阅读说明：本技术 一种饼干烘烤制作设备 (Biscuit toasts preparation equipment ) 是由 江城 于 2019-11-27 设计创作，主要内容包括：本发明公开了一种饼干烘烤制作设备,包括进料箱、烘烤箱和模具筒,所述烘烤箱安装在进料箱的一端,且烘烤箱的进料箱内部呈贯通设置,所述进料箱的内部两侧均水平焊接有承重板,且承重板的一端沿着烘烤箱的内壁延伸到外部,承重板的侧面与烘烤箱的内壁固定连接。饼干取放完毕后,接渣板上部的若干个高压风管能向模具筒的内外进行吹动风力,快速的气流将模具筒内外的附着的饼干杂质彻底的清除,模具筒能得到充分清洁,清洁速度快,效率高。后续再次使用时,无需手动清洁,能继续回到进料箱和烘烤箱的内部制作饼干。(The invention discloses biscuit baking and making equipment which comprises a feeding box, a baking box and a die cylinder, wherein the baking box is installed at one end of the feeding box, the interior of the feeding box of the baking box is arranged in a through mode, bearing plates are horizontally welded on two sides of the interior of the feeding box, one end of each bearing plate extends to the exterior along the inner wall of the baking box, and the side face of each bearing plate is fixedly connected with the inner wall of the baking box. After the biscuit is taken and placed, a plurality of high-pressure air pipes on the upper portion of the slag receiving plate can blow wind power to the inside and the outside of the mold cylinder, attached biscuit impurities inside and outside the mold cylinder can be thoroughly removed by the aid of quick air flow, the mold cylinder can be sufficiently cleaned, cleaning speed is high, and efficiency is high. When the biscuit baking box is used again, manual cleaning is not needed, and the biscuit baking box can continuously return to the feeding box and the baking box to make biscuits.)

1. The biscuit baking and manufacturing equipment is characterized by comprising a feeding box (1), a baking box (2) and a die cylinder (7), wherein the baking box (2) is installed at one end of the feeding box (1), the interior of the feeding box (1) of the baking box (2) is in through arrangement, bearing plates (4) are horizontally welded on two sides of the interior of the feeding box (1), one ends of the bearing plates (4) extend to the exterior along the inner wall of the baking box (2), and the side faces of the bearing plates (4) are fixedly connected with the inner wall of the baking box (2);

a base plate (6) is movably mounted between the end parts of the two bearing plates (4) far away from the baking box (2), second sliding grooves (12) are formed in the middle parts of opposite sides of the two bearing plates (4) along the length direction, moving plates (14) are connected to the two sides of the base plate (6) along the length direction, a rotating shaft (16) is rotatably mounted between the moving plates (14) on the two sides, the rotating shaft (16) is fixedly connected with the base plate (6), rollers (17) are rotatably mounted at the two ends of each moving plate (14), and the moving plates (14) are slidably mounted inside the second sliding grooves (12);

the die is characterized in that slide rails (30) are connected to two sides of the top of the base plate (6) along the length direction, a plurality of mounting plates (27) are slidably mounted at the top of each slide rail (30), a die cylinder (7) is mounted at the top of each mounting plate (27), side plates (15) are mounted on two sides of the upper portion of the base plate (6), positioning grooves (24) are arranged above the side plates (15) in a penetrating mode along the thickness direction, connecting plates (26) are mounted on the side surfaces of the mounting plates (27), the bottoms of the connecting plates (26) are connected with the side plates (15) through bolt rods and the positioning grooves (24), and a first vibration pump (5) is mounted at the;

a top plate (20) is mounted at the upper end inside the feeding box (1), two sides of the top plate (20) are connected with the top of the feeding box (1) through supports, moving grooves (23) are formed in the two sides of the top plate (20) along the length direction, a plurality of discharging barrels (19) are vertically mounted on two sides of the bottom of the top plate (20), and the tops of the discharging barrels (19) penetrate through the moving grooves (23) through positioning bolts (21) to be connected with the top plate (20);

the bottom of the two bearing plates (4) is connected with a slag receiving plate (9), and the top of the slag receiving plate (9) is provided with a plurality of high-pressure air pipes (10).

2. Biscuit baking making equipment according to claim 1, characterized in that the top of the feeding box (1) is equipped with a material box (3), and the material box (3) is connected with several discharging barrels (19) through pipes.

