CN116588597A

CN116588597A - Prefabricated food material throwing mechanism

Info

Publication number: CN116588597A
Application number: CN202310525819.9A
Authority: CN
Inventors: 万勇
Original assignee: Shenzhen Zhimi Technology Agriculture Co ltd
Current assignee: Shenzhen Zhimi Technology Agriculture Co ltd
Priority date: 2023-05-10
Filing date: 2023-05-10
Publication date: 2023-08-15

Abstract

The embodiment of the application provides a prefabricated food material throwing mechanism, which comprises: the feeding mechanism of the material package form type prefabricated food materials is arranged in the prefabricated food material feeding area and is used for feeding the prefabricated food materials in the prefabricated food material package; the box-packed type prefabricated food material throwing mechanism is arranged in the prefabricated food material throwing area and is vertically arranged in parallel with the material package type prefabricated food material throwing mechanism, and the box-packed type prefabricated food material throwing mechanism is used for throwing prefabricated food materials in a prefabricated food material box. The cooking efficiency of prefabricated food material in prefabricated food material package or the prefabricated food material box can effectively be improved to this scheme.

Description

Prefabricated food material throwing mechanism

Technical Field

The embodiment of the application relates to the technical field of food material cooking, in particular to a prefabricated food material throwing mechanism.

Background

The prepared dishes are widely classified into instant foods (instant foods after opening a bag), instant foods (instant foods after heating, for example, a food package), instant foods (cooked foods after heating and seasoning by clinker), instant foods (small meats, fresh clean dishes, etc. which are primarily processed by washing, cutting, etc. of meats, poultry, fishes, vegetables) and the like, according to the deep processing degree and the eating convenience. The preliminary processing is physical processing, basically, the prefabricated food materials are cut in advance and the dish is fried manually. The prefabricated dishes are convenient dishes which can be directly eaten by means of modern standardized running water operation, early-stage preparation work on the prefabricated food materials, simplified manufacturing steps, sanitary and scientific packaging, heating or steaming and frying and the like.

In order to improve cooking efficiency, the conventional automatic cooking device is generally provided with a plurality of containers for containing prefabricated food materials, so that a user can place the prefabricated food materials on a menu in the containers for standby, and a movable pushing mechanism is arranged to sequentially push the containers one by one to put the prefabricated food materials into a cooker in a moving process, so that an automatic feeding function is realized. In the process, the container contains the prefabricated food without any package, and the prefabricated food in the container can be directly put into the cooker for cooking. If the container contains the material package type prefabricated food material or the box-shaped prefabricated food material, for example, the powder steaming type prefabricated food material package, the non-powder steaming type prefabricated food material package, the prefabricated food material box and the like, the prefabricated food material package or the prefabricated food material box in the container cannot be directly put into the food material cooking equipment to be cooked, and the prefabricated food material package or the prefabricated food material box needs to be manually processed. For example, it is necessary to manually cut a pre-made food material package and extrude the pre-made food material in the pre-made food material package into a container for delivery, and for example, it is necessary to manually disassemble and assemble a pre-made food material box and pour the pre-made food material in the pre-made food material box into the container for delivery, and the pre-made food material in the pre-made food material package or the pre-made food material box cannot be automatically delivered into a food material cooking apparatus, thereby reducing the cooking efficiency of the pre-made food material in the pre-made food material package or the pre-made food material box.

Therefore, how to automatically and effectively put the prefabricated food materials in the prefabricated food material bags or the prefabricated food material boxes into the food material cooking equipment becomes a technical problem to be solved currently.

Disclosure of Invention

In view of the above, one of the technical problems to be solved by the embodiments of the present application is to provide a prefabricated food material feeding mechanism capable of automatically and effectively feeding prefabricated food materials in a prefabricated food material bag or a prefabricated food material box into a food material cooking device, so as to improve the cooking efficiency of the prefabricated food materials in the prefabricated food material bag or the prefabricated food material box.

According to a first aspect of an embodiment of the present application, there is provided a prefabricated food material feeding mechanism, including: the feeding mechanism of the material package form type prefabricated food materials is arranged in the prefabricated food material feeding area and is used for feeding the prefabricated food materials in the prefabricated food material package; the delivery mechanism of the prefabricated food material of box-packed morphology class, the delivery mechanism of the prefabricated food material of box-packed morphology class arrange in prefabricated food material delivery area, and the delivery mechanism of the prefabricated food material of box-packed morphology class with the delivery mechanism of the prefabricated food material of material package morphology class is vertical to be arranged side by side, the delivery mechanism of the prefabricated food material of box-packed morphology class is arranged in the prefabricated food material of delivery in the prefabricated food material box, wherein, the delivery mechanism of the prefabricated food material of material package morphology class includes: the fixed base is arranged in the prefabricated food material throwing area; the chain transmission mechanism is arranged on the fixed base; the first food material package throwing mechanism is fixedly arranged on the chain transmission mechanism and is used for throwing prefabricated food materials in the steamed vermicelli prefabricated food material packages; the second food material package throwing mechanism is fixedly arranged on the chain transmission mechanism, the fixed position of the second food material package throwing mechanism on the chain transmission mechanism is positioned behind the fixed position of the first food material package throwing mechanism on the chain transmission mechanism according to the running direction of the chain transmission mechanism, and the second food material package throwing mechanism is used for throwing prefabricated food materials in non-steamed type prefabricated food material packages; the chain transmission mechanism is used for transmitting the first food material package delivery mechanism to the position right above the food material cooking equipment so as to deliver the prefabricated food materials in the powder steaming type prefabricated food material package to the food material cooking equipment, and transmitting the second food material package delivery mechanism to the position right above the food material cooking equipment after delivering the prefabricated food materials in the powder steaming type prefabricated food material package so as to deliver the prefabricated food materials in the non-powder steaming type prefabricated food material package to the food material cooking equipment, wherein the delivery mechanism of the box-packaged type prefabricated food materials comprises: the prefabricated food material temporary storage array is arranged in the prefabricated food material putting area and is formed by arranging a plurality of prefabricated food material temporary storage mechanisms from bottom to top, and the prefabricated food material temporary storage mechanisms in the prefabricated food material temporary storage mechanisms are used for temporarily storing a material box in which the prefabricated food materials are stored; the prefabricated food material throwing executing mechanism is used for throwing prefabricated food materials in a material box entering from the prefabricated food material temporary storage mechanism.

Optionally, the chain transmission mechanism includes: the chain driven wheel and the chain driving wheel are both arranged on the fixed base in an erected mode, driven chain gears are arranged at two ends of the chain driven wheel in parallel, and driving chain gears are arranged at two ends of the chain driving wheel in parallel; the chain is arranged on the chain driven wheel and the chain driving wheel in parallel through the driven chain gear and the driving chain gear; the chain plate is paved between the chains; the driving piece is rotationally connected with the chain driving wheel and is used for driving the chain and the chain plate to rotate through the chain driving wheel.

Optionally, the first food material packet delivering mechanism includes: the fixed support is fixedly arranged on the chain transmission mechanism; the movable support is movably suspended on the fixed support, so that the fixed support supports the movable support; the steaming separation piece is detachably arranged on the movable support and used for storing the steamed vermicelli prefabricated food material bags.

Optionally, the second food material package delivery mechanism includes: the material bag pressing support is fixedly arranged on the chain transmission mechanism and used for pressing the non-steamed pre-made food material bags so that the discharge ends of the non-steamed pre-made food material bags are smooth; the material bag shearing mechanism is fixedly arranged on the chain transmission mechanism and is used for shearing the discharge end of the non-steamed prefabricated food material bag; the material bag extruding mechanism is fixedly arranged on the chain transmission mechanism and is used for extruding the prefabricated food materials in the non-steamed-powder prefabricated food material bags.

Optionally, the pack compression bracket includes: the pressing end is used for pressing the non-steamed prefabricated food material packet so that the discharging end of the non-steamed prefabricated food material packet is smooth; the fixed end is transversely arranged on the material bag extruding mechanism; the telescopic rod, the both ends of telescopic rod fixed connection respectively compress tightly the end with the stiff end, the telescopic rod is used for adjusting compress tightly the end with distance between the stiff end, in order to adapt to the length of the prefabricated food package of non-powder class of steaming.

Optionally, the prefabricated food material temporary storage mechanism includes: a fixed base; the food material temporary storage compartment is arranged on the fixed base; the transmission mechanism is arranged on the fixed base and penetrates through the bottom surface of the food material temporary storage compartment; a material box contained within the food item holding compartment and located on the transport mechanism; the conveying mechanism is used for conveying the material box out of the temporary storage compartment for food materials, so that the material box enters the executing mechanism for throwing the prefabricated food materials.

Optionally, the prefabricated food material throwing executing mechanism includes: the optical axis guide rail is arranged in parallel opposite to the prefabricated food material temporary storage array and is perpendicular to a horizontal plane; the table top body is movably arranged on the optical axis guide rail and is used for fixing a material box entering from the prefabricated food material temporary storage mechanism; the lifting mechanism is arranged on the optical axis guide rail in parallel, is perpendicular to the horizontal plane and is used for lifting the table top body along the optical axis guide rail so that the bottom surface of the table top body is in dynamic bridge communication with the bottom surface of the prefabricated food temporary storage mechanism; the transverse blocking mechanism is movably arranged outside the prefabricated food material temporary storage mechanism at the lowest part of the prefabricated food material temporary storage array, and is used for blocking the table top body from descending in the process that the lifting mechanism drives the table top body to descend, so that the table top body overturns to throw in the prefabricated food materials in the material box.

Optionally, the mesa body includes: the lifting limiting slide block is movably arranged on the optical axis guide rail; the supporting plate is movably arranged on the lifting limiting slide block; the material box fixing structure is fixedly arranged on the supporting plate.

