CN113396949A - Sesame seed cake preparation equipment - Google Patents

Abstract

The invention belongs to the technical field of sesame seed cake making, and particularly relates to sesame seed cake making equipment which comprises a discharging mechanism, a first conveying rolling mechanism and a second conveying rolling mechanism, wherein the discharging mechanism is positioned above the conveying direction of the first conveying rolling mechanism; place the dough that will rub in discharge mechanism's material case C, the face is extruded from the mechanical tubes through the extrusion, accomplish on conveyer A and spread out the brush flour, roll and spill the material, form strip dough sheet, cooperation commentaries on classics rod rolling dough sheet is cylindricly, later carry to conveyer B on, accomplish and brush unnecessary flour, the dissection, the dough piece rolls and spills sesame etc. can continously make the face skin that is used for toasting, to sum up, realize integrative automatic preparation face skin, work efficiency is high.

Description

Sesame seed cake preparation equipment

Technical Field

The invention belongs to the technical field of sesame seed cake making, and particularly relates to sesame seed cake making equipment.

Background

The sesame seed cake belongs to popular baked wheaten food, has various varieties, and comprises a plurality of patterns of material boxes, such as big cakes, baked cakes, Jinyun sesame seed cakes, traditional baked cakes in ancient Wen county, Huangshan baked cakes, traditional baked cakes, sesame seed cakes, fried dough cakes, fried baked cakes, leavened dough piles, dreg-falling baked cakes, sugar sesame paste baked cakes, fried dough cakes and the like.

In order to solve the problems, the application provides a sesame seed cake making device.

Disclosure of Invention

To solve the problems set forth in the background art described above. The invention provides sesame seed cake making equipment which has the characteristics of integrated automatic dough sheet production, high working efficiency and intellectualization.

In order to achieve the purpose, the invention provides the following technical scheme: a sesame seed cake making device comprises a discharging mechanism, a first conveying rolling mechanism and a second conveying rolling mechanism;

the discharging mechanism is positioned above the first conveying rolling mechanism in the conveying direction, and the second conveying rolling mechanism is positioned above the first conveying rolling mechanism in the conveying direction;

the discharging mechanism comprises a first supporting assembly, a first power source conveying assembly and a discharging assembly, the first power source conveying assembly is mounted inside the first supporting assembly, and the discharging assembly is mounted on the upper surface of the first supporting assembly;

the first conveying rolling machine comprises a second supporting assembly, a second power source conveying assembly, a distributing assembly and a rolling assembly, the second power source conveying assembly is mounted on one side of the second supporting assembly, the first supporting assembly is welded on the left side face of the second supporting assembly, and the distributing assembly and the rolling assembly are sequentially mounted on the side face of the second supporting assembly from left to right;

the second conveying and rolling mechanism comprises a third supporting component, a third power source conveying component, a cutting component, a first flattening component, a second flattening component and a material pouring plate, the third supporting component is located on one side, away from the first supporting component, of the second supporting component, the third power source conveying component is installed on one side of the third supporting component, the cutting component is installed at the left end of the third supporting component, and the first flattening component, the second flattening component and the material pouring plate are sequentially installed on the side face of the third supporting component from left to right.

Preferably, the sesame seed cake making equipment comprises a first support assembly, a second support assembly and a third support assembly, wherein the first support assembly comprises a support seat, a vertical plate A, a vertical plate B and an upper panel;

the first power source conveying assembly comprises a motor B, a speed reducer, a grooved pulley C and a grooved pulley D, the motor B and the speed reducer are both mounted on the upper surface of the bearing seat, an output shaft of the motor B is fixedly connected with the speed reducer, the grooved pulley C is mounted on the outer side wall of the vertical plate A, a first belt is connected to the outer side wall of the grooved pulley C in a sliding mode, and the other end of the first belt is rotatably connected with the grooved pulley D;

the ejection of compact subassembly includes material case C, passage, hob, ejection of compact return bend and mechanical tubes, material case C is fixed to be set up the upper surface of top panel, sheave D installs material case C's lateral wall, the hob sets up material case C's inside, just the hob with sheave D fixed connection, the hob just keeps away from sheave D's one end is stretched out material case C is outside, the passage welded fastening is in material case C's lateral wall and cover are established the lateral wall of hob, ejection of compact return bend fixed connection be in the lateral wall of passage, mechanical tubes fixed connection be in the lateral wall of ejection of compact return bend.

Preferably, the discharging mechanism further comprises a storage assembly A, and the storage assembly A is mounted on the outer side wall of the vertical plate B and is located above the second conveying and rolling mechanism.