3. Biscuit baking making device according to claim 1, characterized in that the two opposite sides of the transverse plate (8) are provided with a first sliding groove (11) along the length direction in the middle, the length of the transverse plate (8) is smaller than that of the bearing plate (4), and the transverse plate (8) is arranged outside the baking oven (2).

4. Biscuit cooking and making device according to claim 1, characterized in that the top of the bearing plate (4) is connected at both ends with fastening bolts (13), the bottom of the fastening bolts (13) extending inside the second sliding groove (12).

5. Biscuit cooking and making device according to claim 1, characterized in that the moving plate (14) of one side is internally provided with a motor (18), and the output end of the motor (18) is connected with one end of a rotating shaft (16).

6. The biscuit baking and making device according to claim 1, wherein the upper end and the lower end of the inside of the second sliding groove (12) are connected with guide strips (22) along the length direction, a circle of clamping grooves are formed in the outer portion of the roller (17) along the circumferential direction, and the guide strips (22) are installed inside the clamping grooves.

7. Biscuit baking making equipment according to claim 1, characterized in that the top of the mould cylinder (7) is connected with a joint (29) by screw thread, the top of the joint (29) is connected with an end cylinder (28) integrally, the inside of the end cylinder (28) and the inside of the joint (29) and the mould cylinder (7) are arranged in a penetrating way, and the inside diameters of the end cylinder (28) and the joint (29) are larger than the inside diameter of the mould cylinder (7).

8. Biscuit baking and making device according to claim 7, characterized in that the second vibrating pump (32) is installed on both sides of the inside of the end cylinder (28), the heating plate (31) is installed inside the end cylinder (28), and the exhaust pipe (25) is connected through the lower part of the end cylinder (28).

9. The biscuit cooking device of claim 1, wherein the biscuit cooking device comprises the following steps:

the method comprises the following steps: selecting a matched mould cylinder (7) according to the type of the biscuit to be made, and fixedly mounting the bottom of the mould cylinder (7) and a mounting plate (27); the mounting plate (27) is pushed to move on the upper part of the slide rail (30), and the distance between the die cylinders (7) is adjusted; screwing the positioning bolts (21) to change the number of the discharging barrels (19) so that the number of the die barrels (7) is the same as that of the discharging barrels (19); and the discharging barrels (19) are pushed to move along the moving groove (23) below the top plate (20), so that the distance between two adjacent discharging barrels (19) is the same as the distance between two adjacent die barrels (7);

step two: biscuit raw materials to be used are placed inside the material box (3), and the material box (3) is connected with a plurality of discharging barrels (19) through pipelines; the roller (17) rotates to drive the movable plate (14) and the base plate (6) to move between the two bearing plates (4); thereby driving a plurality of die cylinders (7) to enter the feeding box (1); when the biscuit is made, the discharging barrel (19) injects a preset amount of raw materials into the die barrel (7); the first vibration pump (5) and the second vibration pump (32) operate to generate vibration force on the base plate (6), raw materials are fully contacted with the inner wall in the die cylinder (7), and the grains at the bottom are uniformly contacted with the raw materials;

step three: after the raw materials are poured, the roller (17) drives the base plate (6) to move into the baking box (2), and the baking box (2) bakes the biscuit raw materials in the die cylinder (7); after the biscuit baking is finished, the roller (17) drives the base plate (6) to move out of the baking box (2); after the base plate (6) moves to the outside and stops, the two sides of the container plate for containing biscuits are clamped in the first sliding groove (11), and the container plate is pushed to move between the two transverse plates (8) until the container plate moves to the position right below the base plate (6); the motor (18) drives the base plate (6) to rotate between the two bearing plates (4) through the rotating shaft (16); the mould cylinder (7) is driven to rotate downwards, and in the rotating process, the biscuit chippings falling downwards are absorbed by the air exhaust pipe (25); the first vibration pump (5) and the second vibration pump (32) operate to generate vibration force to the mould cylinder (7), so that biscuits formed in the mould cylinder fall off and fall on the upper part of the container plate;

step four: taking the container plate away after the biscuit is taken and placed; a plurality of high-pressure air pipes (10) at the upper part of the slag receiving plate (9) blow wind power to the inside and the outside of the mould cylinder (7), the biscuit impurities attached to the inside and the outside of the mould cylinder (7) are removed by fast air flow, and the mould cylinder (7) is cleaned; when the baked biscuit is used again subsequently, the baked biscuit is circularly made according to the steps without manual cleaning.

