CN209931393U

CN209931393U - Walking stick candy conveying and forming mechanism with feeding mechanism

Info

Publication number: CN209931393U
Application number: CN201920340173.6U
Authority: CN
Inventors: 殷祖荣; 郭寿新; 杨金文; 顾欣
Original assignee: JIANGSU HAITEER MACHINERY CO Ltd
Current assignee: JIANGSU HAITEER MACHINERY CO Ltd
Priority date: 2019-03-18
Filing date: 2019-03-18
Publication date: 2020-01-14
Anticipated expiration: 2029-03-18

Abstract

The utility model discloses a walking stick candy conveying and forming mechanism with a feeding mechanism, which comprises a frame, a conveyer belt, a driving wheel, a forming die, a driving column and a feeding mechanism; the forming die comprises a moving plate, a forming seat, a rotating mechanism and a rotating gear disc; the feeding mechanism is arranged on one side above the conveying belt; the feeding mechanism comprises a feeding bracket, a feeding conveying mechanism and a material baffle plate; the utility model discloses can automatic pan feeding, can buckle the shaping automatically, realize the high-efficient production mode of batchization.

Description

Walking stick candy conveying and forming mechanism with feeding mechanism

Technical Field

The utility model relates to a forming mechanism is carried to walking stick sugar with pan feeding mechanism.

Background

At present, with the improvement of living standard, the selection of the candy by people is not limited to the taste, and the candy is delicious and distinctive

Type art candies are becoming more and more appreciated by more consumers with their good visual effects. To adapt to the consumption idea of people

The candy production enterprises design and manufacture various artistic candies, wherein the thin candy has beautiful appearance and good taste

The advantages of good quality and the like occupy more and more proportion in the candy sales market. At present, in the preparation process of the crutch candy, one end of a straight strip-shaped candy body is bent to form the crutch-shaped candy body, and at present, the crutch-shaped candy body with the structure is clamped and bent manually, so that the operation efficiency is very low, and in addition, part of the crutch-shaped candy body is mechanically bent, but the crutch-shaped candy body does not have the requirement of large-scale rapid production and has no structure for automatic feeding.

SUMMERY OF THE UTILITY MODEL

To the weak point of above-mentioned prior art, the utility model provides a problem do: the walking stick candy conveying and forming mechanism with the feeding mechanism can automatically feed materials, can automatically bend and form, and is efficient.

In order to solve the above problem, the utility model discloses the technical scheme who takes as follows:

a walking stick candy conveying and forming mechanism with a feeding mechanism comprises a frame, a conveying belt, a driving wheel, a forming die, a driving column and the feeding mechanism;

two ends of the frame are respectively provided with a driving wheel; the driving wheel is provided with a conveying belt; a plurality of forming dies are uniformly arranged on the outer side of the conveying belt;

the forming die comprises a moving plate, a forming seat, a rotating mechanism and a rotating gear disc; the moving plates are uniformly arranged on the outer side of the conveying belt; the forming seat is arranged on the outer side surface of the moving plate; a strip-shaped discharging groove is formed in the forming seat; the rotating mechanism is rotatably arranged on the outer side surface of the moving plate, the rotating mechanism is arranged at one end of the forming seat, and a bending groove is formed in the rotating mechanism; the bending groove is communicated with the strip-shaped discharging groove in a butt joint mode; the inner end of the rotating mechanism rotatably extends to the inner side surface of the moving plate; the inner end of the rotating mechanism is connected with a rotating gear disc; two rows of driving columns are arranged on the inner side of the moving plate, are distributed up and down on the inner side of the moving plate and are arranged on the rack; the movable plate can drive the rotary gear plate gears to be occluded on the upper row of driving columns and generate rotary bending of the rotating mechanism when moving along with the conveying belt, and the movable plate can drive the rotary gear plate gears to be occluded on the lower row of driving columns and generate rotary resetting of the rotating mechanism when moving along with the conveying belt;

