CN110477175B - Candy forming machine and application thereof - Google Patents

Abstract

The invention discloses a candy forming machine, which is used for preparing candy and solves the problem that the existing candy forming machine is difficult to clean and affects the appearance of the candy, and the candy forming machine structurally comprises a cylindrical forming die, wherein a plurality of die cavities are arranged on the wall body of the forming die, and the outer opening parts of the die cavities face to a feeding position and a discharging position; the candy forming mechanism is arranged in the forming box body; the driving mechanism is in transmission connection with the forming die and is used for driving the forming die to circumferentially rotate; the driving mechanism comprises a driving rod, one end of the driving rod is fixedly connected with one end of the forming die, and the driving rod and the forming die are coaxially arranged. The support body supports the driving rod, and the driving rod is rotationally and detachably connected to the support body; the wall body of the forming box body is provided with a through hole for the forming die to go in and out.

Description

Candy forming machine and application thereof

Technical Field

The invention relates to a machine for preparing formed sugar blocks, and belongs to the field of sugar manufacturing equipment.

Background

Before preparing the candy or chocolate pieces, the hot syrup is mixed with the auxiliary materials such as nuts, and the mixture is stirred to form thick and loose candy materials, and then rolled by a roller to form lamellar materials. In the prior art, it is most often the case that the sheet-like material is divided into a plurality of strips by means of a hob and then the strips are transported by means of a conveyor belt to the position of a transverse cutter in order to cut the strips transversely into blocks.

The Chinese patent document (publication No. CN 105941783A) discloses a sugar forming machine with convenient sugar processing and high production efficiency, which structurally comprises a pressing device, a sucking device and a feeding device which are arranged on a frame, wherein the pressing device comprises two mutually parallel rollers arranged on the frame, a plurality of forming openings are arranged on the peripheral surface of a main roller, and the two rollers rotate in opposite directions; the material sucking device comprises: the suction head is a hollow pipe fitting with a plurality of suction openings on one surface, the suction head is connected with the filter tank through the connecting pipeline, and the filter tank is connected with the air pump through the connecting pipeline; the feeding device comprises: the device comprises a conveying belt, a traction roller, a driven roller and a tensioning roller, wherein the conveying belt is arranged between the roller and a suction head, two ends of the traction roller and the tensioning roller are arranged in mounting holes on two mutually parallel panels on a frame, the tensioning roller is in contact with the conveying belt, and two ends of the tensioning roller are provided with adjusting devices.

On the candy forming machine, the main roller is rotationally arranged on the frame, and the driving of the main roller is realized by a driving motor arranged on the side surface of the frame in a mode of meshing a commutator and a gear. After the main roller is used for briquetting and forming sugar materials, a certain amount of sugar scraps are inevitably adhered to the inside of a forming opening, the sugar scraps cannot be easily removed, the appearance of a sugar block can be influenced by the existence of the sugar scraps, and the surface of the sugar block is lost. Therefore, cleaning of the inside of the forming port on the main drum is often required. In the existing sugar-making machine, the main roller is not easy to detach from the frame, and the main roller is very inconvenient to clean. To accommodate this, it is often necessary to take an open structure for the main drum, which causes foreign substances from the outside to contaminate the sugar.

Disclosure of Invention

One technical problem to be solved by the invention is as follows: the sugar forming mechanism on the sugar forming machine is convenient to clean, and the appearance quality of formed sugar can be effectively ensured.

Another technical problem to be solved by the present invention is: an application of a candy forming machine in candy preparation is provided.

In order to solve the technical problems, the invention adopts the following technical scheme: a candy molding machine comprising:

the sugar block forming mechanism is provided with a feeding position for feeding sugar materials and a discharging position for discharging sugar blocks, and comprises a cylindrical forming die, wherein a wall body of the forming die is provided with a plurality of die cavities, and the outer opening parts of the die cavities face to the feeding position and the discharging position;

the frame is provided with a forming box body, and the sugar block forming mechanism is arranged in the forming box body;

the driving mechanism is in transmission connection with the forming die and is used for driving the forming die to circumferentially rotate;

the driving mechanism comprises a driving rod, one end of the driving rod is fixedly connected with one end of the forming die, and the driving rod and the forming die are coaxially arranged. The support body supports the driving rod, and the driving rod is rotationally and detachably connected to the support body; the wall body of the forming box body is provided with a through hole for the forming die to go in and out, so that the forming die is pulled out from the through hole to the outer side of the forming box body when the forming die is cleaned.

