CN213961634U

CN213961634U - Candy forming machine

Info

Publication number: CN213961634U
Application number: CN202022832869.6U
Authority: CN
Inventors: 陈龙; 陈灵宝
Original assignee: Taizhou Baogang Machinery Co ltd
Current assignee: Taizhou Baogang Machinery Co ltd
Priority date: 2020-12-01
Filing date: 2020-12-01
Publication date: 2021-08-17
Anticipated expiration: 2030-12-01

Abstract

The utility model discloses a sugar piece make-up machine has solved the inside sugar material processing structure of current sugar make-up machine and has washd inconveniently, washs the big problem of operation intensity, the technical scheme who takes: a sugar cube forming machine comprises a shell, wherein a plurality of rollers are rotatably arranged in the shell, and a material guide device is arranged between the rollers to form a material guide channel. At least part of the roller is of a split structure, the roller of the split structure comprises a supporting structure and a working barrel, the working barrel is detachably sleeved on the periphery of the supporting structure, the supporting structure realizes circumferential transmission of the working barrel through a connecting structure, a rotating shaft is connected with one end of the supporting structure, and the rotating shaft provides radial support for the supporting structure. The shell is provided with an opening, the position of the opening corresponds to that of the working barrel, the working barrel can enter and exit the shell, and a cover plate is detachably covered on the shell at the position of the opening. The sugar block forming machine is used for preparing the formed sugar blocks, the roller and the material guide device in the shell are convenient to clean, and the labor intensity is low.

Description

Candy forming machine

Technical Field

The utility model relates to a candy forming machine for preparing and forming candy.

Background

The sugar block forming machine is used for preparing sugar materials into blocks, in order to realize the forming and solidification of viscous sugar materials, a forming roller is required to be arranged on the sugar block forming machine, and a plurality of concave forming openings are formed on the peripheral surface of the forming roller and used for containing the sugar materials and solidifying and forming the sugar blocks; in order to realize the advance of the sugar material in the sugar cube forming machine, a material pressing mechanism is also required to be arranged in the sugar cube forming machine to promote the advance of the sugar material. The pressing mechanism is usually of a roller structure, and the outer peripheral surface of the roller structure is provided with a concave-convex structure to press the sugar material.

Chinese patent document (publication number: CN 105941783A) discloses a sugar cube 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 parallel rollers arranged on the frame, a plurality of forming openings are arranged on the outer peripheral surface of a main roller, and the two rollers rotate in opposite directions; inhale the material device and include: the suction head is arranged at the lower position of the roller, the suction head is a hollow pipe fitting with a plurality of suction ports 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 conveying belt is arranged between the roller and the suction head, two ends of the traction roller and the tensioning roller are arranged in mounting holes in two parallel panels on the frame, the tensioning roller is in contact with the conveying belt, and adjusting devices are arranged at two ends of the tensioning roller.

In the candy forming machine, a forming opening is arranged on the peripheral surface of a forming roller and used for containing candy. The sugar cube forming machine can prepare and form various sugar materials, and when different sugar materials are switched, the outer peripheral surface of the roller needs to be cleaned. In addition, after the sugar cube forming machine works for a period of time, the working surface of the roller also needs to be cleaned, so that sugar materials are prevented from being stored in a certain position for a long time and being deteriorated, and the sugar cube forming machine is prevented from being polluted. When the interior of the existing sugar block forming machine with the structure is cleaned, a plurality of parts needing to be disassembled are required, the whole roller is heavy, the cleaning is very inconvenient, and the cleaning effect on the interior of the sugar block forming machine can not 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 candy make-up machine, it is convenient to the inside washing of this candy make-up machine, and the cleaning performance is good, and cleaning operation low in labor strength.