the feeding mechanism is arranged on one side above the conveying belt; the feeding mechanism comprises a feeding bracket, a feeding conveying mechanism and a material baffle plate; the upper end of the feeding support is provided with a feeding port, and one end of the feeding support is provided with a discharging port; the feeding conveying mechanism is arranged in the feeding bracket; the feeding port is positioned at the upper end of the feeding conveying mechanism; the discharge port is positioned at one end of the feeding conveying mechanism; the material baffle is arranged on the material outlet; the striker plate comprises a fixed plate and a swing buffer plate; the fixed plate is arranged on the upper side of the feeding port; the upper end of the swing buffer plate is rotatably connected with the lower end of the fixed plate; and the feeding conveying mechanism conveys the materials fed from the feeding port to the discharging port and rolls the materials into the strip-shaped feeding groove and the bending groove.

Furthermore, a plurality of separated material receiving plates are arranged on the lower side of the discharge hole; the forming seat is provided with a plurality of penetrating and connecting grooves; the positions of the plurality of cross connecting grooves on the forming seat correspond to the positions of the plurality of separated material receiving plates on the lower side of the discharge port; the molding base penetrates through the material receiving plate through the penetrating groove when moving.

Further, the feeding conveying mechanism comprises a feeding chain, a feeding gear, a feeding column and a connecting rod; two feeding chains are arranged; the two feeding chains are horizontally arranged in parallel; the inner sides of the two ends of the feeding chain are respectively provided with a feeding gear in an occluded manner; a plurality of connecting rods are uniformly arranged between the two feeding chains; the material column is movably sleeved outside the connecting rod.

Furthermore, the rotating mechanism comprises a bending plate, a rotating column and a positioning shaft; the positioning shaft is fixed on the outer side surface of the moving plate; the rotating column is rotatably sleeved outside the positioning shaft; the bending plate is fixed on one side of the rotating column; the end part of the inner side of the rotating column extends to the inner side of the moving plate and is fixedly connected with the center of the rotating gear disc; and a bending groove is formed among the bending plate, the rotating column and the positioning shaft.

Furthermore, the forming die also comprises a limiting block; the limiting block is fixedly arranged on the outer side of the rotating gear disc; two limiting plates which are distributed up and down are arranged on the inner side of the moving plate; the limiting plate is arranged on the rack; a gap is arranged in the middle of the limiting plate; the driving columns positioned in the upper row are arranged in the gap of the limiting plate positioned above; the driving columns positioned in the lower row are arranged in the gap of the limiting plate positioned below; the limiting block is abutted and limited on the outer side of the limiting plate.

Furthermore, two sides of the limiting block are provided with linear abutting surfaces; the linear abutting surface is abutted against the outer side of the limiting plate.

Furthermore, a gear notch is arranged on the outer side of the rotary gear disc.

Further, the conveyer belt is a ring-shaped chain; the two conveying belts are arranged in parallel horizontally; the driving wheel is of a gear structure; four driving wheels are arranged; two sides of one conveying belt are respectively connected with a driving wheel.

Furthermore, two ends of the inner side of the moving plate are fixed on the outer sides of the two conveying belts in an overlapping mode.

The beneficial effects of the utility model

1. The utility model discloses having add pan feeding mechanism, having sent into the pan feeding conveying mechanism with the sugar body of bar from the pan feeding mouth of pan feeding support upper end, the discharge gate that the sugar body reachs the frame on it drives through pan feeding conveying mechanism carries out the ejection of compact, and the sugar body falls into bar storing trough and bending groove after the fender material buffering of swing buffer board in, then the sugar body carries the shaping along with forming die.