The feeding position is usually positioned on the upper side of the candy block forming mechanism, and candy enters the die cavity of the forming die from the feeding position to form candy blocks. The discharging position is positioned at the lower side of the candy forming mechanism, and the formed candy is demoulded from the discharging position. Demolding of the candy pieces can be achieved by means of suction or by means of the provision of push blocks, but this requires that the mold cavity penetrate the walls of the forming mold.

The drive rod assembled in place provides axial and radial support for the forming die in addition to power to the rotation of the forming die, which is cantilevered at the end of the drive rod. When the forming die needs to be cleaned, the driving rod and the supporting body are connected, the driving rod and the forming die are axially displaced integrally, so that the forming die is separated from the forming box body, the forming die can be cleaned at the outer side of the forming box body, and the sealing performance of the forming box body can be relatively good.

Further, the driving box body and the forming box body are arranged in parallel, the driving rod is inserted into the driving box body, the wall body of the driving box body is detachably connected with the connecting ring, the wall body of the driving box body is used as the supporting structure, the driving rod is inserted into the connecting ring, and a bearing is arranged between the connecting ring and the driving rod. The driving box body is arranged for the driving mechanism to be arranged, and the structure is compact. Through being provided with the coupling ring on the wall of drive box detachably, make things convenient for the dismantlement between actuating lever and the bearing structure, can provide good support for the actuating lever for the rotation stability of actuating lever is good.

Further, the driving box body is arranged on the supporting box body, so that a space is formed between the outer side of the supporting box body and the lower side of the forming box body; the refrigerator is communicated with the inside of the forming box body through an air outlet channel, and the air outlet channel is used for driving the box body. The supporting box body is arranged to form the space, so that the conveying device is convenient to arrange, and the overall structure is compact. The refrigerator is generally arranged in the supporting box body, cold air is fed into the forming box body through the refrigerator, so that solidification and forming of sugar materials can be accelerated, the rotating speed of a forming die can be improved on the premise of ensuring the structural compactness of the sugar block forming machine, and the working efficiency of the sugar making machine can be further improved.

Further, an exhaust fan is arranged in the supporting box body and is communicated with the inside of the forming box body through a return air channel, and the return air channel is used for driving the box body. The exhaust fan is arranged to effectively control the flow direction of the air flow, so that the smooth proceeding of heat exchange can be ensured.

Further, the die cavity penetrates through the wall body of the forming die, the connecting shaft stretches into the forming die, the pushing blocks are connected with the connecting shaft through the air cylinders and located at the positions of the forming die and used for pushing out formed sugar blocks from the inner opening of the die cavity to the outer side of the die cavity under the driving of the air cylinders at the discharging positions. The formed sugar blocks are pushed out of the die cavity through the pushing blocks, so that the demolding rate of the sugar blocks can be effectively ensured, and the working stability of the sugar making machine is ensured.

Further, a plurality of pressing blocks are further arranged on the connecting shaft and connected with the connecting shaft through air cylinders, the pressing blocks are located at the positions of the forming dies and used for being inserted into the die cavities from the inner opening parts of the die cavities at the upstream of the discharging positions under the driving of the air cylinders so as to compact sugar materials in the die cavities, and supporting walls covering the outer opening parts of the die cavities are arranged on the outer sides of the forming dies so that the pressing blocks can provide support for compacting sugar materials in the die cavities. The supporting wall can also be an outer support which is described below and is used for supporting the sugar materials in the die cavity, so that the pressing block compacts the sugar materials in the die cavity. The sugar materials are compacted by arranging the pressing blocks, so that the formed sugar blocks are good in internal compactness, and the taste of the sugar blocks is guaranteed. The pressing block can be connected to one air cylinder, all air cylinders use the same air source as a power source, the acting forces of all pressing blocks on sugar materials in the corresponding die cavities are consistent, the consistency of the interior of the prepared sugar blocks can be ensured, and the taste consistency of the sugar blocks is good.