Optionally, the support plate includes: the long end part is movably connected with the short end part, and the short end part is fixedly arranged on the lifting limiting slide block; and a support member disposed obliquely between the long end portion and the short end portion such that the long end portion is horizontally placed and the short end portion and the long end portion are mutually perpendicular.

Optionally, the material box fixing structure includes: the fixed bolster, the fixed bolster parallel arrangement in the both sides of the long end portion of backup pad, the inboard on the top of fixed bolster has been seted up and is used for adapting the smooth cableway of the outward flange of the upper top surface of material box, and the fixed bolster is provided with in the direction perpendicular to the fixed bolster side be used for preventing the material box is followed the long end portion landing of backup pad prevents the strip.

In the prefabricated food material throwing mechanism provided by the embodiment of the application, the chain transmission mechanism transmits the first food material package throwing mechanism to the position right above the food material cooking equipment, and the prefabricated food materials in the steamed vermicelli prefabricated food material package are thrown into the food material cooking equipment through the first food material package throwing mechanism, so that the prefabricated food materials in the steamed vermicelli prefabricated food material package can be automatically and effectively thrown into the food material cooking equipment, and the cooking efficiency of the steamed vermicelli prefabricated food materials is improved. After the prefabricated food materials in the steamed-powder type prefabricated food material package are put in, the chain transmission mechanism transmits the second food material package putting mechanism to the position right above the food material cooking equipment, the prefabricated food materials in the non-steamed-powder type prefabricated food material package are put in the food material cooking equipment through the second food material package putting mechanism, and the prefabricated food materials in the non-steamed-powder type prefabricated food material package can be automatically and effectively put in the food material cooking equipment, so that the cooking efficiency of the non-steamed-powder type prefabricated food materials is improved. In addition, the material box in which the prefabricated food materials are stored is temporarily stored through the prefabricated food material temporary storage mechanism, and the prefabricated food materials in the material box entering from the prefabricated food material temporary storage mechanism are put in through the prefabricated food material putting executing mechanism, so that the putting efficiency of the prefabricated food materials in the prefabricated food material box is effectively improved.

Drawings

Some specific embodiments of the application will be described in detail hereinafter by way of example and not by way of limitation with reference to the accompanying drawings. The same reference numbers will be used throughout the drawings to refer to the same or like parts or portions. It will be appreciated by those skilled in the art that the drawings are not necessarily drawn to scale. In the accompanying drawings:

fig. 1 is a schematic structural diagram of a prefabricated food material feeding mechanism provided in this embodiment;

fig. 2 is a schematic structural diagram of a mechanism for delivering a package-shaped prefabricated food material according to the embodiment;

fig. 3 is a schematic structural diagram of a first food package dispensing mechanism provided in this embodiment;

fig. 4 is a schematic structural view of a steaming element according to the present embodiment;

fig. 5 is a schematic structural diagram of a first food package feeding mechanism provided in the present embodiment;

fig. 6 is a schematic structural diagram of a first food package dispensing mechanism provided in this embodiment;

fig. 7 is a schematic structural diagram of a first food package dispensing mechanism provided in this embodiment;

fig. 8 is a schematic structural diagram of a second food package feeding mechanism provided in the present embodiment;

fig. 9 is a schematic structural view of a pack pressing mechanism according to the present embodiment;

fig. 10 is a schematic structural view of a pack pressing mechanism according to the present embodiment;

Fig. 11 is a schematic structural diagram of a package shearing mechanism according to the present embodiment;

fig. 12 is a schematic structural diagram of a package rolling mechanism provided in this embodiment;

fig. 13 is a schematic structural diagram of a bale extruding mechanism according to the present embodiment;

fig. 14 is a schematic structural diagram of a bale extruding mechanism according to the present embodiment;

FIG. 15 is an enlarged view of the junction of the manual rotation handle provided in this embodiment;

fig. 16 is a schematic structural diagram of a bale extruding mechanism according to the present embodiment;

fig. 17 is a schematic structural diagram of a package clamping mechanism and a package rolling mechanism provided in this embodiment;

fig. 18 is a schematic structural diagram of a package clamping mechanism and a package rolling mechanism provided in this embodiment;

fig. 19 is a schematic structural diagram of a bale extruding mechanism provided in this embodiment;

fig. 20 is a schematic structural diagram of a package clamping mechanism and a package rolling mechanism provided in this embodiment;

fig. 21 is a schematic structural diagram of a bale extruding mechanism provided in this embodiment;

fig. 22 is a schematic structural view of a mechanism for delivering a cartridge-type pre-prepared food material according to the present embodiment;

fig. 23 is a schematic structural view of a temporary storage mechanism for prefabricated food materials according to the present embodiment;

fig. 24 is a schematic structural view of the material box provided in the present embodiment;

Fig. 25 is a schematic structural diagram of a temporary storage compartment for food materials according to the present embodiment;

fig. 26 is a schematic structural diagram of a belt tensioning structure according to the present embodiment;

fig. 27 is a schematic view of a food material temporary storage compartment accommodating a material box according to the embodiment;

fig. 28 is a schematic structural view of a mesa body according to the present embodiment;

fig. 29 is a schematic view of the overturning process of the table top body provided in the present embodiment;

fig. 30 is a schematic view of a turning process of the table top body provided in the present embodiment;

fig. 31 is a schematic view of a turning process of the table top body according to the present embodiment;

fig. 32 is a schematic diagram of a turning process of the table top body according to the present embodiment;

fig. 33 is a schematic structural view of a table body according to the present embodiment;

fig. 34 is a schematic structural view of a mesa body according to the present embodiment;

FIG. 35 is a diagram showing an operation state of the transverse blocking mechanism according to the present embodiment;

fig. 36 is another working state diagram of the transverse blocking mechanism provided in the present embodiment.

Description of the reference numerals

The reference numerals in the figures denote: 1. a fixed base; 2. a bottom surface of the food material temporary storage compartment; 3. the side surface of the food material temporary storage compartment; 4. a limiting mechanism; 5. a transmission belt; 6. a driving shaft of the transmission belt; 7. a tensioning member; 8. a grid baffle fitting; 9. a brush edge; 10. an outer edge; 11. limiting rubber of the material box; 12. a material box; 13. a transmission belt driven shaft; 14. a transmission belt driven connecting rod; 15. tensioning a screw; 16. a rectangular bracket; 17. a rotating shaft; 18. a table top body; 29. an optical axis guide rail; 30. lifting and lowering the limit sliding block; 31. a short end portion of the support plate; 32. a support; 33. a slide bar; 34. a chute; 35. a fixed bracket; 36. a ropeway; 37. a bump; 38. a transmission structure; 39. a chain; 40. a stop bar; 41. a right angle spring; 42. a temporary storage mechanism for prefabricated food materials; 43. a prefabricated food material throwing executing mechanism; 44. an L-shaped bracket; 45. a first transverse connection rod; 46. a second transverse connecting rod; 47. a tripod; 48. a steam separator; 49. a third transverse connecting rod; 50. a chain; 51. an outer edge; 52. a hollow hole; 53. a chain driven wheel; 54. a chain drive wheel; 55. a rotating shaft; 56. a groove; 57. a link plate; 58. the material bag clamps the bracket; 59. a manual rotation handle; 60. a motor; 61. a chute; 62. a bucket nut; 63. a hook; 64. a clasp; 65. a protruding portion; 66. a connection part; 67. a first section bar; 68. a second section bar; 69. a drive link; 70. a driving mechanism; 71. a base; 72. a fan-shaped support plate; 73. an up-down sliding guide rail; 74. an eccentric wheel; 75. a blade mounting bracket; 76. a blade; 77. a long end; 78. a short end; 79. a groove; 80. a protrusion; 81. a first food material package throwing mechanism; 82. a second food material package throwing mechanism; 83. a feeding mechanism for the material package form type prefabricated food materials; 84. and a throwing mechanism for box-packed form type prefabricated food materials.

Detailed Description

It is not necessary for any of the embodiments of the application to be practiced with all of the advantages described above. In order to better understand the technical solutions in the embodiments of the present application, the following description will clearly and completely describe the technical solutions in the embodiments of the present application with reference to the accompanying drawings in the embodiments of the present application, and it is obvious that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which are derived by a person skilled in the art based on the embodiments of the present application, shall fall within the scope of protection of the embodiments of the present application.

The implementation of the embodiments of the present application will be further described below with reference to the accompanying drawings.