2. The utility model discloses a lay a plurality of forming die on the conveyer belt in proper order, the utility model discloses a forming die includes movable plate, shaping seat, slewing mechanism, rotation toothed disc, drives the conveyer belt through the drive wheel, and the conveyer belt drives the forming die on it and removes, begins to install and guarantees the candy body in the strip-shaped open trough of shaping seat of one side above the conveyer belt from the conveyer belt and has one end to extend into slewing mechanism's bending groove, so in the course that forming die moves along with the conveyer belt, rotation toothed disc interlocks the gear on the drive post that is located one row above and slewing mechanism can take place to rotate and buckle, and then drive the candy body one end in the bending groove of slewing mechanism and take place to buckle, and then form the candy body of walking stick structure; then the candy body of taking place to buckle can be unloaded from bar blowing groove and bending groove at the top opposite side of conveyer belt, forming die after unloading continues to be driven to the below of conveyer belt by the conveyer belt, forming die is along with the in-process that the conveyer belt removed, rotate the gear dish with the gear interlock once more on lieing in one row of drive post in the below and slewing mechanism can take place to rotate to buckle and reset, continue to drive forming die after resetting through the conveyer belt at last and carry out the pan feeding once more to the top one side of conveyer belt, so continuous circulation, the fashioned production mechanism of buckling has been realized on a large scale automatically.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is the outside structural schematic diagram of the forming mold of the present invention.

Fig. 3 is the schematic diagram of the inner side structure of the forming mold of the present invention.

Fig. 4 is a schematic structural view of the upper inner side of the conveyer belt of the present invention.

Fig. 5 is a schematic view of the bending structure of the forming mold outside the upper side of the conveying belt of the present invention.

Fig. 6 is a schematic structural diagram of the feeding mechanism of the present invention.

Fig. 7 is a schematic side view of the feeding mechanism of the present invention.

Fig. 8 is an enlarged schematic structural view of the discharge port of the present invention.

Fig. 9 is an enlarged schematic structural view of the feeding conveying mechanism.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 to 8, a cane sugar conveying and forming mechanism with a feeding mechanism comprises a frame, a conveying belt 2, a driving wheel 1, a forming mold 3, a driving column 4 and a feeding mechanism 5. And the two ends of the frame are respectively provided with a driving wheel 1. The driving wheel 1 is provided with a conveyer belt 2. And a plurality of forming dies 3 are uniformly arranged on the outer side of the conveying belt 2. Conveyer belt 2 be the chain of circle shape, can cyclic reciprocating motion, conveyer belt 2 be equipped with two, 2 horizontal parallel arrangement of two conveyer belts, drive wheel 1 is gear structure's drive wheel, drive wheel 1 is equipped with four, a drive wheel 1 is connected respectively to the both sides of a conveyer belt 2, the inboard both ends overlap joint of movable plate 31 is fixed in two conveyer belts 2 outsides, so forming die 3 and conveyer belt 2 form crawler-type transport mode.