Further, the mold cavities are arranged in a row along the axial direction of the forming mold, the pressing blocks and the pushing blocks are respectively arranged in a row along the axial direction of the connecting shaft, the pushing blocks and the pressing blocks are staggered along the circumferential direction of the connecting shaft, and the number of the connecting blocks, the pushing blocks and one row of mold cavities corresponds to the position along the axial direction of the connecting shaft. The sugar-making machine has the advantages that the arrangement of the corresponding structure is convenient, the work of the functional components is convenient to control, and the work requirement of the sugar-making machine can be well met.

Further, the driving rod is hollow, the connecting shaft is inserted into the driving rod in a rotating way, the outer end part of the connecting shaft extends out of the driving rod, the swinging mechanism is in transmission connection with the outer end part of the connecting shaft, and the connecting shaft is driven by the swinging mechanism to rotate in a mode of being suitable for the action of the forming die. The connecting shaft can be adapted to the rotation of the driving rod, so that in the working process, the forming die can not stop rotating due to the action of the adaptive pushing block or the pressing block, and the forming die can always act, thereby effectively ensuring the working efficiency of the candy forming machine.

Further, the swing mechanism comprises a swing motor, the swing motor is in transmission connection with a commutator, a swing wheel is eccentrically arranged on the commutator, a swing rod is fixed at the outer end of a connecting shaft, one end of a pull rod is sleeved at the outer end of the swing wheel in a clearance manner, and the other end of the pull rod is movably connected with the outer end of the swing rod. A tachometer for measuring the rotational speed of the drive rod may be provided, and the operation of the swing motor may be controlled by the tachometer to control the rotational speed of the coupling shaft. The swing mechanism has simple structure and high working reliability.

Further, the candy forming mechanism also comprises an outer support and an inner support, wherein the outer support is positioned at the outer side of the forming die, and the inner support is inserted in the forming die in a clearance way; at the feeding position, the inner support is provided with a covering part covering the inner opening part of the die cavity, and the outer support is provided with a hollow hole for feeding; at the discharging position, the outer support is provided with a hollow port for discharging, and the inner support is provided with a through port for discharging; the outer support is provided with a covering part covering the outer opening part of the die cavity between the discharging position and the feeding position, and the inner support is provided with an empty port communicated with the die cavity. The inner support and the outer support are arranged to adapt to the situation that the die cavity penetrates through the wall body of the forming die, so that the forming die is beneficial to the preparation of sugar blocks. The candy forming mechanism is of the structure, and is also convenient for arranging the pressing block and the pushing block in the forming die, so that the candy forming mechanism can be used for producing high-quality candy.

Therefore, the invention has the beneficial effects that: through setting up sugar forming mechanism in the shaping box, can establish a comparatively confined environment in sugar forming mechanism's outside to be convenient for carry out the air conditioning for sugar forming mechanism and carry out, can accelerate the solidification rate of sugar, sugar forming mechanism's compact structure nature is good, and sugar forming machine's work efficiency is high. The driving rod not only provides power for the rotation of the forming die, but also supports the forming die axially and radially, which facilitates the connection and fixation of the forming die. Because the driving rod is detachably connected with the supporting body, when the forming die is required to be cleaned, the driving rod can be detached from the supporting body, and the forming die is pulled out of the forming box body, so that the forming die can be cleaned outside, the cleaning effect of the forming die is ensured, and further, the preparation of sugar blocks with neat appearance is ensured. The forming die can be drawn out from the forming box body, so that the forming box body can be compactly arranged, cooling gas can be received in the forming box body, and the solidifying speed of sugar blocks can be increased.

Drawings

Fig. 1 is a perspective view of the candy molding machine, wherein a part of the case cover is opened.

Fig. 2 is an assembly schematic diagram of the internal structure of the candy molding machine.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Fig. 4 is a transverse cross-sectional view at the location of the forming box.

Fig. 5 is a structural view of the coupling shaft.

Fig. 6 is a transverse cross-sectional view of fig. 4.

Fig. 7 is a dispersion structure diagram of the candy molding mechanism.

Fig. 8 is an assembly schematic of a candy bar forming mechanism.