Technical Field

The invention relates to baking and making equipment, in particular to biscuit baking and making equipment, and belongs to the field of biscuit processing application.

Background

The main raw material of the biscuit is wheat flour, and auxiliary materials such as sugar, grease, egg products, dairy products and the like are added. According to different formulas and production processes, sweet biscuits can be divided into tough biscuits and crisp biscuits. After the biscuit raw materials are mixed, the biscuit is usually baked and formed.

However, the existing biscuit baking equipment still has certain defects in use. The existing biscuit baking equipment is simple in structure, and biscuits are placed inside a model and then baked and molded at high temperature. The biscuit taking and placing needs manual operation, the operation is troublesome, and the working efficiency is low. The biscuit is not fully contacted with the inner wall of the model in the baking process, and the biscuit forming effect is not good. The biscuits are brittle and not compact enough after baking. And the scraps generated after the biscuit baking are difficult to clean, so that the quality of the biscuit is influenced. The inside of the biscuit model is troublesome to clean, and impurities of the biscuit are easy to adhere to the biscuit model, so that the subsequent biscuit is influenced to be made again.

Disclosure of Invention

The invention aims to provide biscuit baking and making equipment which can solve the problems that the existing biscuit taking and placing needs manual operation, the operation is troublesome and the working efficiency is low. The biscuit is not fully contacted with the inner wall of the model in the baking process, and the biscuit forming effect is not good. The biscuits are brittle and not compact enough after baking. And the scraps generated after the biscuit baking are difficult to clean, so that the quality of the biscuit is influenced. The inside of the biscuit model is troublesome to clean, and impurities of the biscuit are easy to adhere to, so that the technical problem of secondary making of the follow-up biscuit is influenced.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides a biscuit toasts preparation equipment, includes the feeding case, toasts case and mould section of thick bamboo, toast the case and install the one end at the feeding case, and toast the feeding incasement portion of case and be and link up the setting, the equal horizontal welding in inside both sides of feeding case has the bearing plate, and the one end of bearing plate extends to the outside along toasting the inner wall of case, the side of bearing plate and toast the inner wall fixed connection of case.

Movable mounting has the bed plate between the tip that toasts the case is kept away from to two bearing plates, and the middle part of two bearing plates one side of making up mutually all is provided with the second sliding tray along length direction, the both sides of bed plate all are connected with the movable plate along length direction, rotate between the movable plate of both sides and install the pivot, pivot and bed plate fixed connection, the gyro wheel is all installed in the rotation in the both ends of movable plate, movable plate slidable mounting is in the inside of second sliding tray.

The utility model discloses a vibrating pump, including bed plate, curb plate, constant head tank, mounting panel, bolt bar, constant head tank, first reciprocating pump, slide rail, a mould section of thick bamboo, curb plate, constant head tank, mounting panel, base plate, the top both sides of bed plate all are connected with the slide rail along length direction, and the top slidable mounting of slide rail has a plurality of mounting panel, and a mould section of thick bamboo is installed at the top of mounting panel, and the curb plate is all installed to the top both sides of bed.

The feeding device comprises a feeding box, a top plate, a plurality of discharging barrels, a positioning bolt, a support and a plurality of guide rails, wherein the top plate is arranged at the upper end inside the feeding box, two sides of the top plate are connected with the top of the feeding box through the support, moving grooves are formed in two sides of the top plate along the length direction, the discharging barrels are vertically arranged on two sides of the bottom of the top plate, and the tops of the discharging barrels penetrate through the moving grooves and are;

the bottom of two bearing plates is connected with a slag receiving plate, and the top of the slag receiving plate is provided with a plurality of high-pressure air pipes.

Preferably, the top of the feeding box is provided with a material box, and the material box is connected with the plurality of discharging barrels through pipelines.

Preferably, two the opposite one side middle part of diaphragm all is provided with first sliding tray along length direction, and the length of diaphragm is less than the length of bearing plate, and the diaphragm setting is in the outside of toasting the case.

Preferably, both ends of the top of the bearing plate are connected with fastening bolts, and the bottoms of the fastening bolts extend into the second sliding groove.