Preferably, the second supporting assembly comprises a rectangular frame A, universal wheels A, an inverted-convex plate B, a guard plate A and a guard plate B, wherein the universal wheels A are installed at four corners of the bottom surface of the rectangular frame A, the inverted-convex plate A and the inverted-convex plate B are symmetrically installed on the front surface and the rear surface of the rectangular frame A, and the guard plate A and the guard plate B are symmetrically welded at the right end of the rectangular frame A;

the second power source conveying assembly comprises a motor A, a bearing seat A, a roller shaft A, a bearing seat B, a roller shaft B, a conveying belt A, a grooved pulley A and a grooved pulley B, the motor A is arranged on the inner bottom surface of the rectangular frame A, the bearing blocks A are symmetrically arranged on the front end surface and the rear end surface of the left end of the rectangular frame A, the roll shaft A and the bearing seats B are arranged between the two bearing seats A, the grooved pulley A and the grooved pulley B are respectively arranged on the roll shaft A and the bearing seats B, the roll shaft B is arranged between the two guard plates A, the output shaft of the motor A is in transmission connection with the grooved pulley B through a second belt, the grooved pulley A and the roller shaft B are in transmission connection through the conveying belt A, a transmission shaft is arranged on the front surface of the inverted convex plate A, and the grooved pulley A and the transmission shaft are in transmission connection through a third belt;

the spreading assembly comprises fixing rods, a mounting plate, a brush plate and a supporting plate, the supporting plate is mounted on the right side face of the inverted-convex plate A, the fixing rods are symmetrically welded and fixed on the front end face of the supporting plate, the mounting plate is rotatably connected between the two fixing rods, the brush plate is mounted on the mounting plate and is close to one side of the inverted-convex plate A, and the bottom face of the brush plate is in contact with the surface of the conveying belt A;

roll the subassembly and include jib, connecting rod, depression bar, base A, motor C and change the rod, jib symmetric welding is in the right flank bottom of backup pad, the connecting rod rotates to be connected two between the jib, the depression bar cover is established the lateral wall of connecting rod, the depression bar with connecting rod fixed connection, base A installs backplate A's front surface, motor C installs base A's upper surface, motor C's output shaft fixedly connected with changes the rod, change the lateral wall of rod with conveyer A's surface contacts each other.

As an optimization of sesame seed cake making equipment, the third supporting component comprises a rectangular frame B, universal wheels B, a portal frame A, a portal frame B, a portal frame C, a vertical arm A and a vertical arm B, wherein the universal wheels B are installed at four corners of the bottom surface of the rectangular frame B, the portal frame A and the portal frame B are installed on the front and back surfaces of the left end of the rectangular frame B in a pairwise symmetry manner, the portal frame C is installed on the upper surface of the rectangular frame B, and the vertical arm A and the vertical arm B are installed on the front and back surfaces of the rectangular frame B in a symmetry manner and are located on the right side of the portal frame C;

the third power source conveying assembly comprises a motor D, a grooved pulley F, a grooved pulley E, a roll shaft D, a conveying belt B and a roll shaft C, the motor D is installed on the inner bottom surface of the rectangular frame B, the grooved pulley F is installed on an output shaft of the motor D, the roll shaft D is rotatably connected to the inner side wall of the right end of the rectangular frame B, the grooved pulley E is rotatably connected to the front surface of the right end of the rectangular frame B, the grooved pulley E is fixedly connected with the roll shaft D, the roll shaft C is rotatably connected to the inner side wall of the left end of the rectangular frame B, the grooved pulley F is in transmission connection with the grooved pulley E through a fourth belt, and the roll shaft C is in transmission connection with the roll shaft D through the conveying belt B;

the cutting assembly comprises a pneumatic cutter, a strip-shaped brush plate and material pouring plates, the strip-shaped brush plate is installed on the right side face of the portal frame A, the bottom face of the strip-shaped brush plate is in contact with the conveying belt B, the pneumatic cutter is installed on the tops of the portal frame A and the portal frame B, and the material pouring plates are symmetrically installed on the inner side walls of the two portal frames B;

the first flattening assembly comprises an air cylinder A, a transverse plate, an oil tank, an oil guide pipe, a pressure plate A, Y-shaped frame A, Y-shaped frame B and a compression roller B, the air cylinder A is installed on the upper surface of the portal frame C, the transverse plate is fixedly welded on the right end surface of the portal frame C, the oil tank is installed on the right end upper surface of the transverse plate, the oil guide pipe is fixedly connected to the bottom surface of the transverse plate and is communicated with the oil tank, the pressure plate A is installed on a telescopic shaft of the air cylinder A and is located inside the portal frame C, the Y-shaped frame A and the Y-shaped frame B are symmetrically installed on the front and back surfaces of the rectangular frame B and are located on the right side of the portal frame C, and the compression roller B is rotatably connected between the Y-shaped frame A and the Y-shaped frame B;

the second flattening component comprises a cross beam plate A, a second cross beam plate B, an air cylinder B, a first cross beam plate B, a linear motor assembly and a pressure plate B, the cross beam plate A and the first cross beam plate B are symmetrically and respectively installed at the tops of the vertical arm A and the vertical arm B, the second cross beam plate B is installed on the upper surfaces of the cross beam plate A and the first cross beam plate B, the linear motor assembly is installed on the outer side walls of the cross beam plate A and the second cross beam plate B, the air cylinder B is installed at the top of the second cross beam plate B, and the pressure plate B is installed on a telescopic shaft of the air cylinder B;

the material pouring plate is fixedly connected to the top end of the right end of the rectangular frame B, and the right end of the material pouring plate is downward inclined.

Preferably, the second flattening assembly further comprises a U-shaped frame A, U B and a pressing roller C, the U-shaped frame A and the U-shaped frame B are symmetrically arranged on the front and back of the rectangular frame B and are positioned on the right side of the vertical arm A, and the pressing roller C is rotatably connected between the U-shaped frame A and the U-shaped frame B.