In the figure, 1, a driving box body; 2. supporting the box body; 3. a refrigerating machine; 31. an air inlet pipe; 4. an exhaust fan; 41. an air outlet pipe; 5. a bracket; 6. forming a box body; 61. a baffle; 62. a cooling chamber; 7. a hopper; 71. a ratchet roller; 8. a candy forming mechanism; 81. an outer support; 82. an air port; 83. a mold cavity; 84. a forming die; 85. an inner support; 86. a covering portion; 9. a conveying device; 10. a coupling shaft; 100. a cylinder; 101. a pushing block; 102. briquetting; 103. a connecting plate; 104. a fixing plate; 11. a transmission belt; 12. a driving rod; 120. a swing motor; 121. a commutator; 122. a swinging wheel; 123. a pull rod; 124. swing rod; 125. a bearing; 126. a coupling ring; 127. an output gear; 128. an input gear; 129. a velometer; 13. and driving the motor.

Detailed Description

In combination with the drawings, the candy forming machine is used for receiving sticky candy, forming and solidifying the candy into candy, and then preparing finished candy and conveying the finished candy to the outside by a belt type conveying device 9.

Referring to fig. 1, the sugar-block forming machine is supported by a frame, and the structure of the frame comprises three boxes, namely a forming box 6, a driving box 1 and a supporting box 2, wherein the driving box 1 is arranged on the supporting box 2, and the forming box 6 and the driving box 1 are horizontally arranged in parallel. This arrangement results in a space being formed at the frame location, which space is located on the underside of the forming box 6 and on the outside of the supporting box 2, for the provision of the conveying means 9, from which the candy pieces fall off the forming box 6 onto the conveying means 9 and are conveyed by the conveying means 9 to the outside of the candy piece forming machine. For stable support, the supporting box body 2 is provided with brackets 5, the brackets 5 extend into the space, and the conveying device 9 is arranged between the two brackets 5.

Referring to fig. 4, the candy forming mechanism 8 is disposed in the forming box 6, and a feeding position is located at an upper side of the candy forming mechanism 8, and a discharging position is located at a lower side of the candy forming mechanism 8. A hopper 7 is arranged on the forming box 6 at the feeding position, a pair of ratchet rollers 71 are arranged in the hopper 7, and the two ratchet rollers 71 rotate to squeeze sugar into a sugar forming mechanism 8.

The main structure of the candy forming mechanism 8 is a cylindrical forming die 84, a plurality of through die cavities 83 are arranged on the wall body of the forming die 84, the die cavities 83 are cuboid, and the outer opening parts of the die cavities 83 face to the feeding position and the discharging position. The forming die 84 is drivingly coupled to a drive mechanism, and under the belt of the drive mechanism, the forming die 84 is rotated circumferentially for delivering the sugar material in the die cavity 83 from the feed position to the discharge position. The solidified candy may be released by a suction device, or may be pushed to release by providing a push block 101 as described below.

In fig. 2, the driving mechanism includes a driving rod 12, a circular plate body is connected to one end of the forming mold 84, one end of the driving rod 12 is fixed at the center of the circular plate body, and the driving rod 12 and the forming mold 84 are coaxially arranged, and they are all arranged in the horizontal direction. A drive motor 13 is fixed on the bottom wall of the drive box 1, and the drive motor 13 is in transmission connection with a drive rod 12 through a transmission belt 11.

The positional stability of the drive rod 12 itself is provided by the support body, while the radial and axial stability of the forming die 84 is provided by the drive rod 12. The drive rod 12 is supported by the opposite side walls of the drive housing 1 as support bodies. The method specifically comprises the following steps: annular connecting rings 126 are respectively arranged at two ends of the driving rod 12, the driving rod 12 is inserted into the connecting rings 126, and a bearing 125 is arranged between the driving rod 12 and the connecting rings 126. The cross section of the coupling ring 126 is L-shaped, the coupling ring 126 is adhered and fixed on the side wall of the driving box body 1, and the fixation between the coupling ring 126 and the side wall is realized through a coupling bolt. Of course, the coupling ring 126 may also be removed from the sidewall by operating the coupling bolts. A common wall is arranged between the driving box 1 and the forming box 6, a through hole for the forming die 84 to enter and exit is arranged on the common wall, and a connecting ring 126 is arranged at the position of the through hole. After the coupling ring 126 is removed, the forming die 84 can be withdrawn from the through hole to the outside of the forming box 6 by driving the rod 12.

The driving box body 1 and the forming box body 6 are arranged in parallel, the driving rod 12 is inserted into the driving box body 1, a connecting ring 126 is detachably connected to the wall body of the driving box body 1, the wall body of the driving box body 1 is used as the supporting structure, the driving rod 12 is inserted into the connecting ring 126, and a bearing 125 is arranged between the connecting ring 126 and the driving rod 12.