As shown in fig. 1, an embodiment of the present application provides a prefabricated food material feeding mechanism, where the prefabricated food material feeding mechanism includes: the feeding mechanism 83 of the material package form type prefabricated food materials, wherein the feeding mechanism 83 of the material package form type prefabricated food materials is arranged in a prefabricated food material feeding area, and the feeding mechanism 83 of the material package form type prefabricated food materials is used for feeding the prefabricated food materials in the prefabricated food material package; a feeding mechanism 84 of a box-shaped prefabricated food material, wherein the feeding mechanism 84 of the box-shaped prefabricated food material is arranged in the prefabricated food material feeding area, and the feeding mechanism 84 of the box-shaped prefabricated food material and the feeding mechanism 83 of the material package shaped prefabricated food material are vertically arranged in parallel, and the feeding mechanism 84 of the box-shaped prefabricated food material is used for feeding the prefabricated food material in the prefabricated food material box, wherein, as shown in fig. 2, the feeding mechanism 83 of the material package shaped prefabricated food material comprises: the fixed base is arranged in the prefabricated food material throwing area; the chain transmission mechanism is arranged on the fixed base; the first food material package throwing mechanism 81 is fixedly arranged on the chain transmission mechanism, and the first food material package throwing mechanism 81 is used for throwing prefabricated food materials in the steamed vermicelli prefabricated food material package; the second food material package throwing mechanism 82 is fixedly arranged on the chain transmission mechanism, the fixed position of the second food material package throwing mechanism 82 on the chain transmission mechanism is positioned behind the fixed position of the first food material package throwing mechanism 81 on the chain transmission mechanism according to the running direction of the chain transmission mechanism, and the second food material package throwing mechanism 82 is used for throwing prefabricated food materials in non-steamed-food prefabricated food material packages; the chain transfer mechanism is configured to transfer the first food material package transfer mechanism 81 to a position directly above a food material cooking apparatus to transfer the prefabricated food materials in the steaming type prefabricated food material package to the food material cooking apparatus, and transfer the second food material package transfer mechanism 82 to a position directly above the food material cooking apparatus to transfer the prefabricated food materials in the non-steaming type prefabricated food material package to the food material cooking apparatus after transferring the prefabricated food materials in the steaming type prefabricated food material package, wherein, as shown in fig. 23, the transfer mechanism 84 for transferring the box-packed type prefabricated food materials includes: the prefabricated food material temporary storage array is arranged in the prefabricated food material throwing area, the prefabricated food material temporary storage array is formed by arranging a plurality of prefabricated food material temporary storage mechanisms 42 from bottom to top, and the prefabricated food material temporary storage mechanisms 42 in the prefabricated food material temporary storage mechanisms are used for temporarily storing the material boxes 12 in which the prefabricated food materials are stored; the prefabricated food material throwing executing mechanism 43, the prefabricated food material throwing executing mechanism 43 and the prefabricated food material temporary storage array are vertically arranged in parallel, the bottom surface of the table top body 18 in the prefabricated food material throwing executing mechanism 43 is in dynamic bridge communication with the bottom surface of the prefabricated food material temporary storage mechanism 42, and the prefabricated food material throwing executing mechanism 43 is used for throwing prefabricated food materials in the material box 12 entering from the prefabricated food material temporary storage mechanism 42. Therefore, the chain transmission mechanism transmits the first food material package delivery mechanism to the position right above the food material cooking equipment, and the prefabricated food materials in the powder steaming type prefabricated food material package are delivered to the food material cooking equipment through the first food material package delivery mechanism, so that the prefabricated food materials in the powder steaming type prefabricated food material package can be automatically and effectively delivered to the food material cooking equipment, and the cooking efficiency of the powder steaming type prefabricated food materials is improved. After the prefabricated food materials in the steamed-powder type prefabricated food material package are put in, the chain transmission mechanism transmits the second food material package putting mechanism to the position right above the food material cooking equipment, the prefabricated food materials in the non-steamed-powder type prefabricated food material package are put in the food material cooking equipment through the second food material package putting mechanism, and the prefabricated food materials in the non-steamed-powder type prefabricated food material package can be automatically and effectively put in the food material cooking equipment, so that the cooking efficiency of the non-steamed-powder type prefabricated food materials is improved. In addition, the material box in which the prefabricated food materials are stored is temporarily stored through the prefabricated food material temporary storage mechanism, and the prefabricated food materials in the material box entering from the prefabricated food material temporary storage mechanism are put in through the prefabricated food material putting executing mechanism, so that the putting efficiency of the prefabricated food materials in the prefabricated food material box is effectively improved. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific example, the first food material packet feeding mechanism 81 and the second food material packet feeding mechanism 82 are both provided on a link plate or a continuous link plate segment of a chain of the chain transmission mechanism. According to the running direction of the normal operation of the chain, the second food material package throwing mechanism 82 is arranged at the far end, so that when the chain is in normal operation, the second food material package throwing mechanism 82 always reaches the position right above the next station along with the chain under the control of the instruction for aftertreatment. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific example, as shown in fig. 5 and 7, the chain transmission mechanism includes: the chain driven wheel 53 and the chain driving wheel 54 are respectively arranged on the fixed base in an erected mode, driven chain gears are arranged at two ends of the chain driven wheel 53 in parallel, and driving chain gears are arranged at two ends of the chain driving wheel 54 in parallel; a chain 50, wherein the chain 50 is arranged on the chain driven wheel 53 and the chain driving wheel 54 in parallel through the driven chain gear and the driving chain gear; a link plate 57, the link plate 57 being tiled between the chains 50; the driving piece is rotatably connected with the chain driving wheel 54, and is used for driving the chain 50 and the chain plate 57 to rotate through the chain driving wheel 54. Wherein the driving member may be an electric motor or a motor. Thereby, the first food material package feeding mechanism 81 and the second food material package feeding mechanism 82 can be effectively conveyed to directly above the food material cooking apparatus. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In some alternative embodiments, as shown in fig. 3 and 6, the first food product packet delivery mechanism includes: the fixed support is fixedly arranged on the chain transmission mechanism; the movable support is movably suspended on the fixed support, so that the fixed support supports the movable support; the steaming separation piece 48 is detachably arranged on the movable support, and the steaming separation piece 48 is used for storing the steamed vermicelli prefabricated food material bags. Therefore, the prefabricated food materials in the powder steaming type prefabricated food material bag can be automatically and effectively put in through the mutual matching of the fixed support, the movable support and the steam isolating piece. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In one specific example, the chain transfer mechanism transfers the fixed support to directly above the food cooking apparatus to heat the pre-steamed food item package suspended from the fixed support by the movable support in the steam barrier 48. Therefore, the fixed support is conveyed to the position right above the food cooking equipment through the chain conveying mechanism so as to heat the powder steaming type prefabricated food packages in the steaming partition 48 suspended on the fixed support through the movable support, the problem that the powder steaming type prefabricated food in the steaming partition 48 is directly put into the food cooking equipment to be heated to cause food fragmentation is avoided, and the cooking requirement of soft powder steaming type prefabricated food can be effectively met. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific example, as shown in fig. 3 and 6, the fixing bracket includes: an L-shaped bracket 44, wherein the L-shaped bracket 44 is arranged on the chain 50 in parallel; the transverse connecting rods are arranged between the L-shaped brackets 44 and are used for fixedly connecting the L-shaped brackets 44 and suspending the movable brackets. Wherein the short end of the L-shaped bracket 44 is fixed to an auxiliary chain member of the chain 50, and the rear surface of the long end of the L-shaped bracket 44 faces the movement direction in which the chain 50 operates. The auxiliary chain member may be a chain link. Thereby, the movable bracket can be effectively suspended. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific example, as shown in fig. 3 and 6, the transverse link comprises: the first transverse connection rod 45 is fixedly arranged at the joint of the short end of the L-shaped bracket 44 and the long end of the L-shaped bracket 44, and the first transverse connection rod 45 is used for fixedly connecting the L-shaped bracket 44; the second transverse connection rod 46 is fixedly arranged at the end of the long end of the L-shaped bracket 44, and the second transverse connection rod 46 is used for fixedly connecting the L-shaped bracket 44 and suspending the movable bracket. Thereby, not only the L-shaped bracket 44 but also the movable bracket can be fixedly connected by the first and second transverse connection rods 45 and 46. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In one specific example, a pair of parallel-arranged L-brackets 44 are provided at a distance from each other. The pair of L-shaped brackets 44 are arranged in such a manner that the short ends of the L-shaped brackets 44 are fixed to a pair of parallel-laid chains 50, and the long end backs of the L-shaped brackets 44 face in the normal travel path direction of the chains 50. Furthermore, a transverse connecting rod 45 is provided at the junction of the two long and short ends. A transverse connecting cross rod 46 is welded on the ends of the two long ends of the pair of L-shaped brackets 44, and a cuboid steam isolating piece 48 is movably suspended on the transverse connecting rod 46 through a movable bracket. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific example, the movable bracket includes: a tripod 47, wherein the tripod 47 is suspended on the second transverse connecting rod 46 in parallel, and the bottom edge of the tripod 47 is provided with a chute for detachably arranging the steaming separation piece 48; and a third transverse connection rod 49, wherein the third transverse connection rod 49 is arranged on the bevel edge of the tripod 47 in parallel to fixedly connect the tripod 47. Wherein, the apex of tripod 47 has seted up the through-hole, tripod 47 is through the through-hole parallel suspension is on the second transverse connection pole 46. Whereby the vapor barrier 48 can be detachably provided. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific example, as shown in fig. 4, the steaming member 48 is in a cuboid shape, an edge of an upper top surface of the steaming member 48 is provided with a protruding outer edge 51 for guiding, and a bottom surface of the steaming member 48 is provided with a hollowed-out hollow hole 52. Wherein, the bottom surface of the steaming separation piece 48 is provided with a hollow hole 52, and no top surface is provided, and the steamed vermicelli preparation food bag needs to be manually placed in the steaming separation piece 48. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In one specific example, by default, the pair of L-brackets 44 are secured to the pair of parallel chains 50, as shown in FIG. 7, with the vapor barrier 48 on the transverse bar suspended above the two chains 50. The steamed bread is manually placed inside the steaming partition 48, and is hung vertically between the L-shaped brackets 44. Then, under the drive of the motor, the chain 50 rotates to enable the L-shaped bracket 44 to move towards the driven sprocket, when the position stroke of the short end of the L-shaped bracket 44 is about to enter the downlink at the driven sprocket, the chain pauses to rotate, so that the long end of the L-shaped bracket 44 is temporarily suspended at the position of the driven sprocket for changing the link, the long end and the link 50 are on the same level, the position right below the long end is just above the inlet of the next station, namely, the position right above the steam of the steamer, and the steam separation piece 48 is also right above the inlet of the next station. And then the next station starts steaming, the steam rises to the steamed pre-made food material package, after the steamed pre-made food material package is heated, the chain 50 continues to rotate under the drive of the motor, the long end of the chain extends to the link below the chain 50, and the heated steamed pre-made food material package is moved to the lower part of the link 50 and is suspended at a specific position so as to be convenient for manually taking out the steamed pre-made food material package. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In some alternative embodiments, as shown in fig. 8, the second food product package delivery mechanism includes: the material bag pressing support is fixedly arranged on the chain transmission mechanism and used for pressing the non-steamed pre-made food material bags, so that the discharge ends of the non-steamed pre-made food material bags are smooth; the material bag shearing mechanism is fixedly arranged on the chain transmission mechanism and is used for shearing the discharge end of the non-steamed prefabricated food material bag; the material bag extruding mechanism is fixedly arranged on the chain transmission mechanism and is used for extruding the prefabricated food materials in the non-steamed-powder prefabricated food material bags. Therefore, the prefabricated food materials in the non-steamed prefabricated food material bags can be automatically and effectively put in through the mutual matching of the material bag pressing support, the material bag shearing mechanism and the material bag extruding mechanism. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific example, the chain transmission mechanism transmits the material packet extruding mechanism to the position right above the food material cooking device after the material packet shearing mechanism shears the discharge end of the non-steamed prefabricated food material packet, so that the prefabricated food material in the non-steamed prefabricated food material packet is extruded into the food material cooking device through the material packet extruding mechanism. Therefore, after the material package shearing mechanism shears the discharge end of the non-steamed prefabricated food material package, the chain transmission mechanism transmits the material package extruding mechanism to the position right above the food material cooking equipment, so that the prefabricated food materials in the non-steamed prefabricated food material package are extruded into the food material cooking equipment through the material package extruding mechanism, the discharge end of the non-steamed prefabricated food material package can be automatically sheared, and the prefabricated food materials in the non-steamed prefabricated food material package can be extruded into the food material cooking equipment to be cooked, so that the prefabricated food materials in the non-steamed prefabricated food material package can be automatically and effectively put into the food material cooking equipment, and the cooking efficiency of the prefabricated food materials in the non-steamed prefabricated food material package is improved. It will be appreciated that the above description is exemplary only, and that the embodiments of the application are not limited in any way.

