CN110477062B

CN110477062B - Automatic biscuit production line applicable to block-shaped and strip-shaped biscuits

Info

Publication number: CN110477062B
Application number: CN201910856232.XA
Authority: CN
Inventors: 赖新庭
Original assignee: SHANTOU SWEET HAPPINESS CANDY FOOD CO LTD
Current assignee: SHANTOU SWEET HAPPINESS CANDY FOOD CO LTD
Priority date: 2019-09-10
Filing date: 2019-09-10
Publication date: 2024-01-26
Anticipated expiration: 2039-09-10
Also published as: CN110477062A

Abstract

The invention discloses a biscuit automatic production line suitable for block-shaped and strip-shaped biscuits, which comprises a dough sheet conveying belt, a dough sheet slitting device, a dough sheet sectioning device and a dough sheet mould pressing device, wherein the dough sheet slitting device, the dough sheet sectioning device and the dough sheet mould pressing device are arranged above the front section of the dough sheet conveying belt in a lifting manner, and the dough sheet conveying belt passes through a tunnel type oven and the tail end of the dough sheet conveying belt is connected with a length screening device. The dough sheet is cut into strip biscuits by a dough sheet strip cutting device and a dough sheet section cutting device, or is molded into block biscuits by a dough sheet molding device. The invention realizes the rapid switching between two states of automatically producing blocky biscuits and automatically producing strip biscuits, and the biscuits are not mixed together to be sent out after switching, but are respectively sent out from different positions.

Description

Automatic biscuit production line applicable to block-shaped and strip-shaped biscuits

Technical Field

The invention relates to the field of biscuit production equipment, in particular to an automatic biscuit production line applicable to block-shaped and strip-shaped biscuits.

Background

The existing biscuits can be generally divided into strips or blocks, and the different shapes of the biscuits lead to different forming modes, screening modes and stacking modes, so that the existing block biscuits and the existing block biscuits are produced by respectively and independently setting up production lines, different production lines are started according to orders, when only one shape of biscuit order is adopted, the situation that the production speed of one production line is not required, the other production line cannot start to share the order pressure is caused, and the other production line is temporarily transformed, so that time and labor are wasted, and different production requirements cannot be responded quickly. In addition, the existing biscuit production line also has the problems that cutters are easy to adhere, and the arrangement of the compression molding dies is sparse, so that excessive scraps are caused.

Disclosure of Invention

The invention aims to solve the technical problem of providing a biscuit automatic production line applicable to both block biscuits and strip biscuits, which can be switched rapidly between two states of automatically producing block biscuits and automatically producing strip biscuits, and the biscuits are not mixed together to be sent out during switching, but are respectively sent out from different positions.

In order to achieve the above purpose, the invention discloses an automatic biscuit production line applicable to strip-shaped and block-shaped biscuits, which comprises the following steps:

the dough cover conveyor belt is used for conveying dough covers;

the dough sheet slitting device comprises a slitting roller which is rotatably arranged above the front section of the dough sheet conveying belt in a lifting manner, a plurality of circumferential cutters are fixedly arranged on the periphery of the slitting roller, the plurality of circumferential cutters are provided with circumferential outer edge cutting edges, the plurality of circumferential cutters are arranged at intervals along the axial direction of the slitting roller, and the outer edge cutting edges of the plurality of circumferential cutters Xiang Qiedao are mutually flush and are used for slitting the dough sheet on the dough sheet conveying belt;

the dough sheet cutting device comprises a cutting roller which is rotatably arranged above the front section of the dough sheet conveying belt in a lifting manner, a plurality of axial cutters are fixedly arranged on the periphery of the cutter Duan Gun and are arranged at intervals along the circumferential direction of the cutter Duan Gun, and the axial cutters are provided with side edges parallel to the cutter Duan Gunzhou and are used for cutting dough sheets on the dough sheet conveying belt;

the dough sheet molding device comprises a molding roller which is rotatably arranged above the front section of the dough sheet conveying belt in a lifting manner, and a plurality of dies are arranged on the outer wall of the molding roller and used for molding dough sheets on the dough sheet conveying belt into a plurality of blocks;

and the rear section of the dough belt conveyor passes through the tunnel oven and is used for baking the dough section or the dough block on the dough belt conveyor.