For solving the technical problem, the utility model discloses the technical scheme who takes: a candy mass-forming machine comprising:

the sugar-mixing machine comprises a shell, a sugar-mixing device and a control device, wherein a cavity is formed in the shell, a feed inlet for sugar to enter the cavity is formed in the upper side of the shell, and a discharge outlet for discharging sugar blocks is formed in the lower side of the shell;

the plurality of rollers are rotatably arranged in the shell and used for pushing the sugar materials to move forwards in the shell and forming the sugar blocks, and at least part of the peripheral surface of each roller is provided with a plurality of concave-convex sugar material acting structures;

the material guide device is arranged between the rollers, and a material guide channel for the sugar to move forwards is formed in the material guide device;

the power mechanism is in transmission connection with the corresponding roller so as to realize the forward movement and the forming of the sugar material in the shell;

the rotary drum is characterized in that at least part of the rotary drum is of a split structure, the rotary drum of the split structure comprises a supporting structure and a working drum, the working drum is detachably sleeved on the periphery of the supporting structure, the supporting structure realizes circumferential transmission on the working drum through a connecting structure, a rotating shaft is connected with one end of the supporting structure, and the rotating shaft provides radial support for the supporting structure;

the shell is provided with an opening, the position of the opening corresponds to that of the working barrel so that the working barrel can enter and exit the shell, and a cover plate is detachably covered on the shell at the position of the opening.

The roller can be divided into a material pressing roller for pushing and moving the sugar material forward and a forming roller for forming the sugar material into sugar blocks according to functions.

The sugar material acting structure can be a forming opening which is arranged on the outer peripheral surface of the working barrel and used for containing the sugar material, and can also be a concave-convex working structure which is arranged on the outer peripheral surface of the working barrel and used for pushing the sugar material to move forward. The opening should be relatively large in size to allow the mandrel to pass in and out of the housing. When the interior of the candy-bar forming machine, particularly the roller assembly, needs to be cleaned, the working cylinder can be detached from the supporting structure and taken out from the opening on the candy-bar forming machine shell to the outside for cleaning. After the working barrel is cleaned, the working barrel needs to be mounted on the supporting structure, and the cover plate needs to be connected and fixed on the opening, so that the shell is sealed. The shaft is radially fixed on the candy-forming machine itself and provides radial support for the drum.

Further, the supporting structure comprises an inner cylinder, the working cylinder is sleeved on the inner cylinder in a clearance mode, and the rotating shaft is located in the axis direction of the inner cylinder. The inner barrel is arranged, the support to the working barrel can be well adapted, and the stability of the working barrel in the working process is good.

Furthermore, the rotating shaft is connected and fixed with one end part of the inner cylinder, an inner baffle ring is sleeved on the rotating shaft, and the connecting structure is arranged between the inner baffle ring and the working cylinder; the other end of the inner cylinder is provided with an outer baffle ring which is fixedly connected with the working cylinder, and the connecting structure is arranged between the outer baffle ring and the inner cylinder. The inner baffle ring is arranged, so that the circumferential transmission connection between the rotating shaft and the working barrel can be well adapted. The outer baffle ring and the working barrel can be fixedly connected in a welding mode, and can also be fixedly connected through a fixing bolt. The circumferential fixed connection between the inner barrel and the working barrel is conveniently realized by arranging the outer baffle ring.

Furthermore, the other end of the inner cylinder is also provided with a coupling head, the axis position of the coupling head is provided with a protruding head which extends out, and the outer retaining ring is sleeved on the protruding head in a clearance way. Through being provided with the coupling head, the hookup between inner tube and the working barrel of being convenient for is fixed on the one hand, moreover, pegs graft mutually through the bearing that sets up on plush copper and the apron, can realize the support to the cylinder other end, can effectively guarantee the job stabilization nature of cylinder.

Furthermore, the connecting structure is a plurality of inserted rods; a plurality of insert rods are fixed on the coupling head along the axial direction of the coupling head, and the insert rods are inserted into the outer retaining ring in a clearance manner; a plurality of insert rods are fixed on the inner baffle ring along the axial direction of the inner baffle ring, and the insert rods are inserted into the wall body of the working barrel in a clearance mode. The inserted link can also be replaced by a corresponding part which is provided with a mutually matched toothed convex body and a concave-convex spline matching structure. The circumferential transmission of the working barrel is realized by arranging the inserted rod, the structure is simple, and the arrangement is convenient.

Furthermore, the inner cylinder is hollow, the connecting head and the rotating shaft are inserted and fixed in the inner cylinder, an outward convex ring is integrally formed on the peripheral surface of the insertion end of the rotating shaft, and the inner baffle ring is connected with the outward convex ring; the two ends of the working barrel are respectively provided with a sinking port, and the inner baffle ring and the outer baffle ring are respectively embedded into the corresponding sinking ports. This results in a good integrity of the drum and a good stability of the operation of the drum.