Preferably, in the sesame seed cake making apparatus according to the present invention, the position height of the press roller C is lower than the position height of the press roller B.

Preferably, the rectangular frame B further comprises a bottom plate and a material storage basin, the bottom plate is mounted on the rear surface of the rectangular frame B and close to one side of the vertical arm B, and the material storage basin is fixedly arranged on the upper surface of the bottom plate.

Preferably, the rolling component further comprises a storage component B, the storage component B comprises a fixing plate, a shell, a driving plate, a motor E and a scattering hopper, the fixing plate is mounted on the surface of the supporting plate, the shell is fixedly arranged on the end face of the fixing plate, the driving plate is mounted inside the shell, the motor E is mounted on the outer side wall of the shell, an output shaft of the motor E is fixedly connected with the driving plate, and the scattering hopper is fixedly connected to the bottom face of the shell.

Preferably, the storage assembly A and the storage assembly B have the same structure and principle.

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

through discharge mechanism, the cooperation of rolling mechanism is carried to first transport rolling mechanism and second, the dough that will rub is placed in discharge mechanism's material case C, the face is extruded from the mechanical tubes through the extrusion, accomplish on conveyer A and spread out the brush flour, roll and spill the material, form the strip dough sheet, the cooperation is changeed rod rolling dough sheet and is cylindricly, later carry to conveyer B on, accomplish to brush unnecessary flour, the dissection, the dough section rolls and spills the sesame etc. can continue to produce the face skin that is used for toasting, to sum up, realize integrative automatic preparation face skin, high work efficiency, intelligent development.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a rear view of the present invention;

FIG. 3 is a side view of the rolling assembly of the present invention;

FIG. 4 is an exploded view of the magazine assembly B of the present invention;

in the figure:

1. a rectangular frame A; 2. a motor A; 3. a bearing seat; 4. a motor B; 5. a vertical plate A; 6. a speed reducer; 7. a grooved wheel C; 8. a vertical plate B; 9. an upper panel; 10. a material tank C; 11. a material guide pipe; 12. a screw rod; 13. a grooved wheel D; 14. discharging bent pipes; 15. a special pipe; 16. a material storage component A; 17. a bearing seat A; 18. a bearing seat B; 19. a guard plate A; 20. a guard plate B; 21. a roll shaft A; 22. a roll shaft B; 23. a conveyor belt A; 24. a grooved wheel A; 25. a grooved wheel B; 26. a spreading assembly; 27. an inverted convex plate A; 28. an inverted convex plate B; 29. a support plate; 30. a material storage component B; 31. rolling the component; 32. a base A; 33. a motor C; 34. rotating the stick; 35. a rectangular frame B; 351. a base plate; 352. a material storage basin; 36. a roll shaft C; 37. a roll shaft D; 38. a conveyor belt B; 39. a motor D; 40. a grooved pulley F; 41. a grooved pulley E; 42. a portal frame A; 43. a gantry B; 44. a pneumatic cutter; 45. a strip-shaped brush plate; 46. a gantry C; 47. a cylinder A; 48. a pressure plate A; 49. a vertical arm A; 50. a beam plate A; 51. a vertical arm B; 52. a first beam panel B; 53. a linear motor assembly; 54. a second beam panel B; 55. a cylinder B; 56. a pressure plate B; 57. a transverse plate; 58. an oil tank; 59. an oil guide pipe; 60. a Y-shaped frame A; 61. a Y-shaped frame B; 62. a compression roller B; 63. a U-shaped frame A; 64. a U-shaped frame B; 65. a compression roller C; 66. material pouring plates; 67. a universal wheel A; 68. a universal wheel B; 69. a fixing plate; 70. a housing; 71. a dial; 72. a motor E; 73. a hopper for scattering.

Detailed Description

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

Example 1

As shown in fig. 1 and 2;

a sesame seed cake making device comprises a discharging mechanism, a first conveying rolling mechanism and a second conveying rolling mechanism;

the discharging mechanism is positioned above the conveying direction of the first conveying and rolling mechanism, and the second conveying and rolling mechanism is positioned above the conveying direction of the first conveying and rolling mechanism.

In this embodiment: this sesame seed cake preparation equipment carries rolling mechanism structure by discharge mechanism, first transport rolling mechanism and second, and current sesame seed cake preparation equipment exists generally for semi-automatic or artifical preparation, leads to work efficiency low, is unfavorable for integrative automatic manufacture, is unfavorable for the problem of intelligent development, to this problem, has added following structure in this scheme.

The discharging mechanism comprises a first supporting assembly, a first power source conveying assembly and a discharging assembly, the first power source conveying assembly is installed inside the first supporting assembly, and the discharging assembly is installed on the upper surface of the first supporting assembly;

the first conveying rolling machine comprises a second supporting assembly, a second power source conveying assembly, a distributing assembly 26 and a rolling assembly 31, wherein the second power source conveying assembly is installed on one side of the second supporting assembly, the first supporting assembly is welded on the left side face of the second supporting assembly, and the distributing assembly 26 and the rolling assembly 31 are sequentially installed on the side face of the second supporting assembly from left to right;

the second conveying and rolling mechanism comprises a third supporting component, a third power source conveying component, a cutting component, a first flattening component, a second flattening component and a material pouring plate 66, the third supporting component is located on one side of the second supporting component and far away from the first supporting component, the third power source conveying component is installed on one side of the third supporting component, the cutting component is installed at the left end of the third supporting component, and the first flattening component, the second flattening component and the material pouring plate 66 are sequentially installed on the side face of the third supporting component from left to right.