Preferably, the noodle belt conveyor further comprises a flow dividing device, the flow dividing device is arranged at the tail end of the noodle belt conveyor, the flow dividing device comprises a strip-shaped biscuit conveyor and a block-shaped biscuit conveyor, the block-shaped biscuit conveyor is connected with the tail end of the noodle belt conveyor, the strip-shaped biscuit conveyor swings to be arranged above the block-shaped biscuit conveyor, and the strip-shaped biscuit conveyor swings to be connected with the tail end of the noodle belt conveyor when reaching a low position.

Preferably, the side wall of the block biscuit conveying belt is provided with a sliding groove arranged along the conveying direction, a sliding block is connected in the sliding groove in a sliding manner, the block biscuit conveying belt is close to the roller of the dough sheet conveying belt and is rotationally connected to the sliding block, the side wall of the block biscuit conveying belt is also provided with an adjusting block, a transverse screw is connected to the adjusting block in a threaded manner, one end of the transverse screw is rotationally connected with the sliding block, and the transverse screw is driven to transversely move by threads when rotating and is linked to move along the sliding groove.

Preferably, the adjusting block is further in threaded connection with a longitudinal screw, the upper end of the longitudinal screw is tightly attached to the strip-shaped biscuit conveying belt, and when the longitudinal screw rotates, the longitudinal screw is driven by threads to longitudinally move to push the strip-shaped biscuit conveying belt to swing and lift.

Preferably, the device further comprises a length screening device, the head end of the length screening device is connected with the tail end of the strip-shaped biscuit conveyor belt, the length screening device comprises a plurality of screening shafts which are arranged at intervals side by side, the screening shafts are arranged in an orthogonal mode with the conveying direction of the strip-shaped biscuit conveyor belt, and the screening shafts are driven to rotate by a screening driving device.

Preferably, the screening shaft outer wall is provided with a plurality of circumference grooves, the notch in a plurality of circumference grooves is followed the axial of screening shaft links to each other in proper order, and two adjacent circumference grooves on the screening shaft align each other.

Preferably, the plurality of die arrays are arranged on the outer wall of the die pressing roller, the plurality of dies are respectively provided with a first bevel edge and a second bevel edge which are parallel to each other, and in two adjacent dies, the first bevel edge of the former die is arranged in a manner of being attached to the second bevel edge of the latter die.

Preferably, the dough sheet slitting device further comprises a plurality of pressing rings, the plurality of pressing rings are respectively sleeved on the slitting roller, and the plurality of pressing rings are respectively arranged in the intervals among the plurality of circumferential cutters.

Preferably, the dough sheet slitting device further comprises a limiting roller, wherein the limiting roller is arranged on one side of the slitting roller facing the feeding direction of the dough sheet conveying belt and used for blocking the pressing rings, the pressing rings are biased towards one side of the slitting roller facing the feeding direction of the dough sheet conveying belt, and the outer diameter of the pressing rings is larger than that of the circumferential cutter.

Preferably, the noodle extruding device is arranged at the head end of the noodle conveyor belt and is used for extruding the noodle to the top surface of the noodle conveyor belt, the head end of the corner conveyor belt is connected with the top surface of the noodle conveyor belt and is used for receiving the leftover materials on the noodle conveyor belt, and the tail end of the corner conveyor belt is connected with the noodle extruding device and is used for conveying the leftover materials on the corner conveyor belt into the noodle extruding device for re-extrusion.

Compared with the prior art, the invention has the beneficial effects that:

a strip cutting roller, a strip cutting Duan Gun roller and a mould pressing roller are arranged above the dough cover conveying belt in a lifting manner, the strip cutting roller and the strip cutting roller are used for cutting strip-shaped dough covers, the mould pressing roller is used for cutting block-shaped dough covers, and the height of each roller is adjusted, so that the strip-shaped dough covers can be rapidly switched between a block biscuit production mode and a strip biscuit production mode;

when the strip biscuits enter the length screening device, two ends of the strip biscuits are supported and sent out by two adjacent screening shafts, and the strip biscuits with insufficient length can only fall from gaps between the two adjacent screening shafts, so that the strip biscuits with unsatisfactory length are screened out;