Further, a bearing is fixed on the surface of the cover plate facing the mandrel, the bearing being used to support the other end of the support structure. The bearing used for supporting the other end of the roller is arranged on the cover plate, so that the stability of the roller in the working process can be effectively ensured, and the working stability of the sugar block forming machine can be favorably ensured.

Further, a cover plate is fixedly connected to the housing through a connecting bolt, a knob is connected to the cover plate in a threaded manner, a pan head is formed at the outer end of the knob, and the inner end of the knob is used for acting on the housing. The knob is rotated to enable the inner end part of the knob to be pressed against the shell, so that the cover plate and the shell are gradually separated, and the cover plate is convenient to detach from the shell.

Furthermore, the material guiding device comprises a fixing body and a frame type material guiding frame, the material guiding channel passes through the material guiding frame, the fixing body is fixed in the shell, the material guiding frame is slidably arranged on the fixing body, an opening in the shell corresponds to the position of the material guiding frame, and the material guiding frame can enter and exit the shell through the opening. The frame type material guide frame is arranged, so that a material guide channel is convenient to form, the material guide frame does not need to be made thick, and the internal structure compactness of the sugar block forming machine can be effectively improved. The connecting mode of the guide frame and the fixing body ensures that the guide frame can be detached simultaneously when the interior of the sugar block forming machine is cleaned, so that the structure corresponding to the sugar block forming machine in the advancing direction of the sugar block can be well cleaned, and the cleaning effect is ensured.

Furthermore, the two opposite sides of the guide frame are provided with concave arc surfaces matched with the outer peripheral surfaces of the rollers close to each other, and the concave arc surfaces are intersected with the inner opening of the guide frame. Through the concave cambered surface that sets up the looks adaptation, and make the degree of cooperation between cylinder outer peripheral face and the guide frame good, can effectively avoid the sugar material to leak to the outside. The concave cambered surface is directly intersected with the inner opening part of the material guiding frame, so that a relatively sharp scraping opening is conveniently formed on the material guiding frame, and the material guiding frame is favorable for scraping sugar materials adhered to the outer peripheral surface of the roller.

Therefore, the utility model has the advantages that: the openings are arranged at the corresponding positions of the shell of the sugar cube forming machine, so that the working barrel and other corresponding detachable structures can be mounted and dismounted, and the actual cleaning work requirement for the interior of the sugar cube forming machine can be well met. The pivot can provide radial support for bearing structure, and after opening the apron, bearing structure can be unsettled in the casing in cantilever form, is convenient for take the working barrel out from bearing structure to can realize breaking away from of working barrel and bearing structure. When the roller in the sugar cube forming machine needs to be cleaned, the working barrel only needs to be disassembled, and other structures which are not in contact with sugar can be kept in the sugar cube forming machine, so that the workload of cleaning the roller is reduced. The single working barrel is relatively light in weight and convenient to disassemble. The working barrel can be integrally taken out from an opening on the shell of the sugar block forming machine, the working barrel is cleaned outside the sugar block forming machine, the cleaning is very convenient and fast, the dead-angle-free cleaning can be realized on the peripheral surface of the working barrel, and the cleaning effect of the working barrel can be ensured.

Drawings

Fig. 1 is a perspective view of the candy molding machine.

Fig. 2 is a transverse cross-sectional view of the present candy maker.

Fig. 3 is a perspective structural view of the material pressing roller and the rotating shaft which are connected together.

Fig. 4 is an end face structure view of the nip roller.

Fig. 5 is a sectional view taken along a-a in fig. 4.

Fig. 6 is a perspective view of the cover plate in the rear direction.

Fig. 7 is a dispersed structure view of the material guiding device.

In the figure, 1, a housing; 2. a hopper; 3. a cover plate; 31. a pull ring; 32. a knob; 33. a bearing seat; 34. a bearing; 4. a conveying device; 41. a material sucking structure; 51. a working barrel; 52. an outer retainer ring; 53. pulling the button; 54. a coupling head; 55. a raised head; 56. fixing the bolt; 57. inserting a rod; 58. an inner barrel; 59. an inner baffle ring; 501. a material pressing roller; 502. a forming roller; 503. a crimping roller; 6. a rotating shaft; 7. a material guiding frame; 71. a concave arc surface; 72. a slot; 8. and (5) fixing the rod.