Preferably, a motor is installed inside the moving plate on one side, and an output end of the motor is connected with one end of the rotating shaft.

Preferably, both ends all are connected with the gib block along length direction about the inside of second sliding tray, and the outside of gyro wheel is provided with the round joint groove along the circumferencial direction, and the gib block is installed in the inside in joint groove.

Preferably, the top of the mold cylinder is in threaded connection with a joint, the top of the joint is integrally connected with an end cylinder, the inside of the end cylinder and the inside of the joint and the mold cylinder are all communicated, and the inside diameters of the end cylinder and the joint are larger than the inside diameter of the mold cylinder.

Preferably, the second vibration pump is installed on both sides of the inside of the end part barrel, the heating plate is installed inside the end part barrel, and the exhaust pipe is connected below the end part barrel in a penetrating manner.

Preferably, the biscuit baking and making equipment comprises the following specific steps:

the method comprises the following steps: selecting a matched die cylinder according to the type of biscuits to be made, and fixedly mounting the bottom of the die cylinder and a mounting plate; the mounting plate is pushed to move on the upper part of the slide rail, and the distance between the die cylinders is adjusted; screwing the positioning bolts to change the number of the discharging barrels, so that the number of the die barrels is the same as that of the discharging barrels; the discharging barrels are pushed to move below the top plate along the moving groove, so that the distance between every two adjacent discharging barrels is the same as the distance between every two adjacent die barrels;

step two: biscuit raw materials to be used are placed inside a material box, and the material box is connected with a plurality of discharging barrels through pipelines; the rollers rotate to drive the movable plate and the base plate to move between the two bearing plates; thereby driving a plurality of die cylinders to enter the feeding box; when the biscuit is made, a discharging barrel injects a predetermined amount of raw materials into the die barrel; the first vibration pump and the second vibration pump operate to generate vibration force on the base plate, the raw materials are fully contacted with the inner wall in the die cylinder, and the grains at the bottom are uniformly contacted with the raw materials;

step three: after the raw materials are filled, the roller drives the base plate to move into a baking box, and the baking box bakes the biscuit raw materials in the die cylinder; after the biscuit baking is finished, the roller drives the base plate to move out of the baking box; after the base plate moves to the outside and stops moving, clamping two sides of the container plate for containing biscuits in the first sliding groove, and pushing the container plate to move between the two transverse plates until the container plate moves to the position right below the base plate; the motor drives the base plate to rotate between the two bearing plates through the rotating shaft; the mould cylinder is driven to rotate downwards, and in the rotating process, the air exhaust pipe absorbs the biscuit fragments falling downwards; the first vibration pump and the second vibration pump operate to generate vibration force to the die cylinder, so that biscuits formed in the die cylinder fall off and fall on the upper part of the container plate;

step four: taking the container plate away after the biscuit is taken and placed; a plurality of high-pressure air pipes on the upper part of the slag receiving plate blow wind power to the inside and the outside of the mould cylinder, and the biscuit impurities attached to the inside and the outside of the mould cylinder are removed by fast airflow, so that the mould cylinder is cleaned; when the baked biscuit is used again subsequently, the baked biscuit is circularly made according to the steps without manual cleaning.

The invention has the beneficial effects that:

1. through the installation of the die cylinder and the slide rail, the installation plate is pushed to move on the upper portion of the slide rail during work, the distance between the die cylinders is adjusted, and different work requirements are met. The bolt bar of twisting connecting plate one end, the bolt bar runs through constant head tank and curb plate fixed connection, and then fixes the mounting panel for mounting panel in use is difficult for rocking, and the position is stable, and the butt joint of mould section of thick bamboo ability accuracy and play feed cylinder. After the die cylinder is installed, the positioning bolts are screwed, and the number of the discharge cylinders is changed according to the number of the die cylinders, so that the die cylinders and the discharge cylinders are the same in number. And promote out the feed cylinder and remove in the below of roof along the shifting chute for distance between two adjacent feed cylinders is the same with the distance between two adjacent mould section of thick bamboo, and then has guaranteed that the bed plate enters into the inside back of feeding box, and the mould section of thick bamboo can be in under the feed cylinder, goes out the inside that the inside biscuit raw materials of feed cylinder can be accurate enters into the mould section of thick bamboo, and difficult emergence is unrestrained, and accuracy and convenience are promoted.