As shown in fig. 2 and 3, the forming mold 3 includes a moving plate 31, a forming base 32, a rotating mechanism 33, and a rotating gear plate 34. The moving plate 31 is uniformly arranged on the outer side of the conveyer belt 2. The forming seat 32 is mounted on the outer side surface of the moving plate 31. A strip-shaped material discharging groove 321 is arranged on the forming seat 32; the rotating mechanism 33 is rotatably arranged on the outer side surface of the moving plate 31, the rotating mechanism 33 is arranged at one end of the forming seat 32, and the rotating mechanism 33 is provided with a bending groove 334; the bending groove 334 is in butt-joint communication with the strip-shaped discharging groove 321, and it should be noted here that the bending groove 334 is in butt-joint communication with the strip-shaped discharging groove 321 when the rotating mechanism 33 does not perform bending movement, and once the bending groove 334 is formed, the bending groove will be separated from the strip-shaped discharging groove 321 to perform bending movement. As shown in fig. 2 to 4, the inner end of the rotating mechanism 33 is rotatably extended to the inner side surface of the moving plate 31. The inner end of the rotating mechanism 33 is connected with a rotating gear disc 34. Two rows of driving columns 4 are arranged on the inner side of the moving plate 31, the two rows of driving columns 4 are distributed up and down on the inner side of the moving plate 31, the driving columns 4 are arranged on the rack, the two rows of driving columns 4 which are distributed up and down are designed to be respectively used for bending and resetting rotation of the rotating mechanism 33, the driving column 4 which is positioned on the previous row is used for bending rotation of the rotating mechanism 33, and the driving column 4 which is positioned on the next row is used for resetting rotation of the rotating mechanism, so that continuous cyclic utilization of the rotating mechanism 33 can be formed. The moving plate 31 can drive the gear of the rotating gear disc 34 to be meshed with the driving columns 4 in the row above and cause the rotating mechanism 33 to rotate and bend when moving along with the conveying belt 2, and the moving plate 31 can drive the gear of the rotating gear disc 34 to be meshed with the driving columns 4 in the row below and cause the rotating mechanism 33 to rotate and reset when moving along with the conveying belt 2. There is an intervening gap between the drive columns 4 in each row so that the gears on the rotary gear plate 34 are rotatably inserted into the gaps between the drive columns 4 in sequence. The above operation process can be specifically explained as follows: the material can be fed from one side above the conveyer belt 2, the strip-shaped candy body is installed from the strip-shaped discharge groove 321 of the forming seat 32 at one side above the conveyer belt 2 and is ensured to have one end extending into the bending groove 334 of the rotating mechanism 33, so that in the process that the forming die 3 moves to the other side along with the conveyer belt 2, when the gear on the rotating gear disc 34 is inserted into the gap between the driving columns 4 in the previous row, the rotating gear disc 34 is driven to rotate, and then the rotating mechanism 33 at the outer side of the moving plate 31 is driven to bend and rotate by utilizing the rotating gear disc 34, so that the rotating mechanism 33 drives one end of the candy body to bend and form, the formed crutch candy is stripped after the bending and rotating, the rotating mechanism 33 on the forming die 3 after stripping can continue to be conveyed to the lower part of the conveyer belt 2 along with the conveyer belt 2, and the bending process of the rotating mechanism is the same as the above-mentioned rotating mechanism, when the gear on the rotating gear disc 34 is inserted into the gap between the next row of the plurality of driving columns 4, the rotating gear disc 34 is driven to rotate, and then the rotating mechanism 33 outside the moving plate 31 is driven by the rotating gear disc 34 to reset and rotate, so that the rotating mechanism 33 is restored to the original position, the next feeding is facilitated, and the reciprocating circulation is performed. It should be noted that the gap between each row of driving columns 4 is determined in advance according to the distance between the gears on the rotating gear plate 34, and it is only necessary to achieve a proper meshing rotation effect, the number of each row of driving columns 4 is determined by the required degree of bending, the requirement of bending degree is lower, the number of each row of driving columns 4 can be reduced, the requirement of bending degree is higher, the number of each row of driving columns 4 can be increased, and those skilled in the art can determine the situation.

As shown in fig. 6 to 9, the feeding mechanism 5 is installed at one side above the conveyor belt 2; the feeding mechanism 5 comprises a feeding bracket 51, a feeding conveying mechanism 52 and a material baffle plate 53; a feeding port 511 is arranged at the upper end of the feeding bracket 51, and a discharging port 512 is arranged at one end of the feeding bracket 51; the feeding conveying mechanism 52 is arranged in the feeding bracket 51; the feeding port 511 is positioned at the upper end of the feeding conveying mechanism 52; the discharge port 512 is positioned at one end of the feeding conveying mechanism 52; the material baffle plate 53 is arranged on the material outlet 512; the striker plate 53 comprises a fixed plate 531 and a swing buffer plate 532; the fixed plate 531 is arranged at the upper side of the feeding port 512; the upper end of the swing buffer plate 532 is rotatably connected with the lower end of the fixed plate 531, and a plurality of combinations of the fixed plate 531 and the swing buffer plate 532 can be arranged, so that the excessive impact force of the sugar bodies conveyed from the feeding conveying mechanism 52 can be prevented, and the buffer force of the sugar bodies can be uniformly dispersed; the feeding and conveying mechanism 52 conveys the material fed from the feeding port 511 to the discharging port 512 and rolls the material into the strip-shaped feeding groove and the bending groove.