In some alternative embodiments, as shown in fig. 9 and 10, the pack compression bracket comprises: the pressing end is used for pressing the non-steamed prefabricated food material packet so that the discharging end of the non-steamed prefabricated food material packet is smooth; the fixed end is transversely arranged on the material bag extruding mechanism; the telescopic rod, the both ends of telescopic rod fixed connection respectively compress tightly the end with the stiff end, the telescopic rod is used for adjusting compress tightly the end with distance between the stiff end, in order to adapt to the length of the prefabricated food package of non-powder class of steaming. Therefore, the non-steamed prefabricated food material package can be effectively compressed through the compressing end, so that the discharging end of the non-steamed prefabricated food material package is smooth. In addition, through the telescopic link, can effectively adjust compress tightly the end with distance between the stiff end is in order to adapt to the length of the prefabricated food package of non-steamed class. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific example, as shown in fig. 9, the compressing end includes: the protruding part 65 is used for pressing the non-steamed prefabricated food material package, so that the discharge end of the non-steamed prefabricated food material package is smooth; the connecting part 66, the connecting part 66 and the protruding part 65 are fixedly connected to form a whole, and the connecting part 66 is used for fixedly connecting the telescopic rod. Therefore, the protruding part 65 can effectively compress the non-steamed pre-made food package, so that the discharge end of the non-steamed pre-made food package is flat. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific example, as shown in fig. 10, the fixed end includes: the long end 77, the long end 77 is fixedly connected with the telescopic rod through the middle part of the long end 77; a short end 78, wherein one end of the short end 78 is fixedly connected with the end of the long end 77, and the other end of the short end 78 is fixedly connected with the link plate 57. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific example, as shown in fig. 9, the telescopic rod includes: a first node rod 67, wherein one end of the first node rod 67 is fixedly connected with the pressing end; and a second rod 68, wherein one end of the second rod 68 is fixedly connected with the fixed end, the other end of the first rod 67 is nested with the other end of the second rod 68, and the other end of the first rod 67 and the other end of the second rod 68 slide mutually. Therefore, the distance between the pressing end and the fixed end can be effectively adjusted through the first joint rod 67 and the second joint rod 68 so as to adapt to the length of the non-steamed prefabricated food material bag. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific example, the telescopic rod is composed of two sections of rods, the telescopic rod can be adjusted, the rear end of the material bag pressing support is connected with the rotating shaft through a through hole, and the material bag pressing support is concentric around the rotating shaft. And the length of the telescopic rod is adjusted under the cooperation of the sliding groove according to the length of a specific material bag every time, so that the compression end of the telescopic rod can press the vicinity of the cutting line of the material bag, and the cutting line is ensured to be flat. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In some alternative embodiments, as shown in fig. 8 and 11, the packet shearing mechanism comprises: fixed brackets provided in parallel at both ends of the link plate 57; the driving connecting rod 69 is arranged on the fixed bracket in an erected mode; the material packet shearing component is movably arranged on the fixed bracket and is movably connected with the driving connecting rod 69; the driving mechanism 70 is rotationally connected with the driving connecting rod 69, and the driving mechanism 70 is used for driving the material package cutting member to move downwards along the fixed support through the driving connecting rod 69, so that the material package cutting member cuts the discharge end of the non-steamed prefabricated food material package below the material package cutting member. Therefore, the discharging end of the non-steamed prefabricated food material bag below the material bag shearing component can be effectively sheared. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific example, as shown in fig. 8 and 11, the fixing bracket includes: the base 71, the said base 71 is set up in the both ends of the said link plate 57 in parallel; a sector-shaped support plate 72, the sector-shaped support plate 72 being disposed in parallel on the base 71; and upper and lower slide rails 73, wherein the upper and lower slide rails 73 are disposed in parallel on the base 71, and the upper and lower slide rails 73 are positioned inside the sector-shaped support plate 72. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In some alternative embodiments, as shown in fig. 8 and 11, the packet shearing assembly comprises: an eccentric 74, wherein the eccentric 74 is arranged on the driving connecting rod 69 in parallel; a blade mounting bracket 75, wherein the cross end of the blade mounting bracket 75 is movably connected with the eccentric wheel 74, and the two ends of the cross end of the blade mounting bracket 75 are movably sleeved on the upper and lower sliding guide rails 73; and the blade 76 is detachably fixed on the blade mounting bracket 75 through a mounting screw, and the blade 76 is used for cutting the discharge end of the non-steamed prefabricated food material bag below the blade 76. Whereby the discharge end of the non-steamed, pre-prepared food item bundle below the blade 76 can be effectively cut. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific example, since the bag holding bracket is arranged by the outer side chain, when the bag is manually placed in the folding and overlapping bag holding bracket, the bag is placed by the top edge of the outer side chain as always as possible. The width of the designed blade is smaller than the length of the rotating shaft. When the blade is actually arranged, the blade 76 is arranged near the top edge of the inner chain 50, so that when the blade 76 is cut off at one time, a part of the bottom of the discharge end of the material bag (near the outer chain) is not cut off and is connected to the material bag, namely, the discharge end of the material bag only cuts off a large part, so that when the material bag is rolled by the rotating shaft, the broken fragments of the discharge end can be rolled away together and cannot be mixed into the prefabricated food materials, and the broken fragments of the discharge end are prevented from falling into the inlet of the next station due to the cutting action. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific example, a groove 79 is provided below the eccentric wheel 74, a through hole is provided in the groove 79, a protrusion 80 is provided on the lateral end of the blade mounting bracket 75, a through hole is provided on the protrusion 80, the groove 79 is matched with the protrusion 80, and a through hole provided on the groove 79 is matched with a through hole provided on the protrusion 80. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific example, the bale shearing unit is of eccentric configuration. The eccentric wheel structure mainly comprises an eccentric wheel 74, a matched detachable blade 76, a blade mounting bracket 75 and the like. Note that the blade 76 is detachably fixed to the blade mounting bracket 75 by mounting screws, and both ends of the blade mounting bracket 75 are movably sleeved on the up-down slide rail 73. Since the blade 76 is detachably fixed to the blade mounting bracket 75 by the mounting screw, the blade 76 is detachable for manual cleaning. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In some alternative embodiments, the bale extrusion mechanism includes: the material bag clamping mechanism is fixedly arranged on the chain transmission mechanism and used for clamping a non-steamed prefabricated food material bag; the material package rolling mechanism is fixedly arranged on the material package clamping mechanism and is used for rolling the non-steamed prefabricated food material package through the tail part of the non-steamed prefabricated food material package so as to extrude the prefabricated food materials in the non-steamed prefabricated food material package. Therefore, the prefabricated food materials in the non-steamed prefabricated food material package can be effectively extruded through the material package clamping mechanism and the material package rolling mechanism. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In some alternative embodiments, as shown in fig. 13, 14 and 19, the pack holding mechanism comprises: the two material package clamping brackets 58, the two material package clamping brackets 58 are the same in size and fold and overlap, and the ends of the short ends of the two material package clamping brackets 58 are hinged together, the two material package clamping brackets 58 are transversely arranged on the chain plate 57, and the long ends of the two material package clamping brackets 58 are used for clamping the bottom line of the non-steamed prefabricated food material package tail. Thereby, the bottom line of the non-steamed prefabricated food material package tail can be effectively clamped by the two package clamping brackets 58. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific example, the two bag holding brackets 58 are disposed laterally on the link plate 57 through slide grooves 61 provided in parallel to the left and right edges of the link plate 57. The two bag holding brackets 58 below are fixed on the chute 61 by penetrating screw hole points formed on the top surface of the chute 61 through hopper bolts 62, and the link plates 57 provided with the chute 61 are in narrow link plate segments, wherein the narrow link plate segments are formed by a section of link plates 57 with narrower plate surface widths, and the chute 61 slides synchronously on the narrow link plate segments, as shown in fig. 21. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific example, as shown in fig. 21, in the continuous link plate, there is a link plate segment in which the segment plate surface is slightly narrower than the other segment plate surfaces. In the narrow link plate segment, a slide groove 61 is provided on each of the left and right sides of the pair, the slide grooves 61 are parallel and can slide in synchronization with the narrow link plate segment, wherein the slide groove 61 is arranged outside and the top surface thereof is provided with a screw hole point. The above-described bag holding brackets in the folded and overlapped state are fixed on the outer sides of the two slide grooves 61 below the bag holding brackets. As shown in fig. 15 and 20, a bucket bolt 62 is provided, the tail of which is bucket-shaped and which is a manual rotation holding point. The screw hole points are inserted through threads on the bolts. The bucket bolt 62 is locked into the chute 61 by default and the head of the bucket bolt 62 extends into the flight to be tightened to temporarily secure the chute 61 to the flight 57. During adjustment, the head of the manually-rotated bucket bolt 62 is adjusted to be tightness, so that the sliding groove 61 can move along the edge of the chain plate 57, and the bag clamping support integrally moves. Since the lengths of the non-steamed, pre-prepared food items in each batch are different, the purpose of the bucket bolt 62 is to allow for removable adjustment by adjusting the tightness to temporarily secure the chute to the flight 57. Then, the material package pressing support is adjusted to the front end position of the blade notch, and the non-steamed and steamed food material package is pressed after corresponding gear is locked, so that the cutting work of the next station is facilitated. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In some alternative embodiments, as shown in fig. 12, the package rolling mechanism includes: the shaft lever of the rotating shaft 55 is provided with a groove 56, the groove 56 penetrates through the shaft lever, the shaft lever of the rotating shaft 55 is arranged on the two material packet clamping brackets 58 in a mode of being perpendicular to the moving direction of the chain 50, and the groove 56 of the rotating shaft 55 is used for penetrating into the tail part of the non-steamed food material packet; the driving mechanism is arranged at the end head of one end of the rotating shaft 55, and is rotationally connected with the end head of one end of the rotating shaft 55, and the driving mechanism is used for driving the rotating shaft 55 to rotate so as to roll the non-steamed food prefabricated food material bag. Thereby, the non-steamed pre-made food item package can be automatically rolled up by the rotation shaft 55 and the driving mechanism to extrude the pre-made food item in the non-steamed pre-made food item package into the food item cooking apparatus. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In some alternative embodiments, two ends of the shaft rod are respectively arranged at the end joints of the short ends of the two material bag clamping brackets 58, the other end of the rotating shaft 55 is provided with a manual rotating handle 59, the manual rotating handle 59 is movably connected with the other end of the rotating shaft 55 through a spring buckle, and the manual rotating handle 59 is used for manually separating from the rotating shaft 55. Thereby, the rotation shaft 55 can be manually disengaged by the manual rotation handle 59. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific example, a manual rotation handle is configured at one end of the rotating shaft 55, the motor 60 is connected to drive the rotating shaft 55 at the other end of the rotating shaft, and the rotating shaft 55 is also movably connected to the motor 60, so that the tail of the manually rolled material bag can be conveniently penetrated and the empty material bag after the material is extruded can be manually removed. When the two material package clamping brackets 58 are folded and overlapped, the other left transverse ends of the two material package clamping brackets 58 are close to each other side by side to clamp the front and back sides of the package, and the bottom line of the tail end of the material package is clamped. The shaft lever of the rotating shaft 55 is provided with a hollowed groove 56 for penetrating through the redundant part of the tail edge package of the roll material package, one end of the shaft lever of the rotating shaft 55 is provided with a manual rotating handle 59, and the manual rotating handle 59 is connected with the rotating shaft 55 through a spring buckle, so that the manual rotating handle 59 can be manually separated from the rotating shaft 55, an empty material package on the rotating shaft 55 can be conveniently taken down, or the tail part of the material package can be manually fastened initially to start the redundant part, and the other transverse end left by the two material package clamping brackets 58 is matched to clamp the bottom line of the tail end of the material package. After the motor 60 drives the rotating shaft 55 to extrude the material, the plastic bag coiled on the rotating shaft 55 needs to be manually taken down. Two pack holding brackets 58 folded and overlapped are provided on one continuous link plate segment of the pair of chains 50 and are arranged in such a manner that the shaft lever of the rotating shaft 55 is perpendicular to the chain moving direction, and the manual rotating handle 59 is arranged near the outer chain path edge, and the bracket outer hem is arranged near the outer chain path edge in an overlapped manner. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In some alternative embodiments, the cartridge holding mechanism further comprises: and a kiss-sleeve fastening structure disposed at a side of the two packet clamping brackets 58, the kiss-sleeve fastening structure being used to fasten the long ends of the two packet clamping brackets 58. Thereby, the long ends of the two cartridge holding brackets 58 can be effectively fastened by the kiss-sleeve fastening structure. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In some alternative embodiments, as shown in fig. 16, 17 and 18, the kiss-sleeve fastening structure comprises: hooks 63, the hooks 63 being arranged at sides of the pack holding brackets above the two pack holding brackets 58; a clasp 64, the clasp 64 being disposed on the side of the lower one of the two pack holding brackets 58, and the clasp 64 being mated with the hook 63 to clasp the long ends of the two pack holding brackets 58. Thereby, the long ends of the two pack holding brackets 58 can be effectively fastened by the hooks 63 and the clasps 64 mated with the hooks 63. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific example, in order to more thoroughly clamp and squeeze the non-steamed pre-made food package, a set of hooks 63 and the buckles 64 of the kissing covers are designed on the outer side surfaces of the two package clamping brackets 58 and on the side of the manual rotating handle 59, and are respectively fixed at the corresponding positions of the outer side surfaces of the brackets. And the spacing between the spindle 55 and the remaining other lateral end of the two bale clamping holders 58 is almost side-by-side. By default, two bale clamping holders 58 are stacked together and are movably connected by a hinge 55. In actual operation, the two material package clamping brackets 58 are manually broken, the upper surface and the lower surface of the material package plastic bag are firstly clamped by the left other transverse end of the two material package clamping brackets 58 side by side to collect the material level bottom line at the tail end of the material package, the hook buckle is buckled, and then the tail part of the material package is manually rolled onto the hollowed groove 56 on the rotating shaft 55. The above two equally sized overlapping two bale gripping holders 58 are disposed on a continuous flight of a pair of chains and the two bale gripping holders 58 are manually and dynamically slidable on the flight to accommodate batch bale length variations. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In actual operation, after the package is manually placed by default, the chain plate 57 moves under the control of the instruction to integrally immerse the package in hot water in the next station, so that the package is directly heated in the hot water. After the material package is fully heated, under the control of the instruction, the chain plate returns to start to roll the material in the material package to enter the inlet of the next station (the next station is anhydrous). The flight 57 then returns to the original position to wait and the empty bale package is manually removed. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