In this embodiment: the first support assembly supports the first power source conveying assembly and the discharging assembly, and the first power source conveying assembly is matched with the discharging assembly so as to gradually extrude kneaded dough to finish primary operation;

the second supporting assembly supports the second power source conveying assembly, the distributing assembly 26 and the rolling assembly 31, the second power source conveying assembly is used for conveying dough sheets, the distributing assembly 26 can enable the surface of the conveying belt A23 to be brushed with flour in advance, the situation that dough is stuck on the conveying belt A23 is effectively prevented, and the rolling assembly 31 enables the extruded strip-shaped dough sheets to form strip-shaped dough sheets, sprinkles seasonings and winds the strip-shaped dough sheets;

the third supporting component plays a supporting role for other components, the third power source conveying component is a power source for conveying dough sheets, the cutting component uniformly cuts cylindrical dough into sections, the first flattening component and the second flattening component are matched to facilitate flattening the dough sheets and adhering sesame, and finally the dough sheets are conveyed in a bearing mode through the material pouring plate 66.

Further, the method comprises the following steps:

in an alternative embodiment: the first supporting assembly comprises a supporting seat 3, a vertical plate A5, a vertical plate B8 and an upper panel 9, the supporting seat 3 and the upper panel 9 are symmetrically arranged, and the vertical plate A5 and the vertical plate B8 are symmetrically arranged;

the first power source conveying assembly comprises a motor B4, a speed reducer 6, a grooved pulley C7 and a grooved pulley D13, the motor B4 and the speed reducer 6 are both arranged on the upper surface of the bearing seat 3, an output shaft of the motor B4 is fixedly connected with the speed reducer 6, the grooved pulley C7 is arranged on the outer side wall of the vertical plate A5, the outer side wall of the grooved pulley C7 is connected with a first belt in a sliding mode, and the other end of the first belt is rotatably connected with the grooved pulley D13;

the ejection of compact subassembly includes material case C10, passage 11, hob 12, ejection of compact return bend 14, and mechanical tubes 15, the fixed upper surface that sets up at top panel 9 of material case C10, sheave D13 installs the lateral wall at material case C10, hob 12 sets up the inside at material case C10, and hob 12 and sheave D13 fixed connection, hob 12 and the one end of keeping away from sheave D13 stretch out material case C10 outside, passage 11 welded fastening is established at the lateral wall of material case C10 and the lateral wall of establishing hob 12, ejection of compact return bend 14 fixed connection is at the lateral wall of passage 11, mechanical tubes 15 fixed connection is at the lateral wall of ejection of compact return bend 14.

In this embodiment, it should be noted that: the dough is placed in the material box C10, the motor B4 is started to drive the speed reducer 6 to operate, the grooved pulley C7, the grooved pulley D13 and the first belt are matched to drive the spiral rod 12 to rotate, the dough is gradually extruded to the material guide pipe 11, the material discharge bent pipe 14 and the special pipe 15 are matched to extrude the dough to the upper surface of the conveying belt A23, the dough extruded by the special pipe 15 is in a long strip shape, and later rolling manufacturing is facilitated.

Further, the method comprises the following steps:

in an alternative embodiment: the discharging mechanism further comprises a storage assembly A16, and the storage assembly A16 is installed on the outer side wall of the vertical plate B8 and is located above the second conveying and rolling mechanism.

In this embodiment, it should be noted that: store up the flour at storage component A16, can spill the flour on conveyer A23's upper surface, prevent that the dough from gluing the condition, be convenient for carry and make the dough sheet.

Further, the method comprises the following steps:

in an alternative embodiment: the second support assembly comprises a rectangular frame A1, a universal wheel A67, an inverted convex plate A27, an inverted convex plate B28, a guard plate A19 and a guard plate B20, wherein the universal wheel A67 is installed at four corners of the bottom surface of the rectangular frame A1, the inverted convex plate A27 and the inverted convex plate B28 are symmetrically installed at the front and back surfaces of the rectangular frame A1, and the guard plate A19 and the guard plate B20 are symmetrically welded at the right end of the rectangular frame A1;

the second power source conveying assembly comprises a motor A2, a bearing seat A17, a roller shaft A21, a bearing seat B18, a roller shaft B22, a conveying belt A23, a grooved pulley A24 and a grooved pulley B25, wherein a motor A2 is installed on the inner bottom surface of a rectangular frame A1, the bearing seat A17 is symmetrically installed on the front end surface and the rear end surface of the left end of the rectangular frame A1, the roller shaft A21 and the bearing seat B18 are installed between the two bearing seats A17, the grooved pulley A24 and the grooved pulley B25 are installed on the roller shaft A21 and the bearing seat B18 respectively, the roller shaft B22 is installed between the two guard plates A19, an output shaft of the motor A2 and the grooved pulley B25 are in transmission connection through a second belt, the grooved pulley A24 and the roller shaft B22 are in transmission connection through a conveying belt A23, a transmission shaft A27 is installed on the front surface of an inverted convex plate A27, and the grooved pulley A24 is connected with the transmission shaft through a third transmission belt;