As shown in fig. 2, 6 to 9, it is further preferable that a plurality of separated material receiving plates 513 are disposed below the material outlet 512; a plurality of through connecting grooves 322 are arranged on the forming base 32; the positions of the multiple penetration grooves 322 on the forming seat 32 correspond to the positions of the multiple separated material receiving plates 513 on the lower side of the discharge hole 512; the molding base 32 passes through the receiving plate 513 through the passing groove 322 when moving. Further preferably, the feeding conveying mechanism 52 comprises a feeding chain 522, a feeding gear 521, a feeding column 523 and a connecting rod 524; two feeding chains 522 are arranged; the two feeding chains 522 are horizontally arranged in parallel; the inner sides of the two ends of the feeding chain 522 are respectively provided with a feeding gear 521 in an occluded manner; a plurality of connecting rods 524 are uniformly arranged between the two feeding chains 522; the outer side of the connecting rod 524 is movably sleeved with a material moving column 523. The strip-shaped sugar body enters the material feeding column 523 from the material feeding port 511 above the material feeding support 51, then the material feeding gear 521 drives the material feeding column 523 to move, the material is conveyed to the material discharging port 512 at one end of the material feeding support 51 to be discharged, then the sugar body enters the material receiving plate 513, the impact force of the sugar body is reduced through the buffering of the swing buffering plate 532, and the sugar body falls into the strip-shaped material discharging groove and the bending groove of the forming mold conveyed from the lower part after being flushed by the swing buffering plate 532. The utility model discloses well connecting rod 524 outside activity is cup jointed and is walked material post 523, can specifically explain here that connecting rod 524 is cylindrical, walks the inside columniform cavity that is equipped with of material post 523, walks that material post 523 cup joints the outside at connecting rod 524 through the rotation of its columniform cavity, so can effectual less walk the friction between material post and the sugar body when bar-shaped structure's sugar material gets into to walk on the material post.

As shown in fig. 2 and 3, in order to facilitate bending of the candy bar, it is further preferable that the rotating mechanism 33 includes a bending plate 331, a rotating column 333, and a positioning shaft 332. The positioning shaft 332 is fixed on the outer side surface of the moving plate 31. The rotating column 333 is rotatably sleeved outside the positioning shaft 332, and the bending plate 331 is fixed on one side of the rotating column 333; the end part of the inner side of the rotating column 333 extends to the inner side of the moving plate 31 and is fixedly connected with the center of the rotating gear disc 34; the bending plate 331, the rotating column 333 and the positioning shaft 332 form a bending groove 334 therebetween. Thus, when the rotating gear plate 34 rotates, the rotating column 333 is driven to rotate, the rotating column 333 drives the bending plate 331 to rotate, the bending plate 331 bends one end of the strip-shaped candy body to be extruded and formed, as shown in fig. 5, the bending plate 331 bends under the driving of the rotating gear plate 34. The candy bar may be bent around the positioning shaft 332, and thus it is preferable that the positioning shaft 332 is cylindrical to make the bend of the candy bar more circular.

As shown in fig. 4, it is further preferable that, in order to facilitate the rotation of the gear plate 34 to move more smoothly inside the moving plate 31, the forming mold further includes a stopper 35; the limiting block 35 is fixedly arranged on the outer side of the rotating gear disc 34; two limiting plates 5 which are distributed up and down are arranged on the inner side of the moving plate 31; the limiting plate 5 is arranged on the rack, and the limiting plate 5 is fixedly arranged and does not move along with the moving plate 31; a gap 51 is arranged in the middle of the limiting plate 5; the driving columns 4 positioned in the upper row are arranged in the gap of the limiting plate 5 positioned above; the driving columns positioned in the lower row are arranged in the gap of the limiting plate positioned below; the limiting block 35 is abutted and limited on the outer side of the limiting plate 5. Thus, when the feeding rotary gear disc 34 starts to move from the upper inner side of the conveyor belt, one side of the limiting block 35 is attached to the outer side of the upper limiting plate 5 to slide, when the limiting block 35 moves to the gap 51, the limiting block 35 has no binding force of the upper limiting plate 5, at this time, the rotary gear disc 34 can be inserted into the gap between the upper driving columns 4 to rotate, the rotary gear disc 34 also drives the limiting block 35 to rotate, after the rotary gear disc 34 rotates and runs and is separated from the driving columns 4, the other side of the limiting block 35 is attached to the outer side of the upper limiting plate 5 again, the other side of the limiting block 35 is still attached to the outer side of the upper limiting plate 5 to slide, so that the stability of the rotation of the rotary gear disc 34 is ensured, and similarly, when the rotary gear disc 34 rotates to the lower inner side of the conveyor belt, as in the above process, the other side of the limiting block 35, then the rotating gear disc 34 is inserted into the gap between the plurality of driving columns 4 below to rotate and walk, the rotating gear disc 34 also drives the limiting block 35 to reset and rotate, after the rotating gear disc 34 rotates and walks and is separated from the driving columns 4 below, one side of the limiting block 35 is attached to the outer side of the limiting plate 5 below again, one side of the limiting block 35 is still attached to the outer side of the limiting plate 5 below to slide, and the reciprocating circular processing is carried out. Preferably, two sides of the limit block 35 are provided with linear abutting surfaces 351; the linear contact surface 351 is in contact with and contacts the outside of the stopper plate 5. It is further preferred that the outer side of the rotating gear plate 34 is provided with a gear notch 341, which facilitates a more proper connection of the rotating gear plate 34 to the driving column.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A walking stick candy conveying and forming mechanism with a feeding mechanism is characterized by comprising a rack, a conveying belt, a driving wheel, a forming die, a driving column and the feeding mechanism;