the corner conveyor belt is arranged, so that the molded or cut leftover materials are conveyed back to the dough sheet extruding device to be stirred and extruded again, the raw material utilization rate is high, and the automatic collection efficiency is higher;

the pressing ring is arranged in the dough sheet strip cutting device, so that the dough sheet can be prevented from sticking to the knife and plugging the knife, the dough sheet strip cutting can be continuously carried out without stopping a machine to clean the knife, the production efficiency is higher, and the labor intensity is lower;

the die arrangement in the dough sheet molding device is more compact, the number of the block dough sheets cut by pressing at the same running speed is more, and the production efficiency is higher.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present invention;

FIG. 2 is a schematic view of the overall structure of the lifting adjusting device;

FIG. 3 is a schematic view of the overall structure of the dough sheet slitting device;

FIG. 4 is a schematic view of the overall structure of the dough sheet molding device;

FIG. 5 is an enlarged view of FIG. 4 at A;

FIG. 6 is a schematic diagram of a stamp structure;

FIG. 7 is a schematic diagram of the overall structure of the shunt device;

FIG. 8 is an enlarged view of FIG. 7 at B;

FIG. 9 is a schematic view of the overall structure of the length screening apparatus;

fig. 10 is a schematic diagram of the overall structure of the screening shaft.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings of fig. 1 to 10.

Referring to fig. 1-10, an automatic biscuit production line for strip-shaped and block-shaped biscuits comprises a dough belt 1 for conveying dough, a dough slitting device 2 for slitting the dough on the dough belt 1, a dough slitting device 3 for slitting the dough on the dough belt 1, and a dough molding device 4 for molding the dough on the dough belt 1 into blocks.

The dough sheet slitting device 2 comprises a slitting roller 21 which is rotatably arranged above the front section of the dough sheet conveying belt 1 in a lifting manner, a plurality of circumferential cutters 22 are fixedly arranged on the periphery of the slitting roller 21, the circumferential cutters 22 are provided with circumferential outer edge cutting edges 28, the circumferential cutters 22 are axially arranged at intervals along the slitting roller 21, the outer edge cutting edges 28 of the circumferential cutters 22 are flush with each other, compression rings 23 are respectively arranged in intervals between the circumferential cutters 22, and the compression rings 23 are respectively sleeved on the slitting roller 21. When the dough sheet is clamped into the gap between the two circumferential cutters 22, the pressing ring 23 in the gap pushes out the dough sheet under the action of gravity, so that the dough sheet is prevented from being stuck on the circumferential cutters 22, shutdown cleaning work is not needed, and the production efficiency is greatly improved. The outer diameter of the pressing ring 23 is preferably larger than the outer diameter of the circumferential cutters 22 in this embodiment, ensuring that the pressing ring 23 pushes the dough sheet completely out of the gap between the circumferential cutters 22.

The slitting roller 21 is further sleeved with a plurality of cushion blocks 26, the cushion blocks 26 are arranged between the circumferential cutters 22, one end of the slitting roller 21 is provided with a stop block 25, the other end of the slitting roller 21 is in threaded connection with a clamping block 27, the circumferential cutters 22 and the cushion blocks 26 are mutually clamped between the stop block 25 and the clamping block 27, and the compression ring 23 is sleeved on the outer circumferential side of the cushion blocks 26. Thereby realizing that the circumferential cutter 22 is fixedly connected to the periphery of the cutter roller 21 and the compression ring 23 is movably sleeved on the cutter roller 21.

The limiting roller 24 is arranged on one side of the slitting roller 21 facing the feeding direction of the dough sheet conveying belt 1, and makes the plurality of pressing rings 23 deflect to one side of the slitting roller 21 facing the feeding direction of the dough sheet conveying belt 1, so that the dough sheet is pressed on the conveying belt 6 by the pressing rings 4 after leaving the circumferential cutter 22, and the noodles are not carried up along with the rotation of the circumferential cutter 2.

