate at the same angular speed as the mold 7 so as to adapt to the action of the pressing block 3 and the pushing block 6 on the sugar and ensure the action time of the pressing block 3 and the pushing block 6 on the sugar or the sugar. In order to further ensure the synchronism of the movement of the rotating shaft 1 and the mold 7, a speed measuring mechanism is arranged on the driving rod 9 and used for controlling the work of the motor 21. The speed measuring mechanism structurally comprises a speed measuring device, an input gear is arranged on the speed measuring device, an output gear is sleeved on a driving rod 9, and the input gear is meshed with the output gear.

The periphery of the die 7 is also sleeved with a cylindrical supporting cylinder, and the supporting cylinder is empty at the positions of a feed inlet and a sugar outlet of the die 7, so that the hopper 10 can feed materials into a die cavity on the die 7 and discharge sugar blocks. In the operating position of the pressure piece 3, however, the support cylinder has support points for supporting the sugar mass in the mold cavity, in order to compact the sugar mass by the pressure piece 3. Of course, the support cylinder can also be replaced by a segment of an arc-shaped mould, just as far as the supporting effect is concerned.

The pressing block 3 is arranged at the upstream position of the pushing block 6, under the driving of the power mechanism, the pressing block 3 firstly compacts sugar in the die cavity, and then the pushing block 6 pushes the sugar in the die cavity out of the die cavity. In the whole working process, the mould 7 carries the sugar to move towards the pressing block 3 and the pushing block 6, and the pressing block 3 and the pushing block 6 can return to the original positions under the driving of the motor 21 after the sugar or the sugar is completely operated. The operation of the motor 21 may be controlled by providing a position sensor to sense the deflection angle of the rotating shaft 1 or the positions of the pressing block 3 and the pushing block 6, so that the pressing block 3 and the pushing block 6 can be rapidly returned to the initial positions.

The pressure piece 3 and the push piece 6 are arranged on one side of the rotating shaft 1, which is called a mounting end side 12, and the other end side of the rotating shaft 1 is a coupling end side 11, and the coupling end side 11 is rotatably coupled in the driving rod 9, so that the mounting end side 12 is in a cantilever shape. In sugar-making machines, housings are usually provided for covering the respective mechanisms, the drive rod 9 being rotatably arranged on the walls of the housings, and support bearings being provided between the walls and the drive rod 9, so that the drive rod 9 is rotatably flexible.

The power mechanism is preferably a cylinder 2, and may be a cam mechanism, a screw mechanism, or a rack and pinion mechanism. It is shown that each pressing block 3 is connected and fixed at the outer end part of a piston rod in one air cylinder 2, the air cylinders 2 are communicated with the same air source, the pressure of compressed air of the air source determines the force applied by the pressing block 3 to sugar, so that the pressure of the pressing block 3 on the sugar in each die cavity is equal, and the compactness of the interior of the sugar is consistent.

The circumferential surface of the installation end side 12 of the rotating shaft 1 is provided with a connecting port which is arranged along the axial direction of the rotating shaft 1. A connecting plate 4 is fixed in the connecting port, and the cylinder 2 connected with the pressing block 3 is connected with the connecting plate 4. The connecting plate 4 is L-shaped, one side part of the connecting plate 4 is fixedly attached to the bottom surface of the connecting port, the back surface of the cylinder 2 connected with the pressing block 3 is fixedly attached to the other side part of the connecting plate 4, and the bottom surfaces of the cylinders 2 are fixedly attached to one side part of the connecting plate 4.

The figure also shows that the push block 6 is also connected with the cylinder 2 and is powered by the cylinder 2 to work. All the push blocks 6 are connected with piston rods in two cylinders 2 through a connecting rod 5, the push blocks 6 are connected and fixed on the connecting rod 5, and the two cylinders 2 are inserted and fixed in the mounting end side 12 of the rotating shaft 1 along the radial direction of the rotating shaft 1. When the sugar block is demoulded, the two cylinders 2 act simultaneously, all the push blocks 6 are inserted from the inner opening parts of the cavities in the row on the mould 7 simultaneously through the connecting rod 5, and the sugar block in the mould cavity is pushed out to the outer opening part of the mould cavity, so that the demoulding of the sugar block is realized.

Claims (7)

1. A sugar block forming power device of a sugar making machine comprises a rotating shaft, and a driving mechanism is used for driving the rotating shaft to do circumferential reciprocating motion and is characterized in that a row of pressing blocks and a row of pushing blocks are respectively arranged on the rotating shaft along the axial direction of the rotating shaft, and the pressing blocks and the pushing blocks are in one-to-one correspondence with each other in the axial direction of the rotating shaft; the pressing block and the pushing block are staggered in the circumferential direction of the rotating shaft; the pressing block and the pushing block are respectively connected with respective power mechanisms, the power mechanisms are arranged on the rotating shaft, and under the driving of the power mechanisms, the pressing block acts on the target sugar material before the pushing block.

2. The power plant for forming sugar mass of sugar-making machine according to claim 1, wherein the pressing block and the pushing block are disposed on the mounting end side of the rotating shaft, the other end side of the rotating shaft is a coupling end side, and the coupling end side is coupled with the supporting structure so that the mounting end side is in a cantilever shape.

3. The power unit of claim 2, wherein the power mechanism is a cylinder, and each press block is coupled to and fixed to an outer end of a piston rod of a cylinder.

4. The power unit for forming sugar mass of sugar making machine according to claim 3, wherein the peripheral surface of the mounting end of the rotating shaft is provided with a coupling port, the coupling port is arranged along the axial direction of the rotating shaft, a coupling plate is fixed in the coupling port, and the cylinder coupled to the pressing block is coupled to the coupling plate.

5. The power unit as claimed in claim 4, wherein the coupling plate is L-shaped, and one side of the coupling plate is fixed to the bottom of the coupling opening, and the back of the cylinder coupled to the press block is fixed to the other side of the coupling plate.

6. The power unit of claim 5, wherein the cylinders coupled to the press block are inserted into the coupling ports, and bottom surfaces of the cylinders are engaged with a side portion of the coupling plate.

7. The power device for forming sugar blocks of a sugar making machine according to claim 1, wherein the power device is an air cylinder, all the push blocks are connected with a piston rod in the air cylinder through a connecting rod, and the push blocks are fixedly connected with the connecting rod.

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