CN110802650A

CN110802650A - Multifunctional vegetable cutter

Info

Publication number: CN110802650A
Application number: CN201910982332.7A
Authority: CN
Inventors: 宋宪刚; 宋宪龙; 宋宪虎; 李宪伟; 马爱玲; 宋庆朋
Original assignee: SHANDONG TIANLONG COOKER MACHINERY Co Ltd
Current assignee: SHANDONG TIANLONG COOKER MACHINERY Co Ltd
Priority date: 2019-10-16
Filing date: 2019-10-16
Publication date: 2020-02-18
Anticipated expiration: 2039-10-16
Also published as: CN110802650B

Abstract

The invention relates to a multifunctional vegetable cutter, which comprises a rack, wherein two ends of the rack are respectively and rotatably connected with a first cutter shaft and a second cutter shaft, one end of each cutter shaft is provided with a first cutter disc, one end of each cutter shaft is provided with a second cutter disc, the first cutter shaft is fixedly connected with a first output gear, and the second cutter shaft is fixedly connected with a second output gear; a first speed reducing shaft and a second speed reducing shaft are rotationally connected in the rack, the first speed reducing shaft is fixedly connected with a first speed reducing gear, and the second speed reducing shaft is fixedly connected with a second speed reducing gear; a first transmission shaft and a second transmission shaft are further rotatably connected in the rack, a first reversing shaft and a second reversing shaft are further rotatably connected in the rack, the first reversing shaft is fixedly connected with a first reversing gear, and the second reversing shaft is fixedly connected with a second reversing gear; bevel gear grooves are formed in one ends of the reversing shaft I and the reversing shaft II, a sliding table is connected in the rack in a sliding mode, a driving shaft is connected to the sliding table in a rotating mode, a driving motor is arranged on the sliding table, and bevel gear shafts are fixedly connected to two ends of the driving shaft.

Description

Multifunctional vegetable cutter

Technical Field

The invention relates to the technical field of vegetable cutters, in particular to a multifunctional vegetable cutter.

Background

At present, the vegetable cutting workload of canteens and restaurants is very large, great burden is caused to people, various types of vegetable cutters appear in the market in order to release people from the complicated vegetable cutting work, and a device capable of cutting various vegetables into slices or blocks is a multifunctional vegetable cutter.

The existing referenceable authorization publication numbers are: CN 204094837U's chinese utility model patent discloses a multifunctional vegetable cutter, which comprises a frame, the both sides of frame are provided with the first cutting device of cutting leaf vegetable class vegetables and the second cutting device of cutting rhizome class vegetables respectively, first cutting device with second cutting device is provided with cutting tool including the hopper that is provided with pan feeding mouth and discharge gate in this hopper, in addition, in the frame with the corresponding position of pan feeding mouth of first cutting device is provided with conveyor, is close to on this conveyor the pan feeding mouth department of first cutting device is provided with presses the dish device. The utility model has the advantages that: through set up the first cutting device of cutting leaf vegetable class vegetables and the second cutting device of cutting rhizome class vegetables respectively in the frame for vegetable-chopper can enough be used for the processing of leaf vegetable class vegetables, also can be used for the processing of rhizome class vegetables, has satisfied people to the different demands of vegetable-chopper.

The above prior art solutions have the following drawbacks: the cutting of present this kind of cutting machine can only adopt automatically controlled realization vegetable, and often when using, can appear only need cutting a small amount of vegetable, and at this moment, if frequent switch equipment, will cause the influence to the life of equipment, and the operation is inconvenient, in addition, in case the use occasion outage, this equipment also will can't use, leads to the unable completion of cutting of vegetable.

Disclosure of Invention

The invention aims to provide a multifunctional vegetable cutter which can realize various manual and electric matching working modes, thereby being convenient to be suitable for different working conditions.

The above object of the present invention is achieved by the following technical solutions:

a multifunctional vegetable cutter comprises a rack, wherein a first cutter shaft and a second cutter shaft are respectively and rotatably connected to two ends of the rack, the axis direction of the first cutter shaft and the length direction of the rack are the same, one end of each cutter shaft extends out of the rack and is provided with a first cutter disc, one end of each cutter shaft extends out of the rack and is provided with a second cutter disc, the first cutter shaft is fixedly connected with a first output gear, and the second cutter shaft is fixedly connected with a second output gear; a first speed reducing shaft and a second speed reducing shaft are rotationally connected with the rack, the first speed reducing shaft is fixedly connected with a first speed reducing gear meshed with the first output gear, and the second speed reducing shaft is fixedly connected with a second speed reducing gear meshed with the second output gear; a first transmission shaft and a second transmission shaft are further rotatably connected in the rack, the first transmission shaft is fixedly connected with a first transmission gear which can be meshed with a first reduction gear, the second transmission shaft is fixedly connected with a second transmission gear which can be meshed with a second reduction gear, a first reversing shaft and a second reversing shaft are further rotatably connected in the rack, the first reversing shaft is fixedly connected with a first reversing gear which can be meshed with the first transmission gear, and the second reversing shaft is fixedly connected with a second reversing gear which can be meshed with the second transmission gear; the bevel gear groove has all been seted up to the reversing shaft and one with the two one ends that are close to each other of reversing shaft, the length direction who follows the frame in the frame slides and is connected with the slip table, it is connected with the drive shaft to rotate on the slip table, be provided with on the slip table and can drive shaft pivoted driving motor, the equal rigid coupling in both ends of drive shaft has the bevel gear axle with the drive shaft coaxial line, and arbitrary bevel gear axle slides along with the drive shaft and can insert and locate corresponding bevel gear inslot or two bevel gear axles slide along with the drive shaft and can break away from two bevel gear grooves simultaneously, still be provided with in the frame and can drive reducing shaft one or reducing shaft two pivoted rockers.