Referring to fig. 4, a cooling cavity 62 is formed between the molding box 6 and the candy molding mechanism 8, a refrigerator 3 is arranged in the supporting box 2, the refrigerator 3 is communicated with the inside of the molding box 6 through an air outlet channel, and the air outlet channel passes through the driving box 1. An exhaust fan 4 is also arranged in the supporting box body 2, the exhaust fan 4 is communicated with the inside of the forming box body 6 through a return air duct, and the return air duct is used for driving the box body 1. By arranging the refrigerator 3 and the exhaust fan 4 and arranging the air outlet duct and the air return duct, a circulating air duct is formed in the sugar forming machine so as to drive air to travel according to a set path. The bottom surface of the supporting box body 2 is vertically fixed with a heat insulation board, and the refrigerator 3 and the exhaust fan 4 are respectively attached and fixed on two opposite sides of the heat insulation board.

Referring to fig. 2, two air inlet pipes 31 and two air outlet pipes 41 are respectively arranged on the common wall bodies of the forming box body 6 and the driving box body 1, the air outlet pipes 41 are used as a part of an air return channel, the air inlet pipes 31 are used as a part of an air outlet channel, and the air inlet pipes 31 are arranged on the upper sides of the air outlet pipes 41. An L-shaped baffle 61 is provided in the molding box 6, the baffle 61 being provided along the axial direction of the molding die 84, the baffle 61 being located between the air inlet duct 31 and the air outlet duct 41. The baffle 61 is fixed to the inner wall surface of the molding box 6, and an overflow gap is provided between the baffle 61 and the candy molding mechanism 8 so that air flows in the cooling chamber 62.

Referring to fig. 2, the driving rod 12 is hollow, a coupling shaft 10 is provided on the inner circumferential shaft of the driving rod 12, a bearing 125 is provided between the coupling shaft 10 and the driving rod 12, and the coupling shaft 10 is rotatable circumferentially in the driving rod 12. The coupling shaft 10 extends from the inside of the driving rod 12 into the forming mold 84, and a plurality of push blocks 101 are coupled with the coupling shaft 10 through air cylinders 100. The pushing blocks 101 are located at the position of the forming mold 84, and under the driving of the air cylinders 100, the pushing blocks 101 push the formed sugar blocks out of the mold cavity 83 from the inner opening of the mold cavity 83 at the discharging position. These push blocks 101 are connected and fixed on a connecting plate 103, two separated air cylinders 100 are arranged on the connecting shaft 10, and the connecting plate 103 is connected and fixed on the piston rods in the two air cylinders 100. When the two cylinders 100 are operated together, all the pushing blocks 101 are pushed together against the corresponding sugar blocks.

Referring to fig. 5 and 6, a plurality of press blocks 102 are further arranged on the connecting shaft 10, the press blocks 102 are connected with the connecting shaft 10 through other cylinders 100, the press blocks 102 are positioned at the forming mold 84 and are used for being inserted into the mold cavity 83 from the inner opening of the mold cavity 83 at the upstream of the discharging position under the driving of the cylinders 100, and the sugar materials in the mold cavity 83 are compacted. A support wall having an arcuate surface is provided on the outside of the forming die 84 to cover the outer mouth of the die cavity 83 so that the press block 102 provides support for the compaction of the sugar material in the die cavity 83. A block 102 is coupled to a piston rod in a cylinder 100, and the cylinders 100 are in communication with the same air source, such that each block 102 presses the candy material in the mold cavity 83 with the same force during operation, resulting in consistent internal compaction of the formed candy pieces. The coupling shaft 10 is provided with a coupling port, an L-shaped fixing plate 104 is provided in the coupling port, the fixing plate 104 is respectively bonded and fixed to the bottom surface and the side surface of the coupling port, and the cylinders 100 are bonded and fixed to the fixing plate 104.

The mold cavities 83 on the forming mold 84 are arranged in a row along the axial direction of the forming mold 84, the press blocks 102 and the push blocks 101 are respectively arranged in a row along the axial direction of the coupling shaft 10, the push blocks 101 and the press blocks 102 are staggered along the circumferential direction of the coupling shaft 10, and the number of the press blocks 102, the push blocks 101 and the mold cavities 83 in a row corresponds to the positions along the axial direction of the coupling shaft 10. In operation, all of the compacts 102 compact sugar in a row of mold cavities 83 and all of the pusher blocks 101 push sugar in a row of mold cavities 83.