2. The cane sugar conveying and forming mechanism with the feeding mechanism as claimed in claim 1, wherein a plurality of separated material receiving plates are arranged on the lower side of the discharging port; the forming seat is provided with a plurality of penetrating and connecting grooves; the positions of the plurality of cross connecting grooves on the forming seat correspond to the positions of the plurality of separated material receiving plates on the lower side of the discharge port; the molding base penetrates through the material receiving plate through the penetrating groove when moving.

3. The cane sugar conveying and forming mechanism with the feeding mechanism of claim 1, wherein the feeding mechanism comprises a feeding chain, a feeding gear, a feeding column and a connecting rod; two feeding chains are arranged; the two feeding chains are horizontally arranged in parallel; the inner sides of the two ends of the feeding chain are respectively provided with a feeding gear in an occluded manner; a plurality of connecting rods are uniformly arranged between the two feeding chains; the material column is movably sleeved outside the connecting rod.

4. The cane sugar feeding and forming mechanism with a feeding mechanism as claimed in claim 1, wherein said rotating mechanism comprises a bending plate, a rotating post, a positioning shaft; the positioning shaft is fixed on the outer side surface of the moving plate; the rotating column is rotatably sleeved outside the positioning shaft; the bending plate is fixed on one side of the rotating column; the end part of the inner side of the rotating column extends to the inner side of the moving plate and is fixedly connected with the center of the rotating gear disc; and a bending groove is formed among the bending plate, the rotating column and the positioning shaft.

5. The cane sugar conveyor forming mechanism with a feeding mechanism of claim 1 wherein said forming mold further comprises a stop block; the limiting block is fixedly arranged on the outer side of the rotating gear disc; two limiting plates which are distributed up and down are arranged on the inner side of the moving plate; the limiting plate is arranged on the rack; a gap is arranged in the middle of the limiting plate; the driving columns positioned in the upper row are arranged in the gap of the limiting plate positioned above; the driving columns positioned in the lower row are arranged in the gap of the limiting plate positioned below; the limiting block is abutted and limited on the outer side of the limiting plate.

6. The cane sugar conveying and forming mechanism with the feeding mechanism as claimed in claim 5, wherein two sides of the limiting block are provided with linear abutting surfaces; the linear abutting surface is abutted against the outer side of the limiting plate.

7. The cane sugar feeding and forming mechanism with a feeding mechanism as claimed in claim 1, wherein a gear notch is formed on an outer side of the rotary gear plate.

8. The cane sugar feeding and forming mechanism with a feeding mechanism of claim 1 wherein said conveyor is a loop chain; the two conveying belts are arranged in parallel horizontally; the driving wheel is of a gear structure; four driving wheels are arranged; two sides of one conveying belt are respectively connected with a driving wheel.

9. The cane sugar feeding and forming mechanism with a feeding mechanism as claimed in claim 8, wherein both ends of the inner side of the moving plate are fixed to the outer sides of the two conveyor belts in an overlapping manner.