2. Through the inside at the bearing plate set up the second sliding tray for in-service driving motor drives the gyro wheel and rotates, and then drives movable plate and bed plate and remove between two bearing plates. When the gyro wheel rolled in the inside of second sliding tray, the gyro wheel and the inside gib block joint at both ends about, the gib block can restrict the direction that the gyro wheel removed, makes its removal stable, can not drop from the inside of second sliding tray. When the movable plate moves in the second sliding groove, the movable plate is limited by the fastening bolts at the two ends of the bearing plate, so that the movable plate cannot fall off from the two ends, and meanwhile, the movable plate can be conveniently positioned in the moving process of the base plate, and the die cylinder can be positioned under the discharge cylinder after the base plate is blocked and stopped in the feeding box.

3. Through installing the vibrating pump for during biscuit preparation, the ejection of compact section of thick bamboo pours into the raw and other materials of predetermined volume into the inside of mould section of thick bamboo. First reciprocating pump and second reciprocating pump operation produce the vibrations power to the bed plate, and then make raw and other materials can be with the abundant contact of inner wall in the inside of a mould section of thick bamboo, and the line of bottom can be even with raw and other materials contact, and the biscuit is inside inseparable, the breakable easy cracked phenomenon after the stoving can not appear, can improve the quality of biscuit. First reciprocating pump and second reciprocating pump vibrations simultaneously can make the raw and other materials that adhere to in the inside of an end section of thick bamboo fall into the inside of a mould section of thick bamboo, guarantees that the raw and other materials can obtain abundant utilization, and be difficult for extravagant.

4. Through the mid-mounting pivot at the bed plate for after the biscuit toasted, the gyro wheel can drive the bed plate and shift out from the inside of toasting the case. The bed plate removes the outside back that stops, and the container board both sides joint that will hold the biscuit is in the inside of first sliding tray, promotes the container board and removes between two diaphragms until the container board removes under the bed plate. The motor can drive the base plate to rotate between the two bearing plates through the rotating shaft. Drive a mould section of thick bamboo and rotate downwards, rotate the in-process, the biscuit piece that the exhaust column will drop downwards absorbs, and the piece can not fall into the upper portion of container board. The top of the die cylinder faces and is perpendicular to the container plate. The first vibration pump and the second vibration pump operate to generate vibration force to the die cylinder, the biscuits formed inside fall off, and the biscuits can fall on the upper portion of the container plate to be stably placed. The biscuit can not bond in the inside of a mould section of thick bamboo, makes things convenient for getting of biscuit to put. Need not to get by hand and put, work efficiency obtains promoting.

5. Through the upper portion installation a plurality of high-pressure tuber pipe that connects the sediment board for the biscuit is got and is put the back that finishes, connects a plurality of high-pressure tuber pipe on sediment board upper portion and can blow wind-force to the inside and outside of mould section of thick bamboo, and the inside and outside adnexed biscuit impurity of mould section of thick bamboo is thoroughly clear away to quick air current, and a mould section of thick bamboo can obtain fully clean, and clean fast, efficient. When the biscuit baking box is used again, manual cleaning is not needed, and the biscuit baking box can continuously return to the feeding box and the baking box to make biscuits.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the mounting structure of the bearing plate of the present invention.

FIG. 3 is a schematic view of the structure of the base plate of the present invention.

Fig. 4 is a schematic diagram of the moving plate structure of the present invention.

FIG. 5 is a schematic view of the internal structure of the feed box of the present invention.

FIG. 6 is a schematic view of the top plate structure of the present invention.

Fig. 7 is an exploded perspective view of fig. 3 according to the present invention.

Fig. 8 is a schematic structural view of the die cylinder of the present invention.

Fig. 9 is a schematic view of the internal structure of the end cartridge of the present invention.