As shown in fig. 22, the prefabricated food material feeding mechanism provided by the embodiment of the application includes: the prefabricated food material temporary storage array is formed by arranging a plurality of prefabricated food material temporary storage mechanisms 42 from bottom to top, and the prefabricated food material temporary storage mechanisms 42 in the prefabricated food material temporary storage mechanisms are used for temporarily storing the material boxes 12 in which the prefabricated food materials are stored; the prefabricated food material throwing executing mechanism 43, the prefabricated food material throwing executing mechanism 43 and the prefabricated food material temporary storage array are vertically arranged in parallel, the bottom surface of the table top body 18 in the prefabricated food material throwing executing mechanism 43 is in dynamic bridge communication with the bottom surface of the prefabricated food material temporary storage mechanism 42, and the prefabricated food material throwing executing mechanism 43 is used for throwing prefabricated food materials in the material box 12 entering from the prefabricated food material temporary storage mechanism 42. Therefore, the material box in which the prefabricated food materials are stored is temporarily stored through the prefabricated food material temporary storage mechanism, and a user is not required to manually provide the prefabricated food materials on a menu for standby, so that the throwing efficiency of the prefabricated food materials is improved. In addition, the prefabricated food materials in the material boxes entering from the temporary storage mechanism of the prefabricated food materials are put in through the execution mechanism of the throwing of the prefabricated food materials, and the prefabricated food materials in the material boxes do not need to be put in sequence one by one, so that the throwing efficiency of the prefabricated food materials is effectively improved. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific embodiment, the prefabricated food material temporary storage array is formed by arranging a plurality of prefabricated food material temporary storage mechanisms from bottom to top to form an array (the prefabricated food material temporary storage mechanisms in the array can be detached singly and integrally), and the food material temporary storage compartment in each prefabricated food material temporary storage mechanism in the array can accommodate one material box 12, and the internal shape of the food material temporary storage compartment is matched with the shape of the material box 12. The prefabricated food material throwing executing mechanism 43 and the prefabricated food material temporary storage mechanism 42 are vertically arranged in parallel, the bottom surfaces of the two parts of mechanisms can be dynamically in the same plane for butt joint, and the two parts of mechanisms are dynamically bridged through the respective bottom surfaces. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