Detailed Description

With the attached drawings, the sugar block forming machine is applied to the sugar manufacturing field and used for pushing and pressing viscous sugar materials for forming. The structure of the sugar cube forming machine comprises a shell 1, a cavity is arranged in the shell 1, a feeding hole is formed in the upper side of the shell 1, a hopper 2 is arranged on the feeding hole, and sugar enters the cavity through the hopper 2. The lower side of the shell 1 is provided with a discharge hole, and the sugar block is discharged from the discharge hole after being prepared and molded. A conveying device 4 is arranged below the discharge port, a vacuum material sucking structure 41 is arranged on the conveying device 4, the conveying device 4 is used for sucking out the sugar blocks onto the conveying device 4, and the sugar blocks are conveyed to the outer side of the shell 1 by the conveying device 4.

Referring to fig. 2, a pair of material pressing rollers 501 are rotatably disposed in the housing 1, the pair of material pressing rollers 501 are located below the discharge port of the hopper 2, the sugar enters the hopper 2 and then enters between the material pressing rollers 501 from the discharge port, and when the material pressing rollers 501 rotate, the concave-convex sugar acting structures disposed on the outer peripheral surfaces of the two material pressing rollers 501 push and press the sugar. A forming roller 502 is rotatably arranged in the housing 1, a plurality of recessed forming ports are arranged on the outer peripheral surface of the forming roller 502, the forming roller 502 is positioned at the lower side of the pressing rollers 501 and is arranged in parallel with the space between the pair of pressing rollers 501, and the forming roller 502 faces the space between the two pressing rollers 501. In the housing 1, a material guiding device is disposed between the forming roller 502 and the pressing roller 501, so that a material guiding channel is formed between the forming roller 502 and the pressing roller 501. After being pressed by the material-pressing roller 501, the sugar is pressed against the outer peripheral surface of the forming roller 502 in the material-guiding passage, and the sugar is pressed into the forming opening of the forming roller 502. The material guiding device also plays a role in scraping the peripheral surface of the forming roller 502, so that the shape of the sugar block manufactured by the forming roller 502 is the same as that of the forming opening, and the consistency of the prepared sugar block is good.

The material guiding device structurally comprises two fixing rods 8 fixed in the shell 1, and the two fixing rods 8 are arranged in parallel at intervals. A drawing type material guiding frame 7 is arranged between the two fixing rods 8, the material guiding frame 7 is in a frame shape, and two opposite side surfaces of the material guiding frame 7 are respectively provided with a slot 72. The cross section of the fixing rod 8 is L-shaped, and the side part of the fixing rod 8 is inserted into the slot 72 with a gap. In order to ensure the sealing performance of the material guide channel, two concave arc surfaces 71 are respectively arranged on two surfaces of the upper side of the material guide frame 7, and the two concave arc surfaces 71 are respectively matched with the outer peripheral surfaces of the two material pressing rollers 501; a concave arc surface 71 is also arranged at the lower part of the material guiding frame 7, and the concave arc surface 71 is matched with the outer peripheral surface of the forming roller 502. The three concave arc surfaces 71 intersect with the inner opening of the material guiding frame 7, so that a linear scraping opening is formed at the edge of the inner opening of the material guiding frame 7 for scraping sugar on the outer peripheral surface of the corresponding roller into the material guiding channel. In order to compact the sugar mass, a pressing roller 503 is further provided outside the forming roller 502, and both outer circumferential surfaces of the pressing roller 503 and the forming roller 502 are tangent to each other. The outer peripheral surface of the pressure roller 503 is a smooth surface, and the sugar action structure is not provided.

The aforementioned rollers are coupled to the end of a rotating shaft 6, and the rotating shaft 6 is in transmission connection with a motor. Gears which are meshed with each other are arranged between the rotating shafts 6 on the two material pressing rollers 501 to realize linkage; the pressing roller 503 and the rotating shaft 6 on the forming roller 502 are also interlocked through gears which are meshed with each other. The sugar forming machine is provided with a supporting seat, the rotating shaft 6 is rotatably inserted in the supporting seat, and the supporting seat realizes radial stable support for the rotating shaft 6.

The roller is of a split structure and comprises a cylindrical working barrel 51 and a supporting structure, the working barrel 51 is sleeved on the supporting structure in a clearance mode, the rotating shaft 6 is connected with the supporting structure and fixed into a whole, the rotating shaft 6 provides radial support for the supporting structure, and the working barrel 51 takes the supporting structure as a supporting base.