The dough sheet cutting device 3 comprises a cutting roller 31 which is rotatably arranged above the front section of the dough sheet conveying belt 1 in a lifting manner, a plurality of axial cutters 32 are fixedly arranged on the periphery of the cutting roller 31, the axial cutters are arranged at intervals along the circumference of the cutting roller 31, the axial cutters 32 are provided with side edges which are axially parallel to the cutting roller 31, and when the cutting roller 31 rotates, the dough sheets on the dough sheet conveying belt 1 are cut by the axial cutters 32.

The dough sheet molding device 4 comprises a molding roller 41 which is rotatably arranged above the front section of the dough sheet conveyor belt 1 in a lifting manner, a plurality of dies 42 are arranged on the outer wall array of the molding roller 41, the dies 42 are respectively provided with a first bevel edge 421 and a second bevel edge 422 which are parallel to each other and a pattern 425 for imprinting dough sheets, and the first bevel edge 421 of the former die 42 is arranged in a way of being stuck to the second bevel edge 422 of the latter die 42 in the two adjacent dies 42. The common stamp is square or rectangular, a certain space needs to be reserved between the edge of the stamp and the prints, so that enough space is reserved at four corners of the stamp for drilling mounting holes, after the stamp array is arranged, the density of the prints is low, a lot of gaps are reserved, when the stamp is molded on the face skin, the more the gaps among the prints are, the more the leftover materials are, the more the edges of the stamp 42 are tightly adhered to the prints 425, the prints are arranged more tightly, and the space is reserved at two opposite corners of the stamp 42 by arranging the edges of the stamp 42 into the first bevel edge 421 and the second bevel edge 422 for arranging the first mounting holes 423 and the second mounting holes 424, and the screws lock the stamp 42 on the molding roller 42 through the first mounting holes 423 and the second mounting holes 424.

The rear section of the dough belt 1 passes through a tunnel oven 5 for baking the dough sections or pieces on the dough belt 1 into biscuits.

The two sides of the dough cover conveyor belt 1 are fixedly provided with a plurality of lifting adjusting devices 11, two ends of the slitting roller 21, the slitting Duan Gun and the molding roller 41 are respectively and rotatably connected to the lifting adjusting devices 11, so that the slitting roller 21, the slitting Duan Gun and the molding roller 41 can be respectively adjusted in height, and when the strip biscuits are required to be produced, the molding roller 41 is lifted to leave the dough cover, and the slitting roller 21 and the slitting Duan Gun 31 are lowered to contact the dough cover to cut the dough cover into strips and sections; when it is desired to produce a lump of biscuit, the slitter roll 21, the slitter Duan Gun 31 are raised off the wrapper and the embossing roll 41 is lowered into contact with the wrapper to imprint the wrapper into a number of lumps.

The lifting adjusting device 11 preferably comprises a mounting frame 111, a sliding seat 112 and a screw 114, wherein the lower side of the mounting frame 111 is fixedly arranged on two sides of the dough sheet conveying belt 1, vertical sliding rails are respectively arranged on two sides of the mounting frame 111, two ends of the sliding seat 112 are respectively connected with the vertical sliding rails on two sides of the mounting frame 111 in a sliding manner, the upper section of the screw 114 is in threaded connection with the upper side of the mounting frame 111, the lower end of the screw 114 is in sliding clamping with the sliding seat 112, the screw 114 is driven to lift under the threaded driving when rotating, the sliding seat 112 is in linkage with the lifting of the sliding seat, and two ends of the slitting roller 21, the slitting roller Duan Gun and the molding roller 41 are respectively connected in the sliding block mounting holes 113 in a rotating manner.

The tail end of the dough cover conveyor belt 1 is connected with the distribution device 7, the distribution device 7 comprises a block biscuit conveyor belt 71 and a strip biscuit conveyor belt 72, the block biscuit conveyor belt 71 is connected with the tail end of the dough cover conveyor belt 1, and the strip biscuit conveyor belt 72 is arranged above the block biscuit conveyor belt 71 and swings around a rotating shaft 721.