As shown in fig. 23 and 25, the temporary storage mechanism for the prefabricated food materials comprises: a fixed base 1; the food material temporary storage compartment is arranged on the fixed base 1; the transmission mechanism is arranged on the fixed base 1 and penetrates through the bottom surface of the food material temporary storage compartment; a magazine 12, the magazine 12 being housed within the food material holding compartment and the magazine 12 being located on the transport mechanism; the conveying mechanism is used for conveying the material box 12 out of the temporary storage compartment of the food material, so that the material box 12 enters the pre-manufactured food material throwing executing mechanism 43. Therefore, the material box 12 is transmitted to the food material temporary storage compartment through the transmission mechanism, and then is accommodated in the food material temporary storage compartment, that is, the material box 12 can enter and exit the food material temporary storage compartment through the transmission mechanism, so that the material box 12 temporarily storing the prefabricated food materials can be automatically transmitted to the food material temporary storage compartment, and the throwing efficiency of the prefabricated food materials and the reusability of the container can be effectively improved. In addition, the prefabricated food materials in the material box are not limited, so that the reusability of the container can be effectively improved. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In this embodiment, the food material temporary storage compartment is in a cuboid shape, and the food material temporary storage compartment is provided with a bottom surface 2 and a side surface 3. In particular, the temporary storage compartment for food material is provided with a bottom surface 2 and two side surfaces 3, whereas the front, rear and top surfaces are open. The material box 12 is rectangular in shape, and the edge of the upper top surface of the material box 12 is provided with a protruding outer edge 10 for guiding. Specifically, the material box 12 is configured to have a rectangular shape by default and is free of a cover, resembling a disposable plastic box structure, in which two long side (opposite side) outer surfaces and an upper top surface edge have protruding outer edges 10 for guiding. The interior shape of the temporary storage compartment matches the exterior shape of the material box 12, as shown in fig. 25. In addition, the side 3 of the temporary storage compartment for food materials is provided with a hollowed-out part, the hollowed-out part is matched with the outer edge 10 of the upper top surface of the material box, and the side 3 is provided with a material box limiting rubber 11 close to the inlet and outlet of the temporary storage compartment for food materials so as to be matched with the material box 12, as shown in fig. 28. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In some alternative embodiments, the side surface of the food material temporary storage compartment is provided with a limiting structure 4, the limiting structure 4 is located on the fixed base 1, and the limiting structure 4 abuts against the side surface 3 of the food material temporary storage compartment to limit the displacement of the food material temporary storage compartment. Thereby, the displacement of the food material temporary storage compartment along the direction perpendicular to the side surface 3 of the food material temporary storage compartment can be effectively limited by the limiting structure 4. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In some alternative embodiments, the transport mechanism includes: the conveying belt 5 penetrates through the bottom surface 2 of the food material temporary storage compartment; a transmission belt driven shaft 13 and a transmission belt driving shaft 6, wherein the transmission belt driven shaft 13 and the transmission belt driving shaft 6 are both installed on the fixed base 1, and the transmission belt driven shaft 13 and the transmission belt driving shaft 6 both transversely penetrate through the transmission belt 5, and the transmission belt driven shaft 13 and the transmission belt driving shaft 6 are respectively positioned at the end parts of the transmission belt 5 so as to tension the transmission belt 5; the motor is rotationally connected with the driving shaft 6 of the transmission belt, and the motor is used for driving the transmission belt 5 to rotate positively through the driving shaft 6 of the transmission belt, so that the material box 12 can be delivered out of the temporary storage compartment of the food materials so as to enter the executing mechanism 43 for throwing the prefabricated food materials. Thereby, the material box 12 can be effectively led out of the temporary storage compartment for food materials to enter the pre-made food material throwing executing mechanism 43 through the forward rotation of the transmission mechanism. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In some alternative embodiments, the transport mechanism further comprises: the transmission belt tensioning structure is arranged at the end part of the transmission belt driven shaft 13 and is used for tensioning the transmission belt 5. Thereby, the conveyor belt 5 can be effectively tensioned, thereby ensuring the normal operation of the conveyor belt 5. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific example, the conveyor belt tensioning structure includes: a transmission belt driven link 14, the transmission belt driven link 14 being provided at an end of the transmission belt driven shaft 13; a tensioning member 7, the belt follower link 14 is inserted into the tensioning member 7, and the tensioning member 7 is used to abut against the belt follower link 14 by a tensioning screw 15 to tension the belt 5, as shown in fig. 26. The long-time operation of the conveyor belt 5 can cause the loosening of the conveyor belt 5 to affect the normal operation of the conveyor belt, and the tensioning structure of the conveyor belt is added to enable the machine to normally operate. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In some alternative embodiments, the conveyor belt 5 is provided with a grid baffle fitting 8, the shape of the grid baffle fitting 8 is matched with the cross-sectional shape of the temporary storage compartment of the food material, and the grid baffle fitting 8 is used for blocking the material box 12 from sliding off the temporary storage compartment of the food material or assisting in advancing the material box 12. Thereby, by the grid baffle fitting 8, it can be effectively ensured that the material box 12 is accommodated in the food material temporary storage compartment. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In some alternative embodiments, the grid baffle fitting 8 is provided with movable rollers, and the arrangement direction of the movable rollers is perpendicular to the movement direction of the conveyor belt 5. Thereby, the passage of the magazine 12 across the food material holding compartment can be effectively increased by the movable roller. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific example, the bottom surface of the food material temporary storage compartment is provided with a conveyor belt 5 (a rotating shaft passes through the middle of the conveyor belt), and the conveyor belt 5 is provided with a grid baffle fitting 8, the grid baffle fitting 8 is matched with the cross-sectional shape of the food material temporary storage compartment, the grid baffle fitting 8 can block the material box 12 from sliding off the food material temporary storage compartment (when the material box 12 enters the food material temporary storage compartment) and assist in pushing the material box 12 forward (when the material box 12 exits the food material temporary storage compartment), and when the material box 12 exits the food material temporary storage compartment, the travel distance of each movement of the conveyor belt 5 is the length of one material box 12, and the grid baffle fitting 8 stops at the two end wheel surfaces of the conveyor belt 5 each time, namely the length of a single material box 12. The forward and reverse rotation of the conveyor belt 5 will either carry the magazine 12 out of the temporary holding compartment for food material (when the magazine is ready for feeding) or into the magazine 12 into the temporary holding compartment for food material (when the magazine is fed for recycling). When the material box 12 is recovered (when the grid baffle fitting 8 is stopped at the end wheel surface of the inside of the conveyor belt 5), in order to increase the trafficability between the table top body 18 of the prefabricated food material throwing executing mechanism and the food material temporary storage compartment, a movable roller is arranged on the grid baffle fitting 8 so as to facilitate the material box 12 to span the area between the two. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In some alternative embodiments, the peripheral edge of the grid baffle fitting 8 is provided with a brush edge strip 9, and the brush edge strip 9 is used for cleaning the food material temporary storage compartment along with the grid baffle fitting 8 during the process of entering and exiting the food material temporary storage compartment along with the conveyor belt 5. Thereby, the food material temporary storage compartment can be effectively cleaned by the brush edging 9 arranged at the peripheral edge of the grid baffle fitting 8. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