the apportioning assembly 26 comprises fixing rods, a mounting plate, a brush plate and a supporting plate 29, wherein the supporting plate 29 is mounted on the right side surface of the inverted-convex plate A27, the fixing rods are symmetrically welded and fixed on the front end surface of the supporting plate 29, the mounting plate is rotatably connected between the two fixing rods, the brush plate is mounted on the mounting plate and close to one side of the inverted-convex plate A27, and the bottom surface of the brush plate is in contact with the surface of the conveying belt A23;

roll subassembly 31 including the jib, the connecting rod, the depression bar, base A32, motor C33 and commentaries on classics rod 34, the jib symmetric welding is in the right flank bottom end of backup pad 29, the connecting rod rotates to be connected between two jibs, the lateral wall at the connecting rod is established to the depression bar cover, depression bar and connecting rod fixed connection, the front surface at backplate A19 is installed to base A32, motor C33 installs the upper surface at base A32, motor C33's output shaft fixedly connected with changes rod 34, the surface of changeing the lateral wall of rod 34 and conveyer A23 contacts each other.

In this embodiment: can remove the position of rectangular frame A1 at will through four universal wheels A67, be convenient for remove, motor A2 cooperation second belt drive sheave B25 rotates after starting, thereby cooperation conveyer A23 drives roller B22 and rotates, can be at conveyer A23's surface transport dough sheet, when the dough sheet drops to conveyer A23's upper surface, can share the flour that spills on conveyer A23 through sharing subassembly 26, do benefit to evenly spreading out the flour, rethread rolls subassembly 31 and will extrude the strip dough sheet and form the strip dough sheet, cooperation motor C33 and commentaries on classics rod 34 will have the dough sheet roll of seasoning to be cylindricly, can accomplish the transport and the preparation of second stage.

Further, the method comprises the following steps:

in an alternative embodiment: the third support assembly comprises a rectangular frame B35, a universal wheel B68, a portal frame A42, a portal frame B43, a portal frame C46, a vertical arm A49 and a vertical arm B51, the universal wheels B68 are installed at four corners of the bottom surface of the rectangular frame B35, the portal frame A42 and the portal frame B43 are symmetrically installed on the front and back of the left end of the rectangular frame B35 in pairs, the portal frame C46 is installed on the upper surface of the rectangular frame B35, and the vertical arm A49 and the vertical arm B51 are symmetrically installed on the front and back of the rectangular frame B35 and are located on the right side of the portal frame C46;

the third power source conveying assembly comprises a motor D39, a grooved pulley F40, a grooved pulley E41, a roller D37, a conveying belt B38 and a roller C36, the motor D39 is mounted on the inner bottom surface of a rectangular frame B35, the grooved pulley F40 is mounted on an output shaft of the motor D39, a roller D37 is rotatably connected to the inner side wall of the right end of the rectangular frame B35, a grooved pulley E41 is rotatably connected to the front surface of the right end of the rectangular frame B35, the grooved pulley E41 is fixedly connected with the roller D37, a roller C36 is rotatably connected to the inner side wall of the left end of the grooved pulley B35, the grooved pulley F40 is in transmission connection with the grooved pulley E41 through a fourth belt, and the roller C36 is in transmission connection with the roller D37 through the conveying belt B38;

the cutting assembly comprises a pneumatic cutter 44, a strip-shaped brush plate 45 and a material pouring plate 66, the strip-shaped brush plate 45 is arranged on the right side face of a portal frame A42, the bottom face of the strip-shaped brush plate 45 is in contact with a conveying belt B38, the pneumatic cutter 44 is arranged on the tops of the portal frame A42 and the portal frame B43, and the material pouring plate 66 is symmetrically arranged on the inner side walls of the two portal frames B43;

the first flattening assembly comprises an air cylinder A47, a transverse plate 57, an oil tank 58, an oil guide pipe 59, a pressure plate A48, a Y-shaped frame A60, a Y-shaped frame B61 and a pressing roller B62, the air cylinder A47 is installed on the upper surface of a portal frame C46, the transverse plate 57 is fixedly welded on the right end surface of the portal frame C46, the oil tank 58 is installed on the right end upper surface of the transverse plate 57, the oil guide pipe 59 is fixedly connected to the bottom surface of the transverse plate 57 and is mutually communicated with the transverse plate 58, the pressure plate A48 is installed on a telescopic shaft of the air cylinder A47, the pressure plate A48 is located inside the portal frame C46, the Y-shaped frame A60 and the Y-shaped frame B61 are symmetrically installed on the front and back surfaces of the rectangular frame B35 and are located on the right side of the portal frame C46, and the pressing roller B62 is rotatably connected between the Y-shaped frame A60 and the Y-shaped frame B61;

the second flattening assembly comprises a cross beam plate A50, a second cross beam plate B54, a cylinder B55, a first cross beam plate B52, a linear motor assembly 53 and a pressure plate B56, wherein the cross beam plate A50 and the first cross beam plate B52 are symmetrically and respectively installed at the tops of a vertical arm A49 and a vertical arm B51, a second cross beam plate B54 is installed on the upper surfaces of the cross beam plate A50 and the first cross beam plate B52, the linear motor assembly 53 is installed on the outer side walls of the cross beam plate A50 and the second cross beam plate B54, the cylinder B55 is installed at the top of the second cross beam plate B54, and the pressure plate B56 is installed on a telescopic shaft of the cylinder B55;

the material pouring plate 66 is fixedly connected to the top end of the right end of the rectangular frame B35, and the right end of the material pouring plate 66 is inclined downwards.