Referring to fig. 3, a plurality of concave-convex sugar-applying structures are provided on the outer circumferential surface of the working cylinder 51, and the sugar-applying structures are shown as a plurality of convex strips arranged in parallel at intervals, and the convex strips are all provided along the axial direction of the working cylinder 51. When the roller with the sugar material action structure is used, a double-roller mode is set for pushing and conveying sugar materials.

The support structure is provided with a coupling structure which detachably couples the working barrel 51 to the support structure and enables circumferential transmission between the support structure and the working barrel 51. In the present embodiment, the coupling structure is an insertion rod 57 described below, and one end of the insertion rod 57 is fixed to one member and the other end is inserted into the other member with a gap. After the shaft 6 receives power from the power mechanism, the shaft 6 rotates in the circumferential direction of the cylinder 51 through the support structure.

The supporting structure can be a frame structure, and it is shown that the supporting structure includes a cylindrical inner cylinder 58, and correspondingly, the working cylinder 51 is also cylindrical, the working cylinder 51 is sleeved on the inner cylinder 58 with a gap, and the rotating shaft 6 is connected and fixed on one end of the inner cylinder 58. The end part of the rotating shaft 6 connected with the inner cylinder 58 is provided with an outward convex ring which is inserted and fixed in the inner cylinder 58. The inner baffle ring 59 and the outer convex ring sleeved on the rotating shaft 6 can be circumferentially fixed and connected in a transmission way through an inserted link 57 described below, and can also be connected through a bolt. A countersink is arranged on the end surface of the working barrel 51 facing the inner blocking ring 59, the inner blocking ring 59 is abutted against the countersink, and the inner blocking ring 59 is used for limiting the movement of the working barrel 51 towards the direction of the rotating shaft 6.

A coupling head 54 is fixedly inserted into the other end of the inner cylinder 58, and the coupling head 54 is detachably coupled with the working cylinder 51. The coupling head 54 is in a shape of a Chinese character 'tu', a raised head 55 is integrally formed on the outer end surface of the coupling head 54, and an outer baffle ring 52 is sleeved on the raised head 55. The fixing bolt 56 passes through the outer retaining ring 52, the fixing bolt 56 is inserted into the wall body of the working barrel 51 along the axial direction of the working barrel 51, and the fixing bolt 56 is in threaded connection with the wall body of the working barrel 51, so that the outer retaining ring 52 is connected and fixed with the working barrel 51. Several insertion rods 57 are axially connected and fixed on the coupling head 54, these insertion rods 57 are inserted into the outer blocking ring 52 with clearance, so that the circumferential transmission between the coupling head 54 and the outer blocking ring 52 can be realized, and the outer blocking ring 52 can be disengaged from these insertion rods 57. A plurality of pins 57 are fixed to the inner collar 59 in the axial direction thereof, the pins 57 being inserted into the wall of the adjacent end of the mandrel 51 with play, and the mandrel 51 being detachable from these pins 57. A plurality of inserting rods 57 are fixed on the outward convex ring, and the inserting rods 57 are inserted into the inner baffle ring 59, so that the relative circumferential fixation between the inner baffle ring 59 and the outward convex ring can be realized.

To facilitate the removal of the work cylinder 51, a pull button 53 is coupled to the outer retainer ring 52, and a disk head is formed at an outer end of the pull button 53. When the working barrel 51 needs to be detached, the hand-held pull button 53 is pulled outwards, the outer stop ring 52 is separated from the corresponding insertion rod 57, and the end part of the working barrel 51 facing the rotating shaft 6 is separated from the corresponding insertion rod 57, so that the detachment between the working barrel 51 and the inner barrel 58 is realized.

To accommodate this construction and the working requirements of the mandrel 51, see fig. 1, an opening is provided in the housing 1 of the candy maker at a location corresponding to the mandrel 51, the opening being dimensioned to ensure the ingress and egress of the mandrel 51. Referring to fig. 6, the housing 1 is coupled and covered with the cover plate 3 at an open position, a bearing housing 33 is provided on a back side of the cover plate 3, and a bearing 34 is coupled and fixed in the bearing housing 33. After the cover plate 3 is fixed to the housing 1, the projections 55 of the coupling heads 54 are inserted into the bearings 34. As also shown in fig. 1, two cover plates 3 are provided on the housing 1, the cover plate 3 on the upper side corresponding to a pair of nip rollers 501, and the cover plate 3 on the lower side corresponding to a crimping roller 503 and a forming roller 502. The material guiding frame 7 may be drawn out from an opening to the outside of the casing 1 after the cover plate 3 is opened.