As shown in fig. 28, the prefabricated food material throwing executing mechanism provided in this embodiment includes: an optical axis guide rail 29, wherein the optical axis guide rail 29 is arranged in parallel opposite to the prefabricated food material temporary storage array, and the optical axis guide rail 29 is perpendicular to a horizontal plane; a table body 18, wherein the table body 18 is movably arranged on the optical axis guide rail 29, and the table body 18 is used for fixing the material box 12 entering from the food material temporary storage compartment in the prefabricated food material temporary storage array; the lifting mechanism is arranged on the optical axis guide rail 29 in parallel, is perpendicular to the horizontal plane, and is used for lifting the table top body 18 along the optical axis guide rail 29 so that the bottom surface of the table top body 18 is in dynamic bridge communication with the bottom surface of the prefabricated food material temporary storage mechanism 42; the transverse blocking mechanism is movably arranged outside the prefabricated food material temporary storage mechanism 42 at the lowest part of the prefabricated food material temporary storage array, and is used for blocking the table top body 18 from descending in the process of descending the table top body 18, so that the table top body 18 turns over to throw the prefabricated food materials in the material box 12. Thereby, in the process that the lifting mechanism descends the table top body 18 along the optical axis guide rail 29, the table top body 18 is blocked from descending by the transverse blocking mechanism, so that the table top body 18 is turned over to throw in the prefabricated food materials in the material boxes 12 fixed in the table top body 18, and the prefabricated food materials in the material boxes 12 do not need to be thrown one by one in sequence, so that the throwing efficiency of the prefabricated food materials is effectively improved. In addition, through the upset of mesa body 18, throw in the prefabricated class food in the material box 12 of fixing in mesa body 18, can fully throw in the prefabricated class food in the material box 12, avoid the waste of food. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific embodiment, the mesa body 18 includes: a lifting limit slider 30, wherein the lifting limit slider 30 is movably arranged on the optical axis guide rail 29; the supporting plate is movably arranged on the lifting limit sliding block 30; the material box fixing structure is fixedly arranged on the supporting plate. Therefore, the material box 12 entering from the food material temporary storage compartment in the prefabricated food material temporary storage array can be effectively fixed through the mutual matching of the lifting limiting slide block 30, the supporting plate and the material box fixing structure. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In some alternative embodiments, the support plate comprises: a long end part and a short end part 31, wherein the long end part is movably connected with the short end part 31, and the short end part 31 is fixedly arranged on the lifting limit sliding block 30; and a support 32, the support 32 being disposed diagonally between the long end portion and the short end portion 31 such that the long end portion is placed horizontally and the short end portion 31 and the long end portion are perpendicular to each other. Wherein the first end of the supporting member 32 is fixedly disposed on the opposite side of the long end portion, and the second end of the supporting member 32 is movably disposed on a sliding groove 34 on the opposite side of the short end portion 31 by a sliding rod 33. Thereby, the long end portion is movably connected with the short end portion 31, and one end of the supporting member 32 is movably disposed on the slide groove 34 on the opposite side of the short end portion 31 by the slide bar 33, so that the long end portion of the supporting plate can be effectively turned around the short end portion 31 of the supporting plate. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In some alternative embodiments, the support plate further comprises: the elastic piece is arranged at the movable connection part of the long end part and the short end part 31, and is used for recovering the long end part to a horizontally placed state through elasticity after the long end part is overturned to put the prefabricated food materials in the material box 12. Thereby, the long end portion can be effectively restored to the horizontally placed state by the elastic member. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific example, the elastic member includes a right angle spring 41, one of two right angle legs of the right angle spring 41 is poured into the opposite side of the long end portion, and the other of the two right angle legs is poured into the opposite side of the short end portion. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In some alternative embodiments, as shown in fig. 33, the magazine fixing structure includes: the fixed bolster 35, the fixed bolster 35 set up in parallel in the both sides of the long end portion of backup pad, the inboard on the top of fixed bolster 35 has seted up the slide way 36 that is used for adapting the outward flange of the upper top surface of material box, and the fixed bolster 35 is provided with in the direction perpendicular to the fixed bolster 35 side be used for preventing the material box is from the stop strip 40 of the long end portion landing of backup pad. By this means, the magazine 12 entering from the food material holding compartment in the pre-made food material holding array can be effectively held by the shuttle 36 and the stop bar 40 provided on the holding frame 35. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific example, the lifting mechanism may include a chain 39 and a motor that may drive the chain 39 to rotate. Wherein the chain 39 is disposed in parallel on the optical axis guide 29 and perpendicular to a horizontal plane. Specifically, two chains 39 are disposed on the side edges of the two optical axis guides 29, respectively, and the two chains 39 are parallel to the two optical axis guides 29, respectively. In addition, the links in the two chains 39 are respectively fixedly connected with the lifting limit sliding blocks 30 on the two optical axis guide rails 29. Thereby, the two chains 39 drive the table body 18 to lift along the optical axis guide rails 29 by driving the lifting limit sliding blocks 30 on the two optical axis guide rails 29 to lift. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific example, the reversible table top 18 is raised or lowered to the pre-made food material temporary storage mechanism designated in the pre-made food material temporary storage array by forward and reverse rotation of the two chains 39, so that the two-part mechanism bottom surface bridge is realized, and the material box is located on the same plane and reciprocates between the bottom surface of the pre-made food material temporary storage mechanism and the bottom surface of the movable reversible table top. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific example, the support plate is an "L" shaped support plate, and by default, the long end portion of the support plate is horizontally placed in a manner rotated 90 degrees clockwise around the short end portion 31 of the support plate, the support plate is fixed between the two chains 39 in this posture with the short end portion 31 of the support plate pointing outward from the chains 39, the long end portion of the support plate is movably connected to the short end portion 31 of the support plate, and a support member 32 is obliquely fixed to the short end portion 31. The right angle spring 41 is arranged at the movable connection position of the short end part 31 of the support plate and the long end part of the support plate on the back surface of the support plate, one right angle spring leg of the two right angle spring legs of the right angle spring 41 is poured into the back surface of the long end part of the support plate, and the other right angle spring leg is poured into the back surface of the short end part 31 of the support plate, so that the long end part of the support plate is placed with the support piece 32 under default. The right angle spring 41 is further used for overturning the long end part of the support plate by the transverse blocking mechanism, then pouring the prefabricated food materials (the pouring side is on the side of the short end part 31 of the support plate), and after the chain ascends, the bottom of the L-shaped support plate is separated from the transverse blocking mechanism, and the long end part of the support plate is restored to a horizontally placed state by elasticity. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In one specific example, a chute 36 is provided along the left and right sides of the long end portion of the "L" shaped support plate in order to conform to the convex outer edges of the upper top surface of the magazine 12. Specifically, a sliding rope 36 for adapting to the outer edge of the upper top surface of the material box is arranged on the inner side of the top end of the fixed support. Further, a stopper 40 is provided at the end of one end of the long end portion of the support plate. Specifically, the fixing bracket 35 is provided with a stopping strip 40 for stopping the magazine 12 from sliding off the long end portion of the support plate in a direction perpendicular to the side surface of the fixing bracket 35. In actual operation, the protruding outer edges of the ends of the magazine 12 enter the shuttle 36 from the end remote from the short end portion 31 of the "L" shaped support plate until stopped by the stop bars 40, as shown in fig. 29, 30, 31 and 32. After that, the chain 39 descends, the bottom of the "L" shaped support plate is touched by the lateral blocking mechanism, and the prefabricated food material is tilted toward the short end portion 31 of the "L" shaped support plate. Since the chute 36 engages the convex outer edges on both sides of the top surface of the cartridge 12, the cartridge 12 will not slip off the support plate when turned over. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In one particular example, the table 18 has two work positions, work position one and work position two, respectively. Working position one: taking/delivering a bin; and a second working position: and (5) putting a bin. The taking bin refers to the feeding of the material box 12 out of the food material temporary storage compartment to the reversible table top body 18, and the feeding bin refers to the recycling of the food material temporary storage compartment (from the reversible table top body 18 into the food material temporary storage compartment) by the material box 12. As shown in fig. 29, 30, 31 and 32, the bin position refers to the position where the table top body 18 as a whole is lowered along with the chain 39 to the bottom thereof to touch the transverse blocking mechanism and rotate around the short end portion 31 of the supporting plate to perform a turnover action, so that the prefabricated food materials in the material box 12 are poured into the inlet of the next station. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In some alternative embodiments, as shown in fig. 28 and 34, the tabletop body 18 further comprises: the lug 37, the lug 37 is fixedly arranged on the area of the back surface of the long end part of the supporting plate far away from the short end part 31 of the supporting plate, and the area contacts the transverse blocking mechanism, and the lug 37 is used for touching the transverse blocking mechanism in the descending process of the long end part, so that the long end part is fully overturned to throw out the prefabricated food materials in the material box 12. Whereby the long end portion can be turned over sufficiently by the projection 37 to throw out the prefabricated food-like material in the magazine 12. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific example, in order to better enable the long end portion of the support plate to fully turn over in a given stroke, a bump 37 is disposed at a region of the bottom surface of the long end portion of the support plate away from the short end portion 31 of the support plate, and the region portion contacting the transverse blocking mechanism, so that in the process that the long end portion of the support plate contacts the transverse blocking mechanism, the bump 37 contacts the transverse blocking mechanism first, and the material box 12 is turned over thoroughly in a given link stroke, so that the prefabricated food materials inside the material box are completely turned over into the next station inlet. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In some alternative embodiments, as shown in fig. 34, the tabletop body 18 further comprises: a transfer structure 38, the transfer structure 38 being disposed on a surface of the long end portion of the support plate, the transfer structure 38 being for transferring the material cassette 12 into the fixed bracket. Wherein, the transmission structure includes: a transmission belt penetrating through a long end portion of the support plate; a transmission belt driven shaft mounted on the rotating chute of the fixed bracket 35, and passing through the transmission belt laterally; a transmission belt driving shaft mounted on a surface of the long end portion of the support plate, and passing transversely through the transmission belt; the motor is rotationally connected with the driving shaft of the transmission belt, and the motor is used for driving the transmission belt to rotate forward or reversely through the driving shaft of the transmission belt. Whereby the magazine can be efficiently transferred into the stationary support by means of the transfer mechanism 38. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific example, a conveying belt is arranged on the surface of the long end part of the L-shaped supporting plate, and the conveying belt is in forward or reverse rotation to match with the transportation of the material box, so that the material box can reciprocate between the food material temporary storage compartment and the long end part of the L-shaped supporting plate, and the taking and the delivering of the material box are completed. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In some alternative embodiments, the lateral blocking mechanism comprises: the rotating shaft 17 is arranged at a position far away from the bottom surface of the food material temporary storage compartment; the end of the long end of the rectangular bracket 16 is movably connected with the end of the rotating shaft 17; the motor is rotationally connected with the rotating shaft 17, and the motor is used for driving the rectangular bracket 16 to rotate anticlockwise through the rotating shaft 17, so that the long end of the rectangular bracket 16 is far away from the bottom surface of the food material temporary storage compartment and extends out of the bottom surface of the food material temporary storage compartment. Thereby, the downward movement of the table top body 18 of the prefabricated food material throwing executing mechanism can be effectively blocked, so that the table top body 18 of the prefabricated food material throwing executing mechanism is turned over to throw the prefabricated food material in the material box 12 in the table top body 18. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

In a specific example, the transverse blocking mechanism is movably arranged outside (only arranged at the layer) of the lowest food material temporary storage compartment of the prefabricated food material temporary storage array and is arranged near the outlet inside, and the transverse blocking mechanism is specifically as follows: a rotating shaft 17 is arranged, the rotating shaft 17 is connected with a motor to rotate, the two ends of the rotating shaft 17 are fixed with the short ends of a rectangular bracket 16, and the rectangular bracket 16 is driven to extend and recover (relative to the lower bottom surface of the food material temporary storage compartment) through forward and reverse rotation of the motor. The spindle 17 is arranged at the lower transverse end of the lower bottom surface of the temporary storage compartment for food materials, which is remote from the lower bottom surface. Because for a particular food item holding compartment the default magazine 12 is always manually entered with the lateral end advanced to the food item holding compartment. The rectangular bracket 16 has two working positions, one: by default, the long end of the rectangular bracket 16 is tightly attached to the outside of the bottom surface 2 of the temporary storage compartment for food materials, as shown in fig. 35; and a second working position: under the control of the instruction, the motor rotates anticlockwise for 120 degrees to stop, so that the long end of the rectangular bracket 16 is far away from the bottom surface 2 of the food material temporary storage compartment and extends out of the bottom surface 2 of the food material temporary storage compartment to play a blocking role, as shown in fig. 36. When the blocking action is not used, the rectangular bracket 16 is in the first working position so as not to affect other components and logic operation. It will be appreciated that the above description is exemplary only, and that the present embodiment is not limited in any way.