In this embodiment: when cylindrical dough sheets are conveyed to a conveying belt B38, the cylindrical dough sheets are uniformly cut into sections by a pneumatic cutter 44, a material pouring plate 66 plays a role in position limitation of the dough sheets, redundant miscellaneous powder of the dough sheets is brushed by a strip-shaped brush plate 45 of a portal frame A42, the dough sections are flattened by matching of an air cylinder A47 and a pressure plate A48, oil is sprayed on a press roller B62 by an oil tank 58 to coat the dough sheets, sesame in a material storage basin 352 is dipped by matching of an air cylinder B55, a linear motor assembly 53 and a pressure plate B56, the sesame is pressed on the dough sheets, and finally, the dough sheets capable of being directly baked are formed by extrusion of the press roller C65.

Further, the method comprises the following steps:

in an alternative embodiment: the second crushing assembly also comprises a U-shaped frame A63, a U-shaped frame B64 and a compression roller C65, wherein the U-shaped frame A63 and the U-shaped frame B64 are symmetrically arranged on the front and back surfaces of the rectangular frame B35 and are positioned on the right side of the vertical arm A49, and the compression roller C65 is rotatably connected between the U-shaped frame A63 and the U-shaped frame B64.

In this embodiment, it should be noted that: the dough sheet after being oiled and stuck with sesame is finally extruded, the final plasticity of the dough sheet is facilitated, and the dough sheet is convenient to be directly baked in the later period.

Further, the method comprises the following steps:

in an alternative embodiment: the position height of the press roller C65 is lower than the position height of the press roller B62.

In this embodiment, it should be noted that: if the dough sheet at the press roller B62 is lifted by the press roller A48, the press roller C65 is finally used for ensuring the thickness of the dough sheet.

Further, the method comprises the following steps:

in an alternative embodiment: the rectangular frame B35 further includes a bottom plate 351 and a magazine tray 352, the bottom plate 351 is mounted on the rear surface of the rectangular frame B35 and on the side close to the vertical arm B51, and the magazine tray 352 is fixedly disposed on the upper surface of the bottom plate 351.

In this embodiment, it should be noted that: the personnel deposit the sesame in the inside of storage basin 352, make things convenient for pressure disk B56 directly to dip in and get, conveniently press the sesame on the dough sheet.

As shown in fig. 3 and 4;

in an alternative embodiment: the grinding assembly 31 further comprises a storage assembly B30, the storage assembly B30 comprises a fixing plate 69, a housing 70, a driving plate 71, a motor E72 and a material spreading hopper 73, the fixing plate 69 is mounted on the surface of the supporting plate 29, the housing 70 is fixedly arranged on the end face of the fixing plate 69, the driving plate 71 is mounted inside the housing 70, the motor E72 is mounted on the outer side wall of the housing 70, the output shaft of the motor E72 is fixedly connected with the driving plate 71, and the material spreading hopper 73 is fixedly connected to the bottom face of the housing 70.

In this embodiment, it should be noted that: the motor E72 is started, the motor E72 drives the dial 71 to rotate, and the storage material in the housing 70 is scattered on the dough sheet at intervals by the material-storing and distributing hopper 73.

Further, the method comprises the following steps:

in an alternative embodiment: the structure and principle of the magazine assembly a16 and the magazine assembly B30 are the same.

In this embodiment, it should be noted that: the flour is conveniently scattered at intervals, and the waste of the flour is avoided.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A sesame seed cake preparation equipment which is characterized in that: comprises a discharging mechanism, a first conveying rolling mechanism and a second conveying rolling mechanism;

the discharging mechanism is positioned above the first conveying rolling mechanism in the conveying direction, and the second conveying rolling mechanism is positioned above the first conveying rolling mechanism in the conveying direction;

the discharging mechanism comprises a first supporting assembly, a first power source conveying assembly and a discharging assembly, the first power source conveying assembly is mounted inside the first supporting assembly, and the discharging assembly is mounted on the upper surface of the first supporting assembly;

the first conveying rolling machine comprises a second supporting assembly, a second power source conveying assembly, a distributing assembly (26) and a rolling assembly (31), the second power source conveying assembly is installed on one side of the second supporting assembly, the first supporting assembly is welded on the left side face of the second supporting assembly, and the distributing assembly (26) and the rolling assembly (31) are sequentially installed on the side face of the second supporting assembly from left to right;

the second conveying and rolling mechanism comprises a third supporting component, a third power source conveying component, a cutting component, a first flattening component, a second flattening component and a material pouring plate (66), the third supporting component is located on one side, away from the first supporting component, of the second supporting component, the third power source conveying component is installed on one side of the third supporting component, the cutting component is installed at the left end of the third supporting component, and the first flattening component, the second flattening component and the material pouring plate (66) are sequentially installed on the side face of the third supporting component from left to right.