The lateral wall of the block biscuit conveying belt 71 is provided with a sliding groove 716 arranged along the conveying direction, a sliding block 712 is connected in the sliding groove 716 in a sliding way, a roller 711 of the block biscuit conveying belt 71, which is close to the dough sheet conveying belt 1, is rotationally connected to the sliding block 712, an adjusting block 713 is fixedly connected to the lateral wall of the block biscuit conveying belt 71, a transverse screw 714 is connected to the adjusting block 713 in a threaded way, one end of the transverse screw 715 is rotationally connected with the sliding block 712, the transverse screw 714 is driven to transversely move by threads when rotating, and the sliding block 712 is linked to move along the sliding groove 716, so that the roller 711 retreats towards the direction far away from the dough sheet conveying belt 1.

The adjusting block 713 is also connected with a longitudinal screw rod 715 in a threaded manner, a stop block 722 is fixedly connected to the side wall of the strip biscuit conveyor 72, the upper end of the longitudinal screw rod 715 is tightly attached to the stop block 722, the longitudinal screw rod 715 is driven by threads to longitudinally move when rotating, and the stop block 722 is propped to move the strip biscuit conveyor 72 to swing and lift around the rotating shaft 721. Roller 711 withdraws away from the dough belt 1, allowing room for the strip biscuit conveyor 72 to descend to meet the dough belt 1. By adjusting the transverse screw 714 and the longitudinal screw 715, the strip biscuit conveyor 72 or the block biscuit conveyor 71 can be selectively brought into contact with the dough sheet conveyor 1, so that the strip biscuit 82 or the block biscuit 83 can be fed out separately into different subsequent production processes, instead of being fed out mixed together.

The end of the strip biscuit conveyor 72 is connected with the head end of the length screening device 6, the length screening device 6 comprises a left frame 62, a right frame 63 and a plurality of screening shafts 61 which are arranged at intervals side by side, two ends of each of the screening shafts 61 are respectively connected to the left frame 62 and the right frame 63 in a rotating mode, the screening shafts 61 are arranged in an orthogonal mode with the conveying direction of the dough sheet conveyor 1, and the screening shafts 61 are driven to rotate by a screening driving device.

The outer wall of the screening shaft 61 is provided with a plurality of circumferential grooves 611, the notches of the plurality of circumferential grooves 611 are sequentially connected along the axial direction of the screening shaft 61, the circumferential grooves 611 on two adjacent screening shafts 61 are aligned with each other, and the circumferential grooves 611 comprise V-shaped grooves or U-shaped grooves, and the V-shaped grooves are preferably adopted in this embodiment.

When the strip biscuits 82 enter the length screening device 6, two ends of the strip biscuits 82 are supported and sent out by two adjacent screening shafts 61, and when the length of the strip biscuits 82 does not meet the requirement, the two ends of the strip biscuits 82 cannot be supported by the screening shafts 61 and fall from a gap between the two screening shafts 61, so that the screening of the length of the strip biscuits 82 is completed. And the strip biscuits 82 respectively fall into the circumferential grooves 611, so that the strip biscuits 82 are guided by the circumferential grooves to be uniformly oriented, and the subsequent packaging and other procedures are facilitated.

The head end of the dough sheet conveyer belt 1 is provided with a dough sheet extrusion device 8 for extruding dough sheets 81 to the top surface of the dough sheet conveyer belt 1, the head end of the corner conveyer belt 9 is connected with the top surface of the dough sheet conveyer belt 1, the head end of the corner conveyer belt 9 is preferably arranged behind the dough sheet slitting device 2 and the dough sheet molding device 4 and before the dough sheet slitting device 3, no matter the slitting or the molding is carried out, the leftover materials 91 at the moment are continuous dough sheets, the leftover materials can be directly and automatically conveyed by the corner conveyer belt 9, the manual taking and placing are not needed, the tail end of the corner conveyer belt 9 is arranged above a material inlet of the dough sheet extrusion device 8, and the leftover materials 91 on the corner conveyer belt 9 are fed into the dough sheet extrusion device 8 for stirring extrusion again.

The above embodiments are only for illustrating the technical concept and features of the present invention, and therefore, it is intended that the present invention can be understood by those skilled in the art and implemented according to the technical concept, and the present invention is not limited to the above embodiments, but modifications made according to the spirit and scope of the main technical solution of the present invention should be included in the scope of the present invention.