In the figure: 1. a feeding box; 2. a baking oven; 3. a material box; 4. a bearing plate; 5. a first vibration pump; 6. a base plate; 7. a mold cylinder; 8. a transverse plate; 9. a slag receiving plate; 10. a high pressure air duct; 11. a first sliding groove; 12. a second sliding groove; 13. fastening a bolt; 14. moving the plate; 15. a side plate; 16. a rotating shaft; 17. a roller; 18. a motor; 19. a discharging barrel; 20. a top plate; 21. positioning the bolt; 22. a guide strip; 23. a moving groove; 24. positioning a groove; 25. an exhaust pipe; 26. a connecting plate; 27. mounting a plate; 28. an end barrel; 29. a joint; 30. a slide rail; 31. heating plates; 32. and a second oscillating pump.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, a biscuit baking and making device comprises a feeding box 1, a baking box 2 and a mold cylinder 7, wherein the baking box 2 is installed at one end of the feeding box 1, the interior of the feeding box 1 of the baking box 2 is arranged in a through manner, bearing plates 4 are horizontally welded at two sides of the interior of the feeding box 1, one end of each bearing plate 4 extends to the outside along the inner wall of the baking box 2, and the side surfaces of the bearing plates 4 are fixedly connected with the inner wall of the baking box 2;

a base plate 6 is movably mounted between the end parts of the two bearing plates 4 far away from the baking oven 2, second sliding grooves 12 are formed in the middle parts of opposite sides of the two bearing plates 4 along the length direction, moving plates 14 are connected to the two sides of the base plate 6 along the length direction, a rotating shaft 16 is rotatably mounted between the moving plates 14 on the two sides, the rotating shaft 16 is fixedly connected with the base plate 6, rollers 17 are rotatably mounted at the two ends of the moving plates 14, and the moving plates 14 are slidably mounted in the second sliding grooves 12;

the two sides of the top of the base plate 6 are both connected with sliding rails 30 along the length direction, a plurality of mounting plates 27 are slidably mounted at the tops of the sliding rails 30, a mold cylinder 7 is mounted at the top of each mounting plate 27, side plates 15 are mounted at the two sides of the upper portion of the base plate 6, positioning grooves 24 are penetratingly formed in the thickness direction above the side plates 15, connecting plates 26 are mounted on the side surfaces of the mounting plates 27, the bottoms of the connecting plates 26 are connected with the side plates 15 through bolt rods and the positioning grooves 24, and a first vibration pump 5 is mounted at the bottom of the;

a top plate 20 is installed at the upper end inside the feeding box 1, two sides of the top plate 20 are connected with the top of the feeding box 1 through supports, moving grooves 23 are formed in two sides of the top plate 20 along the length direction, a plurality of discharging barrels 19 are vertically installed on two sides of the bottom of the top plate 20, and the tops of the discharging barrels 19 penetrate through the moving grooves 23 through positioning bolts 21 and are connected with the top plate 20;

the bottoms of the two bearing plates 4 are both connected with a slag receiving plate 9, and the top of the slag receiving plate 9 is provided with a plurality of high-pressure air pipes 10.

The top of the feeding box 1 is provided with a material box 3, and the material box 3 is connected with a plurality of discharging barrels 19 through pipelines.

The middle part of one side that two diaphragm 8 are mutually opposite all is provided with first sliding tray 11 along length direction, and the length of diaphragm 8 is less than the length of bearing plate 4, and diaphragm 8 sets up in the outside of toasting case 2, and first sliding tray 11 makes things convenient for receiving container's installation to dismantle.

Fastening bolts 13 are connected to two ends of the top of the bearing plate 4, the bottoms of the fastening bolts 13 extend into the second sliding groove 12, and when the movable plate 14 moves in the second sliding groove 12, the movable plate is limited by the fastening bolts 13 at two ends of the bearing plate 4, so that the movable plate cannot fall from two ends, the base plate 6 can be conveniently positioned in the moving process, and the die cylinder 7 can be located under the discharge cylinder 19 after the base plate 6 is blocked and stopped in the feeding box 1.

A motor 18 is arranged in the moving plate 14 on one side, the output end of the motor 18 is connected with one end of a rotating shaft 16, and the motor 18 can drive the base plate 6 to rotate between the two bearing plates 4.

Both ends all are connected with gib block 22 along length direction about the inside of second sliding tray 12, and gyro wheel 17's outside is provided with round joint groove along the circumferencial direction, and gib block 22 is installed in the inside in joint groove, and gyro wheel 17 rolls in the inside of second sliding tray 12, and gyro wheel 17 and the gib block 22 joint at inside upper and lower both ends, gib block 22 can restrict the direction that gyro wheel 17 removed, makes its removal stable, can not drop from the inside of second sliding tray 12.