2. Sesame seed cake making apparatus as claimed in claim 1, wherein: the first supporting assembly comprises a supporting seat (3), a vertical plate A (5), a vertical plate B (8) and an upper panel (9), the supporting seat (3) and the upper panel (9) are symmetrically arranged, and the vertical plate A (5) and the vertical plate B (8) are symmetrically arranged;

the first power source conveying assembly comprises a motor B (4), a speed reducer (6), a grooved pulley C (7) and a grooved pulley D (13), the motor B (4) and the speed reducer (6) are both mounted on the upper surface of the bearing seat (3), an output shaft of the motor B (4) is fixedly connected with the speed reducer (6), the grooved pulley C (7) is mounted on the outer side wall of the vertical plate A (5), a first belt is connected to the outer side wall of the grooved pulley C (7) in a sliding mode, and the other end of the first belt is rotatably connected with the grooved pulley D (13);

the discharging component comprises a material box C (10), a material guide pipe (11), a screw rod (12), a discharging elbow pipe (14) and a special pipe (15), the material box C (10) is fixedly arranged on the upper surface of the upper panel (9), the grooved pulley D (13) is arranged on the outer side wall of the material tank C (10), the screw rod (12) is arranged in the material tank C (10), the screw rod (12) is fixedly connected with the grooved pulley D (13), one end of the screw rod (12) far away from the grooved pulley D (13) extends out of the material tank C (10), the material guide pipe (11) is welded and fixed on the outer side wall of the material box C (10) and sleeved on the outer side wall of the screw rod (12), the discharge elbow (14) is fixedly connected with the outer side wall of the material guide pipe (11), the special pipe (15) is fixedly connected to the outer side wall of the discharge elbow (14).

3. Sesame seed cake making apparatus as claimed in claim 2, characterized in that: discharging mechanism still includes magazine assembly A (16), magazine assembly A (16) are installed the lateral wall of riser B (8), and are located the second is carried rolling mechanism's top.

4. Sesame seed cake making apparatus as claimed in claim 1, wherein: the second supporting assembly comprises a rectangular frame A (1), universal wheels A (67), inverted-convex plates A (27), inverted-convex plates B (28), guard plates A (19) and guard plates B (20), wherein the universal wheels A (67) are installed at four corners of the bottom surface of the rectangular frame A (1), the inverted-convex plates A (27) and the inverted-convex plates B (28) are symmetrically installed on the front and back surfaces of the rectangular frame A (1), and the guard plates A (19) and the guard plates B (20) are symmetrically welded at the right end of the rectangular frame A (1);

the second power source conveying assembly comprises a motor A (2), a bearing seat A (17), a roller shaft A (21), a bearing seat B (18), a roller shaft B (22), a conveying belt A (23), a grooved pulley A (24) and a grooved pulley B (25), wherein the motor A (2) is installed on the inner bottom surface of the rectangular frame A (1), the bearing seats A (17) are symmetrically installed on the front end surface and the rear end surface of the left end of the rectangular frame A (1), the roller shaft A (21) and the bearing seat B (18) are installed between the two bearing seats A (17), the grooved pulley A (24) and the grooved pulley B (25) are respectively installed on the roller shaft A (21) and the bearing seat B (18), the roller shaft B (22) is installed between the two guard plates A (19), and the output shaft of the motor A (2) is in transmission connection with the grooved pulley B (25) through a second belt, the grooved pulley A (24) and the roller shaft B (22) are in transmission connection through the conveying belt A (23), a transmission shaft is installed on the front surface of the inverted convex plate A (27), and the grooved pulley A (24) and the transmission shaft are in transmission connection through a third belt;

the apportioning assembly (26) comprises fixing rods, a mounting plate, a brush plate and a supporting plate (29), the supporting plate (29) is mounted on the right side face of the inverted-convex plate A (27), the fixing rods are symmetrically welded and fixed on the front end face of the supporting plate (29), the mounting plate is rotatably connected between the two fixing rods, the brush plate is mounted on the mounting plate and close to one side of the inverted-convex plate A (27), and the bottom face of the brush plate is in contact with the surface of the conveying belt A (23);

roll subassembly (31) including jib, connecting rod, depression bar, base A (32), motor C (33) and change rod (34), the jib symmetric welding is in the right flank bottom of backup pad (29), the connecting rod rotates to be connected two between the jib, the depression bar cover is established the lateral wall of connecting rod, the depression bar with connecting rod fixed connection, base A (32) are installed the front surface of backplate A (19), motor C (33) are installed the upper surface of base A (32), the output shaft fixedly connected with of motor C (33) changes rod (34), change the lateral wall of rod (34) with the surface of conveyer A (23) contacts each other.