The coupling shaft 10 may be fixed, so that the forming mold 84 is required to rotate in a clearance manner to meet the working requirement, that is, after the forming mold 84 rotates by an angle corresponding to the cavity 83, the forming mold 84 stops rotating, and after the pressing block 102 and the pushing block 101 work, the forming mold 84 rotates in the next step. The inertia of the working link of the sugar block forming machine is poor, the working control of the sugar block forming machine is complex, and the working efficiency is low. In order to ensure the working efficiency of the candy forming machine, the coupling shaft 10 needs to rotate in response to the working of the forming mold 84, so that the pressing block 102 and the pushing block 101 can synchronously rotate with the forming mold 84 when working, the action time of the pressing block 102 and the pushing block 101 on candy and candy can be ensured, and the action effect is ensured. The outer end of the connecting shaft 10 extends to the outer side of the driving rod 12, the swinging mechanism is in transmission connection with the outer end of the connecting shaft 10, and the connecting shaft 10 is driven by the swinging mechanism to rotate in a manner of adapting to the action of the forming die 84.

As shown in fig. 2 and 3, the swing mechanism includes a swing motor 120, and the swing motor 120 is fixed to a wall of the drive casing 1. The swing motor 120 is in driving connection with a commutator 121, a power output shaft on the commutator 121 extends to the outer side of the driving box 1, and a swing wheel 122 is eccentrically arranged on the power output shaft. The outer end of the connecting shaft 10 extends to the outer side of the driving box body 1, a swing rod 124 is vertically fixed on the outer end of the connecting shaft 10, one end of a pull rod 123 is sleeved on the outer end of the swing wheel 122 in a clearance mode, and the other end of the pull rod 123 is movably connected with the outer end of the swing rod 124. The speed measuring device 129 is fixed on the inner wall surface of the driving box body 1, the input gear 128 is arranged on the speed measuring device 129, the output gear 127 is fixedly sleeved on the periphery of the driving rod 12, the output gear 127 is meshed with the input gear 128, and the speed measuring device 129 can sense the rotation speed of the forming die 84 in real time. The velometer 129 is used to control the operation of the swing motor 120 and thus the rotational speed of the coupling shaft 10 so that both the coupling shaft 10 and the forming die 84 rotate at a constant speed. Moreover, a pushing block 101 or a pressing block 102 with a small size difference from the die cavity 83 can be selected, and the action effect of the pushing block 101 and the pressing block 102 on sugar materials or sugar blocks can be ensured.

Referring to fig. 7 and 8, the sugar forming mechanism 8 includes an outer support 81 and an inner support 85 in addition to the forming mold 84 described above, and the outer support 81 and the inner support 85 are each cylindrical. The outer support 81 is sleeved on the outer side of the forming die 84, two ends of the outer support 81 are respectively fixed on two opposite side walls of the forming box 6, and the outer support 81 can be connected and fixed in a single end mode. The inner support 85 is inserted into the forming die 84 in a clearance manner, and in order to adapt to the entering and exiting of the forming die 84 into the forming box 6, one end of the inner support 85, which is far away from the driving rod 12, is fixed on the corresponding side wall of the forming box 6, and the inner support 85 is connected in a single end in the forming box 6.

At the feed location, the inner support 85 has a cover portion 86 that covers the inner mouth of the mold cavity 83 so that the mold can hold the candy during the feed. While the outer support 81 has a cavity 82 for feeding in so that the sugar material passes through the cavity 82 into the mould cavity 83. At the discharge position, the outer support 81 has a discharge opening 82 for discharging so that the candy pieces fall to the lower side of the forming box 6. At the discharge position, the inner support 85 has a through hole for discharging so that the pushing block 101 can be inserted into the cavity 83 through the through hole to push and release the candy block. Between the discharge position and the feed position, the outer support 81 has a cover portion 86 covering the outer opening of the cavity 83, and the inner support 85 has a hollow opening communicating with the cavity 83, the cover portion 86 constituting the aforementioned support wall.