The top of the die cylinder 7 is connected with a joint 29 through threads, the top of the joint 29 is integrally connected with an end cylinder 28, the inside of the end cylinder 28 is communicated with the joint 29 and the inside of the die cylinder 7, and the inside diameters of the end cylinder 28 and the joint 29 are larger than the inside diameter of the die cylinder 7.

Second shock pump 32 is all installed to the inside both sides of a tip section of thick bamboo 28, and the internally mounted of a tip section of thick bamboo 28 has hot plate 31, and the below through connection of a tip section of thick bamboo 28 has exhaust column 25, and impurity can be got rid of to the shock pump for raw and other materials are even with the inside contact of a mould section of thick bamboo 7, and exhaust column 25 can absorb the piece impurity that drops.

The biscuit baking and making equipment comprises the following specific steps:

the method comprises the following steps: selecting a matched die cylinder 7 according to the type of biscuits to be made, and fixedly mounting the bottom of the die cylinder 7 and a mounting plate 27; and pushes the mounting plate 27 to move on the upper part of the slide rail 30, and the distance between the die cylinders 7 is adjusted; screwing the positioning bolts 21 to change the number of the discharging barrels 19, so that the number of the die barrels 7 is the same as that of the discharging barrels 19; and pushes the discharging cylinders 19 to move along the moving groove 23 under the top plate 20, so that the distance between two adjacent discharging cylinders 19 is the same as the distance between two adjacent die cylinders 7;

step two: biscuit raw materials to be used are placed inside the material box 3, and the material box 3 is connected with a plurality of discharging barrels 19 through pipelines; the roller 17 rotates to drive the moving plate 14 and the base plate 6 to move between the two bearing plates 4; thereby driving a plurality of die cylinders 7 to enter the interior of the feeding box 1; when the biscuit is made, the discharging barrel 19 injects a predetermined amount of raw materials into the die barrel 7; the first vibration pump 5 and the second vibration pump 32 operate to generate vibration force on the base plate 6, the raw materials are fully contacted with the inner wall in the die cylinder 7, and the grains at the bottom are uniformly contacted with the raw materials;

step three: after the raw materials are filled, the roller 17 drives the base plate 6 to move into the baking box 2, and the baking box 2 bakes the biscuit raw materials in the die cylinder 7; after the biscuit baking is finished, the roller 17 drives the base plate 6 to move out of the baking box 2; after the base plate 6 moves to the outside and stops, the two sides of the container plate for containing biscuits are clamped in the first sliding groove 11, and the container plate is pushed to move between the two transverse plates 8 until the container plate moves to the position right below the base plate 6; the motor 18 drives the base plate 6 to rotate between the two bearing plates 4 through the rotating shaft 16; the mould cylinder 7 is driven to rotate downwards, and in the rotating process, the air exhaust pipe 25 absorbs the biscuit chippings falling downwards; the first vibration pump 5 and the second vibration pump 32 are operated to generate vibration force to the mould cylinder 7, so that the biscuits formed in the mould cylinder fall off and fall on the upper part of the container plate;

step four: taking the container plate away after the biscuit is taken and placed; a plurality of high-pressure air pipes 10 on the upper part of the slag receiving plate 9 blow wind power to the inside and the outside of the mold cylinder 7, the biscuit impurities attached to the inside and the outside of the mold cylinder 7 are removed by fast airflow, and the mold cylinder 7 is cleaned; when the baked biscuit is used again subsequently, the baked biscuit is circularly made according to the steps without manual cleaning.

When the biscuit making machine is used, the matched die cylinder 7 is selected according to the type of biscuits to be made, and the bottom of the die cylinder 7 is fixedly installed with the installation plate 27. And the mounting plate 27 is pushed to move on the upper part of the slide rail 30, so that the distance between the die cylinders 7 is adjusted, and different working requirements are met. The bolt rod at one end of the connecting plate 26 is screwed, penetrates through the positioning groove 24 and the side plate 15 to be fixedly connected, and further fixes the mounting plate 27, so that the mounting plate 27 is not prone to shaking in use, the position is stable, and the mold cylinder 7 can be accurately butted with the discharge cylinder 19. After the die cylinder 7 is installed, the positioning bolts 21 are screwed, and the number of the discharging cylinders 19 is changed according to the number of the die cylinders 7, so that the die cylinders 7 and the discharging cylinders 19 are the same in number. And promote play feed cylinder 19 and remove in the below of roof 20 along shifting chute 23 for distance between two adjacent play feed cylinders 19 is the same with the distance between two adjacent mould section of thick bamboo 7, and then has guaranteed that bed plate 6 enters into the inside back of feed box 1, and mould section of thick bamboo 7 can be in under the play feed cylinder 19, and the inside that enters into mould section of thick bamboo 7 of the inside biscuit raw materials of play feed cylinder 19 ability is accurate, is difficult for taking place unrestrained, and accuracy and convenience are promoted.