In order to facilitate the detachment of the cover plate 3, the cover plate 3 itself is fixed to the housing 1 by means of bolts, and in addition, a plurality of knobs 32 are screwed on the cover plate 3, and the knobs 32 are arranged close to the edge of the cover plate 3. The outer end of the knob 32 is formed with a disk head, and the knob 32 penetrates the cover plate 3. When the cover 3 is opened by the knob 32, the inner end of the knob 32 presses the housing 1 by rotating the knob 32, so that the cover 3 is slowly opened from the housing 1. A pair of pull rings 31 are further provided on the outer surface of the cover plate 3 to detach the cover plate 3 from the housing 1 after the cover plate 3 is opened.

When the roller needs to be cleaned, the cover plate 3 is detached from the casing 1, and then the above-mentioned corresponding operations are performed, so that the working cylinder 51 and the material guiding frame 7 can be taken out of the casing 1. After the working barrel 51 and the material guiding frame 7 are cleaned, the working barrel 51 and the material guiding frame 7 are installed in place from the opening on the shell 1, and after the cover plate 3 is assembled, the cleaning of the corresponding structure in the sugar block forming machine is completed. Through set up corresponding opening on casing 1, and can be when wasing casing 1 inside, can carry out thorough washing to all parts that contact with the sugared material in the casing 1, the cleaning performance is good, and the working strength is low.

Claims

1. A candy mass-forming machine comprising:

2. The candy forming machine of claim 1 wherein the support structure includes an inner cylinder, the working cylinder is loosely received on the inner cylinder, and the shaft is oriented along the axis of the inner cylinder.

3. The candy forming machine according to claim 2 wherein the rotating shaft is fixedly connected with one end of the inner cylinder, an inner baffle ring is sleeved on the rotating shaft, and the connecting structure is arranged between the inner baffle ring and the working cylinder; the other end of the inner cylinder is provided with an outer baffle ring which is fixedly connected with the working cylinder, and the connecting structure is arranged between the outer baffle ring and the inner cylinder.

4. The sugar cube forming machine as claimed in claim 3, wherein the other end of the inner cylinder is further provided with a coupling head, an axis of the coupling head is provided with a protruding head, and the outer retainer ring is sleeved on the protruding head in a clearance manner.

5. A candy forming machine according to claim 4,

a plurality of insert rods are fixed on the coupling head along the axial direction of the coupling head, and the insert rods are inserted into the outer retaining ring in a clearance manner;

a plurality of insert rods are fixed on the inner baffle ring along the axial direction of the inner baffle ring, and the insert rods are inserted into the wall body of the working barrel in a clearance mode.

6. The candy forming machine according to claim 4 wherein the inner barrel is hollow, the coupling head and the rotating shaft are both inserted and fixed in the inner barrel, an outward protruding ring is integrally formed on the outer peripheral surface of the insertion end of the rotating shaft, and the inner retaining ring is connected with the outward protruding ring; the two ends of the working barrel are respectively provided with a sinking port, and the inner baffle ring and the outer baffle ring are respectively embedded into the corresponding sinking ports.

7. A candy machine according to claim 1 wherein a bearing is secured to the surface of the cover plate facing the mandrel for supporting the other end of the support structure.

8. A candy moulding machine according to claim 7 wherein the cover is fixedly attached to the housing by means of attachment bolts, and wherein a knob is threadedly attached to the cover, the outer end of the knob being formed with a pan head and the inner end of the knob acting on the housing.

9. The candy forming machine as claimed in claim 1 wherein the material guiding device comprises a fixed body and a frame-type material guiding frame, the material guiding channel passes through the material guiding frame, the fixed body is fixed in the housing, the material guiding frame is slidably disposed on the fixed body, the opening on the housing corresponds to the position of the material guiding frame, and the opening is used for the material guiding frame to enter and exit the housing.

10. The apparatus of claim 9 wherein the guide frame has concave arcuate surfaces on opposite sides of the guide frame that are adapted to the outer surface of the roller adjacent to the guide frame, the concave arcuate surfaces intersecting the inner mouth of the guide frame.