Claims (2)

1. A candy molding machine comprising:

the sugar block forming mechanism is provided with a feeding position for feeding sugar materials and a discharging position for discharging sugar blocks, and comprises a cylindrical forming die, wherein a wall body of the forming die is provided with a plurality of die cavities, and the outer opening parts of the die cavities face to the feeding position and the discharging position;

the frame is provided with a forming box body, and the sugar block forming mechanism is arranged in the forming box body;

the driving mechanism is in transmission connection with the forming die and is used for driving the forming die to circumferentially rotate;

the device is characterized in that the driving mechanism comprises a driving rod, one end of the driving rod is fixedly connected with one end of the forming die, the driving rod is coaxially arranged with the forming die, the driving rod provides axial and radial support for the forming die, and the forming die is connected with the end part of the driving rod in a cantilever shape;

the support body supports the driving rod, and the driving rod is rotationally and detachably connected to the support body; the wall body of the forming box body is provided with a through hole for the forming die to go in and out;

the driving box body is arranged in parallel with the forming box body, the driving rod is inserted in the driving box body, the wall body of the driving box body is detachably connected with a connecting ring, the wall body of the driving box body is used as the supporting body, the driving rod is inserted in the connecting ring, a bearing is arranged between the connecting ring and the driving rod, and after the connecting ring is detached, the forming die is pulled out of the forming box body from the through hole through the driving rod;

the refrigerator is communicated with the inside of the forming box body through an air outlet channel; the exhaust fan is communicated with the inside of the forming box body through the air return channel, and the air outlet channel and the air return channel are arranged through the arrangement of the refrigerator and the exhaust fan, so that a circulating air channel is formed in the sugar forming machine to drive air to travel according to a set path;

the driving rod is hollow, the connecting shaft is rotationally inserted in the driving rod, the outer end part of the connecting shaft extends out of the driving rod, the swinging mechanism is in transmission connection with the outer end part of the connecting shaft, and the connecting shaft is driven by the swinging mechanism to rotate in a manner of adapting to the action of the forming die;

the swinging mechanism comprises a swinging motor, the swinging motor is in transmission connection with a commutator, a swinging wheel is eccentrically arranged on the commutator, a swinging rod is fixed at the outer end part of a connecting shaft, one end of a pull rod is sleeved at the outer end of the swinging wheel in a clearance way, and the other end of the pull rod is movably connected with the outer end part of the swinging rod;

the die cavity penetrates through the wall body of the forming die, the connecting shaft stretches into the forming die, the plurality of pushing blocks are connected with the connecting shaft through the air cylinders, and the pushing blocks are positioned at the positions of the forming die and used for pushing out formed sugar blocks from the inner opening of the die cavity to the outer side of the die cavity under the driving of the air cylinders at the discharging positions;

the connecting shaft is also provided with a plurality of pressing blocks, the pressing blocks are connected with the connecting shaft through air cylinders, the pressing blocks are positioned at the positions of the forming die and used for being inserted into the die cavity from the inner opening of the die cavity at the upstream of the discharging position under the drive of the air cylinders so as to compact sugar materials in the die cavity, and the outer side of the forming die is provided with a supporting wall covering the outer opening of the die cavity so as to provide support for compacting sugar materials in the die cavity;

the die cavities are arranged in rows along the axial direction of the forming die, the pressing blocks and the pushing blocks are respectively arranged in a row along the axial direction of the connecting shaft, the pushing blocks and the pressing blocks are staggered along the circumferential direction of the connecting shaft, the number of the pressing blocks, the pushing blocks and the row of the die cavities is the same, and the positions of the pressing blocks, the pushing blocks and the row of the die cavities along the axial direction of the connecting shaft are corresponding;

the sugar block forming mechanism also comprises an outer support and an inner support, wherein the outer support is positioned at the outer side of the forming die, and the inner support is inserted in the forming die in a clearance manner; at the feeding position, the inner support is provided with a covering part covering the inner opening part of the die cavity, and the outer support is provided with a hollow hole for feeding; at the discharging position, the outer support is provided with a hollow port for discharging, and the inner support is provided with a through port for discharging; the outer support is provided with a covering part covering the outer opening part of the die cavity between the discharging position and the feeding position, and the inner support is provided with an empty port communicated with the die cavity.

2. Use of the candy shaper of claim 1 for preparing candy.