Of course, it is not necessary for any of the embodiments of the application to be practiced with all of the advantages described above.

The expressions "first", "second", "said first" or "said second" as used in the various embodiments of the application may modify various components without regard to order and/or importance, but these expressions do not limit the respective components. The above description is only for the purpose of distinguishing an element from other elements. For example, the first user device and the second user device represent different user devices, although both are user devices. For example, a first element could be termed a first element, and, similarly, a second element could be termed a first element, without departing from the scope of the present disclosure.

While the preferred application has been described, additional variations and modifications will occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the following appended claims be interpreted as including all such alterations and modifications as fall within the true scope of the application. It will be apparent to those skilled in the art that various modifications and variations can be made to the present application without departing from the spirit or scope of the application. Thus, it is intended that the present application also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims

1. Prefabricated class food material release mechanism, its characterized in that, prefabricated class food material release mechanism includes:

the feeding mechanism (83) of the material package form type prefabricated food materials is arranged in the prefabricated food material feeding area, and the feeding mechanism (83) of the material package form type prefabricated food materials is used for feeding the prefabricated food materials in the prefabricated food material package;

a feeding mechanism (84) of box-shaped prefabricated food materials, wherein the feeding mechanism (84) of the box-shaped prefabricated food materials is arranged in the feeding area of the prefabricated food materials, the feeding mechanism (84) of the box-shaped prefabricated food materials and the feeding mechanism (83) of the material package-shaped prefabricated food materials are vertically arranged in parallel, the feeding mechanism (84) of the box-shaped prefabricated food materials is used for feeding the prefabricated food materials in a prefabricated food material box,

wherein, the throwing mechanism (83) of the material package form type prefabricated food material comprises:

the fixed base is arranged in the prefabricated food material throwing area;

the chain transmission mechanism is arranged on the fixed base;

the first food material package throwing mechanism (81), the first food material package throwing mechanism (81) is fixedly arranged on the chain transmission mechanism, and the first food material package throwing mechanism (81) is used for throwing prefabricated food materials in the steamed-powder type prefabricated food material package;

The second food material package throwing mechanism (82), the second food material package throwing mechanism (82) is fixedly arranged on the chain transmission mechanism, and according to the running direction of the chain transmission mechanism, the fixed position of the second food material package throwing mechanism (82) on the chain transmission mechanism is positioned behind the fixed position of the first food material package throwing mechanism (81) on the chain transmission mechanism, and the second food material package throwing mechanism (82) is used for throwing prefabricated food materials in non-steamed type prefabricated food material packages;

the chain transmission mechanism is used for transmitting the first food material package transmitting mechanism (81) to the position right above a food material cooking device so as to transmit the prefabricated food materials in the steamed prefabricated food material package to the food material cooking device, and transmitting the second food material package transmitting mechanism (82) to the position right above the food material cooking device after transmitting the prefabricated food materials in the steamed prefabricated food material package so as to transmit the prefabricated food materials in the non-steamed prefabricated food material package to the food material cooking device,

wherein, the throwing mechanism (84) of the box-packed form type prefabricated food material comprises:

the prefabricated food material temporary storage array is arranged in the prefabricated food material throwing area and is formed by arranging a plurality of prefabricated food material temporary storage mechanisms (42) from bottom to top, and the prefabricated food material temporary storage mechanisms (42) in the prefabricated food material temporary storage mechanisms are used for temporarily storing material boxes (12) in which the prefabricated food materials are stored;

The prefabricated food material throwing executing mechanism (43), prefabricated food material throwing executing mechanism (43) with prefabricated food material temporary storage array is perpendicular to be juxtaposing the back, and the bottom surface of mesa body (18) in prefabricated food material throwing executing mechanism (43) with the bottom surface dynamic bridge of prefabricated food material temporary storage mechanism (42) leads to, prefabricated food material throwing executing mechanism (43) are used for throwing in from prefabricated food material in material box (12) that prefabricated food material temporary storage mechanism (42) got into.

2. The pre-formed food material feeding mechanism of claim 1, wherein the chain transfer mechanism comprises:

the chain driven wheel and the chain driving wheel are both arranged on the fixed base in an erected mode, driven chain gears are arranged at two ends of the chain driven wheel in parallel, and driving chain gears are arranged at two ends of the chain driving wheel in parallel;

the chain (50) is arranged on the driven chain wheel and the driving chain wheel in parallel through the driven chain gear and the driving chain gear;

a link plate (57), the link plate (57) being tiled between the chains (50);

the driving piece is rotationally connected with the chain driving wheel and is used for driving the chain (50) and the chain plate (57) to rotate through the chain driving wheel.

3. The pre-formed food material feeding mechanism according to claim 2, wherein the first food material packet feeding mechanism (81) comprises:

the fixed support is fixedly arranged on the chain transmission mechanism;

the movable support is movably suspended on the fixed support, so that the fixed support supports the movable support;

the steaming separation piece (48), the steaming separation piece (48) is detachably arranged on the movable support, and the steaming separation piece (48) is used for storing the steamed vermicelli prefabricated food material bags.

4. The pre-formed food material dispensing mechanism of claim 2, wherein the second food material packet dispensing mechanism (82) comprises:

the material bag pressing support is fixedly arranged on the chain transmission mechanism and used for pressing the non-steamed pre-made food material bags so that the discharge ends of the non-steamed pre-made food material bags are smooth;

the material bag shearing mechanism is fixedly arranged on the chain transmission mechanism and is used for shearing the discharge end of the non-steamed prefabricated food material bag;

the material bag extruding mechanism is fixedly arranged on the chain transmission mechanism and is used for extruding the prefabricated food materials in the non-steamed-powder prefabricated food material bags.

5. The prefabricated food material delivery mechanism according to claim 4, wherein the bale compacting support comprises:

the pressing end is used for pressing the non-steamed prefabricated food material packet so that the discharging end of the non-steamed prefabricated food material packet is smooth;

the fixed end is transversely arranged on the material bag extruding mechanism;

the telescopic rod, the both ends of telescopic rod fixed connection respectively compress tightly the end with the stiff end, the telescopic rod is used for adjusting compress tightly the end with distance between the stiff end, in order to adapt to the length of the prefabricated food package of non-powder class of steaming.

6. The pre-made food-like material feeding mechanism according to claim 1, wherein the pre-made food-like material temporary storage mechanism (42) comprises:

a fixed base (1);

the food material temporary storage compartment is arranged on the fixed base (1);

the transmission mechanism is arranged on the fixed base (1) and penetrates through the bottom surface of the food material temporary storage compartment;

-a magazine (12), the magazine (12) being housed within the food material temporary storage compartment and the magazine (12) being located on the transport mechanism;

The conveying mechanism is used for conveying the material box (12) out of the temporary storage compartment of the food materials, so that the material box (12) enters the preformed type food material throwing executing mechanism (43).

7. The pre-made food-like material feeding mechanism according to claim 1, wherein the pre-made food-like material feeding actuator (43) comprises:

the optical axis guide rail (29), the optical axis guide rail (29) is arranged in parallel on the opposite side of the prefabricated food material temporary storage array, and the optical axis guide rail (29) is perpendicular to the horizontal plane;

the table top body (18), the table top body (18) is movably arranged on the optical axis guide rail (29), and the table top body (18) is used for fixing the material box (12) entering from the prefabricated food material temporary storage mechanism (42);

the lifting mechanism is arranged on the optical axis guide rail (29) in parallel, is perpendicular to the horizontal plane, and is used for lifting the table top body (18) along the optical axis guide rail (29) so that the bottom surface of the table top body (18) is in dynamic bridge communication with the bottom surface of the prefabricated food material temporary storage mechanism (42);

the transverse blocking mechanism is movably arranged outside the prefabricated food material temporary storage mechanism (42) at the lowest part of the prefabricated food material temporary storage array, and is used for blocking the table top body (18) from descending in the process that the lifting mechanism drives the table top body (18) to descend, so that the table top body (18) is turned over to throw in the prefabricated food materials in the material box (12).

8. The pre-formed food material feeding mechanism according to claim 7, wherein the table top body (18) comprises:

the lifting limiting slide block (30) is movably arranged on the optical axis guide rail (29);

the supporting plate is movably arranged on the lifting limit sliding block (30);

the material box fixing structure is fixedly arranged on the supporting plate.

9. The pre-formed food material dispensing mechanism of claim 8, wherein the support plate comprises:

the long end part and the short end part (31), the long end part is movably connected with the short end part (31), and the short end part (31) is fixedly arranged on the lifting limit sliding block (30); and

-a support (32), said support (32) being arranged diagonally between said long end portion and said short end portion (31) such that said long end portion is placed horizontally and said short end portion (31) is mutually perpendicular to said long end portion.

10. The prefabricated food material feeding mechanism according to claim 8, wherein the material box fixing structure comprises:

a fixing bracket (35) which is arranged in parallel on both sides of the long end part of the supporting plate,

A slide way (36) for adapting to the outer edge of the upper top surface of the material box is arranged on the inner side of the top end of the fixed support (35), and a stop strip (40) for stopping the material box from sliding off from the long end part of the supporting plate is arranged on the fixed support (35) in the direction perpendicular to the side surface of the fixed support (35).