Biscuit raw materials to be used are placed inside the material box 3, and the material box 3 is connected with a plurality of discharging barrels 19 through pipelines. The driving motor drives the rollers 17 to rotate, and further drives the moving plate 14 and the base plate 6 to move between the two bearing plates 4. So that a number of mould cylinders 7 can be driven into the interior of the feed box 1. When the roller 17 rolls in the second sliding groove 12, the roller 17 is clamped with the guide strips 22 at the upper end and the lower end of the inside, and the guide strips 22 can limit the moving direction of the roller 17, so that the roller 17 can move stably and cannot fall off from the inside of the second sliding groove 12. Meanwhile, when the moving plate 14 moves in the second sliding groove 12, the moving plate is limited by the fastening bolts 13 at the two ends of the bearing plate 4, so that the moving plate cannot fall off from the two ends, and meanwhile, the base plate 6 can be conveniently positioned in the moving process, and the mold cylinder 7 can be positioned right below the discharge cylinder 19 after the base plate 6 is blocked and stopped in the feeding box 1.

In the biscuit production, the discharge cylinder 19 injects a predetermined amount of raw material into the die cylinder 7. First reciprocating pump 5 and the operation of second reciprocating pump 32 produce the vibrations power to bed plate 6, and then make raw and other materials can be with the abundant contact of inner wall in the inside of a mould section of thick bamboo 7, the line ability of bottom is even with raw and other materials contact, and the biscuit is inside inseparable, the breakable easy cracked phenomenon after the stoving can not appear, can improve the quality of biscuit. The first vibration pump 5 and the second vibration pump 32 vibrate simultaneously to make the raw material attached to the inside of the end barrel 28 fall into the inside of the mold barrel 7, thereby ensuring that the raw material can be fully utilized and is not easy to waste.

Raw and other materials fill the back that finishes, and gyro wheel 17 drives bed plate 6 and removes the inside of toasting case 2, toasts the inside biscuit raw and other materials of mould section of thick bamboo 7 of case 2. Meanwhile, the heating plate 31 in the end barrel 28 is also heated, so that the drying efficiency of the biscuits is improved. After the biscuit baking is finished, the roller 17 drives the base plate 6 to move out of the baking box 2. Base plate 6 removes outside back that stops, and the container board both sides joint that will hold the biscuit is in the inside of first sliding tray 11, promotes the container board and removes between two diaphragm 8 until the container board removes under base plate 6. The motor 18 drives the base plate 6 to rotate between the two bearing plates 4 through the rotating shaft 16. The mould cylinder 7 is driven to rotate downwards, in the rotating process, the air exhaust pipe 25 absorbs the biscuit fragments falling downwards, and the fragments cannot fall into the upper part of the container plate. The top of the die cylinder 7 faces and is perpendicular to the container plate. The first and second vibration pumps 5 and 32 are operated to generate vibration force to the mold cylinder 7, and the internally formed biscuits are dropped and can be stably placed on the upper portion of the container plate. The biscuit can not be bonded inside the mould cylinder 7, so that the biscuit can be conveniently taken and placed. Need not to get by hand and put, work efficiency obtains promoting.

And taking the container plate away after the biscuit is taken and placed. The high-pressure air pipes 10 on the upper portion of the slag receiving plate 9 blow wind power to the inside and the outside of the mold cylinder 7, attached biscuit impurities inside and outside the mold cylinder 7 are thoroughly removed by fast air flow, the mold cylinder 7 can be fully cleaned, the cleaning speed is fast, and the efficiency is high. When the biscuit is used again, the biscuit can be continuously returned to the interior of the feeding box 1 and the baking box 2 for making biscuits without manual cleaning. According to the method, the baked biscuits can be made in a circulating mode, and the biscuits can be made quickly.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.