Claims

1. The utility model provides a cake automatic production line that cake, strip biscuit all are suitable for, its characterized in that includes:

the dough cover conveyor belt is used for conveying dough covers;

a tunnel oven through which the rear section of the dough belt conveyor passes for baking the dough section or dough piece on the dough belt conveyor;

the splitting device is arranged at the tail end of the flour sheet conveyor belt, the splitting device comprises a strip-shaped cookie conveyor belt and a block-shaped cookie conveyor belt, the block-shaped cookie conveyor belt is connected with the tail end of the flour sheet conveyor belt, the strip-shaped cookie conveyor belt is arranged above the block-shaped cookie conveyor belt in a swinging way, and the strip-shaped cookie conveyor belt is connected with the tail end of the flour sheet conveyor belt when swinging to a low position;

the side wall of the block biscuit conveying belt is provided with a sliding groove arranged along the conveying direction, a sliding block is connected in the sliding groove in a sliding way, a roller of the block biscuit conveying belt, which is close to the dough sheet conveying belt, is rotatably connected to the sliding block, the side wall of the block biscuit conveying belt is also provided with an adjusting block, a transverse screw rod is connected to the adjusting block in a threaded way, one end of the transverse screw rod is rotatably connected with the sliding block, and the transverse screw rod is driven by threads to move transversely when rotating and is linked to move along the sliding groove;

the length screening device, the head end of length screening device meets the setting with the end of strip biscuit conveyer belt, length screening device is including a plurality of screening axles that set up side by side interval, the screening axle with the direction of delivery quadrature setting of strip biscuit conveyer belt, the screening axle is by screening drive arrangement drive rotation.

2. The automatic biscuit production line applicable to both the block-shaped biscuit and the strip-shaped biscuit according to claim 1, wherein the adjusting block is further connected with a longitudinal screw in a threaded manner, the upper end of the longitudinal screw is tightly attached to the strip-shaped biscuit conveyor belt, and the longitudinal screw is driven by threads to longitudinally move when rotating so as to push the strip-shaped biscuit conveyor belt to swing and lift.

3. The automatic biscuit production line applicable to block-shaped and strip-shaped biscuits according to claim 1, wherein a plurality of circumferential grooves are formed in the outer wall of the screening shaft, the notches of the circumferential grooves are sequentially connected along the axial direction of the screening shaft, and the circumferential grooves on two adjacent screening shafts are mutually aligned.

4. The automatic biscuit production line applicable to both block-shaped and strip-shaped biscuits according to claim 1, wherein the plurality of die arrays are arranged on the outer wall of the molding roller, the plurality of dies are respectively provided with a first oblique side and a second oblique side which are parallel to each other, and the first oblique side of the former die is arranged to be attached to the second oblique side of the latter die in two adjacent dies.

5. The automatic biscuit production line applicable to both block-shaped and strip-shaped biscuits according to claim 1, wherein the dough sheet slitting device further comprises a plurality of press rings, the plurality of press rings are respectively sleeved on the slitting roller, and the plurality of press rings are respectively arranged in the intervals among the plurality of circumferential cutters.

6. The automatic biscuit production line applicable to both block-shaped and strip-shaped biscuits according to claim 5, wherein the dough sheet slitting device further comprises a limiting roller, the limiting roller is arranged on one side of the slitting roller facing the feeding direction of the dough sheet conveyor belt and used for blocking the plurality of pressing rings, the plurality of pressing rings are biased towards one side of the slitting roller facing the feeding direction of the dough sheet conveyor belt, and the outer diameter of the pressing rings is larger than that of the circumferential cutter.

7. The automatic biscuit production line applicable to both the block-shaped and strip-shaped biscuits according to any one of claims 1 to 6, further comprising a dough sheet extruding device and a corner conveyor belt, wherein the dough sheet extruding device is arranged at the head end of the dough sheet conveyor belt and is used for extruding dough sheets to the top surface of the dough sheet conveyor belt, the head end of the corner conveyor belt is connected with the top surface of the dough sheet conveyor belt and is used for receiving leftovers on the dough sheet conveyor belt, and the tail end of the corner conveyor belt is connected with the dough sheet extruding device and is used for conveying the leftovers on the corner conveyor belt into the dough sheet extruding device for re-extrusion.