5. Sesame seed cake making apparatus as claimed in claim 1, wherein: the third support assembly comprises a rectangular frame B (35), universal wheels B (68), a portal frame A (42), a portal frame B (43), a portal frame C (46), a vertical arm A (49) and a vertical arm B (51), the universal wheels B (68) are installed at four corners of the bottom surface of the rectangular frame B (35), the portal frame A (42) and the portal frame B (43) are symmetrically installed on the front and back surfaces of the left end of the rectangular frame B (35) in pairs, the portal frame C (46) is installed on the upper surface of the rectangular frame B (35), and the vertical arm A (49) and the vertical arm B (51) are symmetrically installed on the front and back surfaces of the rectangular frame B (35) and are located on the right side of the portal frame C (46);

the third power source conveying assembly comprises a motor D (39), a sheave F (40), a sheave E (41), a roller shaft D (37), a conveying belt B (38) and a roller shaft C (36), the motor D (39) is arranged on the inner bottom surface of the rectangular frame B (35), the grooved pulley F (40) is arranged on an output shaft of the motor D (39), the roller shaft D (37) is rotatably connected to the inner side wall of the right end of the rectangular frame B (35), the sheave E (41) is rotatably connected to the right end front surface of the rectangular frame B (35), the sheave E (41) is fixedly connected with the roller shaft D (37), the roller shaft C (36) is rotatably connected with the inner side wall of the left end of the rectangular frame B (35), the sheave F (40) and the sheave E (41) are in transmission connection through a fourth belt, the roller shaft C (36) and the roller shaft D (37) are in transmission connection through the conveying belt B (38);

the cutting assembly comprises a pneumatic cutter (44), a strip-shaped brush plate (45) and material pouring plates (66), the strip-shaped brush plate (45) is installed on the right side face of the portal frame A (42), the bottom face of the strip-shaped brush plate (45) is in contact with the conveying belt B (38), the pneumatic cutter (44) is installed on the tops of the portal frame A (42) and the portal frame B (43), and the material pouring plates (66) are symmetrically installed on the inner side walls of the two portal frames B (43);

the first flattening assembly comprises an air cylinder A (47), a transverse plate (57), an oil tank (58), an oil guide pipe (59), a pressure plate A (48), a Y-shaped frame A (60), a Y-shaped frame B (61) and a pressing roller B (62), the air cylinder A (47) is installed on the upper surface of the portal frame C (46), the transverse plate (57) is fixedly welded on the right end surface of the portal frame C (46), the oil tank (58) is installed on the upper surface of the right end of the transverse plate (57), the oil guide pipe (59) is fixedly connected to the bottom surface of the transverse plate (57) and communicated with the oil tank (58), the pressure plate A (48) is installed on an expansion shaft of the air cylinder A (47), the pressure plate A (48) is located inside the portal frame C (46), the Y-shaped frame A (60) and the Y-shaped frame B (61) are symmetrically installed on the front surface and the back surface of the rectangular frame B (35), the compression roller B (62) is rotatably connected between the Y-shaped frame A (60) and the Y-shaped frame B (61);

the second flattening assembly comprises a cross beam plate A (50), a second cross beam plate B (54), a cylinder B (55), a first cross beam plate B (52), a linear motor assembly (53) and a pressure plate B (56), wherein the cross beam plate A (50) and the first cross beam plate B (52) are symmetrically and respectively installed at the tops of the vertical arm A (49) and the vertical arm B (51), the second cross beam plate B (54) is installed on the upper surfaces of the cross beam plate A (50) and the first cross beam plate B (52), the linear motor assembly (53) is installed on the outer side walls of the cross beam plate A (50) and the second cross beam plate B (54), the cylinder B (55) is installed at the top of the second cross beam plate B (54), and the pressure plate B (56) is installed on a telescopic shaft of the cylinder B (55);

the material pouring plate (66) is fixedly connected to the top end of the right end of the rectangular frame B (35), and the right end of the material pouring plate (66) is inclined downwards.

6. Sesame seed cake making apparatus as claimed in claim 5, wherein: the second flattening assembly further comprises a U-shaped frame A (63), a U-shaped frame B (64) and a pressing roller C (65), the U-shaped frame A (63) and the U-shaped frame B (64) are symmetrically arranged on the front face and the rear face of the rectangular frame B (35) and are located on the right side of the vertical arm A (49), and the pressing roller C (65) is rotatably connected between the U-shaped frame A (63) and the U-shaped frame B (64).

7. Sesame seed cake making apparatus as claimed in claim 6, wherein: the position height of the press roller C (65) is lower than that of the press roller B (62).

8. Sesame seed cake making apparatus as claimed in claim 5, wherein: the rectangular frame B (35) further comprises a bottom plate (351) and a storage basin (352), the bottom plate (351) is installed on the rear surface of the rectangular frame B (35) and close to one side of the vertical arm B (51), and the storage basin (352) is fixedly arranged on the upper surface of the bottom plate (351).

9. Sesame seed cake making apparatus as claimed in claim 4, wherein: roll subassembly (31) and still include storage component B (30), storage component B (30) are including fixed plate (69), shell (70), driver plate (71), motor E (72) and spill hopper (73), fixed plate (69) are installed the surface of backup pad (29), shell (70) are fixed to be set up the terminal surface of fixed plate (69), driver plate (71) are installed the inside of shell (70), motor E (72) are installed the lateral wall of shell (70), the output shaft of motor E (72) with driver plate (71) fixed connection, spill hopper (73) fixed connection be in the bottom surface of shell (70).

10. Sesame seed cake making apparatus as claimed in claim 3, wherein: the structure and the principle of the storage assembly A (16) and the storage assembly B (30) are the same.

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