By adopting the technical scheme, when in use, the sliding table can slide to drive the bevel gear shaft at one end of the driving shaft to be meshed with the bevel gear groove at one end of the reversing shaft I or the reversing shaft II, so as to drive the reversing shaft I or the reversing shaft II to rotate, when the reversing shaft I rotates, the reversing shaft I can be meshed with the transmission gear I, the transmission gear I is meshed with the reduction gear I, and then the reduction gear I is meshed with the output gear I to drive the cutter disc I to rotate, similarly, when the reversing shaft II rotates, the reversing gear II is meshed with the transmission gear II, the transmission gear II is meshed with the reduction gear II, and then the reduction gear II is meshed with the output gear II to drive the cutter shaft II to rotate, when the reversing shaft I is separated from the meshing of the driving shaft, the rocker is connected with the reduction shaft I, and the output gear I can be meshed to drive the cutter shaft I to rotate, when the second reversing shaft is disengaged from the driving shaft, the rocker is connected with the second reducing shaft, and the second reducing gear is engaged with the second output gear to drive the second cutter shaft to rotate so as to realize the rotation of the second cutter head, so that the conversion between manual operation and electric operation of the first cutter head and the second cutter head of the vegetable cutter is realized, and the vegetable cutter is suitable for different working conditions.

The invention is further set in that two ends of the rack are hinged with swing frames, the first transmission shaft and the second transmission shaft are respectively and rotatably connected to one side, close to each other, of the swing frames, the first transmission shaft and the second transmission shaft are coaxial, the side, close to each other, of the swing frames is also rotatably connected with the third transmission shaft, the third transmission shaft is fixedly connected with a third transmission gear which can be meshed with the first reduction gear and the first reversing gear, the third transmission shaft is also fixedly connected with a third transmission gear which can be meshed with the second reduction gear and the second reversing gear, and the rack is also internally provided with a swing mechanism which can drive the two swing frames to synchronously swing so that the first transmission gear and the second transmission gear are separated from the first reduction gear and meshed with the second reduction gear and the third transmission gear and.

By adopting the technical scheme, when in use, the swing rod can be driven to swing through the swing mechanism, so that the first transmission shaft, the second transmission shaft and the third transmission shaft are driven to swing synchronously, the first transmission gear is disengaged from the first reduction gear to be meshed with the first reversing gear, the second transmission gear is disengaged from the second reduction gear to be meshed with the second reversing gear, the third transmission gear is meshed with the first reduction gear and the first reversing gear, the fourth transmission gear is meshed with the second reduction gear and the second reversing gear, at the moment, the sliding table is slid, two bevel gear shafts at the end part of the driving shaft are meshed with the bevel gear groove of the first reversing shaft or the second reversing shaft, the three transmission gear shafts are meshed with the first reduction gear and the four transmission gear shafts are meshed with the second reduction gear simultaneously under the driving of the third transmission shaft, so that the two cutter shafts rotate simultaneously, in a similar way, the sliding table slides to enable the bevel gear shafts at the two ends of the driving shaft to be synchronously separated from the two bevel gear grooves, then the rocker drives the first reduction gear or the second reduction gear to rotate, and the third synchronous transmission shaft can drive the first cutter shaft and the second cutter shaft to simultaneously rotate, so that the cutter head and the second cutter head can simultaneously work.

The invention is further configured to: the utility model discloses a quick-witted frame, including frame, lead screw threaded connection, the one end rigid coupling of lead screw has bevel gear one, frame one side still rotates and is connected with the pivot, pivot one end rigid coupling has the bevel gear two that meshes in bevel gear one, the other end of pivot still extends frame and rigid coupling and has the spinning wheel.

Through adopting above-mentioned technical scheme, rotate the spiral wheel and can drive bevel gear two and bevel gear meshing to can drive the lead screw and rotate, thereby can drive the slip table and slide, and then make arbitrary bevel gear axle with correspond bevel gear groove meshing or make two bevel gear axles break away from two bevel gear grooves simultaneously.

The invention is further configured to: the position of the first cutter disc corresponding to the rack is fixedly connected to the first hopper, the position of the second cutter disc corresponding to the rack is fixedly connected to the second hopper, the first hopper and the lower end of the second hopper are both provided with discharge ports, the first hopper is close to one side of the second hopper and provided with a first feeding port, and the upper side of the rack is provided with a conveying belt capable of conveying materials to the first feeding port.

Through adopting above-mentioned technical scheme, the during operation is arranged vegetables in the conveyer belt upside, then can carry vegetables to pan feeding mouth one through the conveyer belt to make vegetables get into hopper one, thereby be convenient for the cutting of cutter dish.

The invention is further configured to: the upside both ends of frame all rotate the conveying axle that is connected with the level setting and axis direction perpendicular to frame length direction, and two conveying epaxially are located to the conveyer belt cover, the rigid coupling has bevel gear three on the speed reduction axle one, one side of frame still rotates the diversion axle that is connected with the vertical setting of axis, the one end rigid coupling of diversion axle has the bevel gear four that meshes in bevel gear three, and the rigid coupling has universal joint between diversion axle and the conveying axle.

Through adopting above-mentioned technical scheme, the rotation of speed reduction axle can drive bevel gear three and rotate to can drive the steering shaft through bevel gear three and bevel gear four meshing and rotate, thereby through universal joint, drive a transmission shaft and rotate, thereby can drive the conveyer belt and rotate, the transport of the vegetables of being convenient for.

The invention is further configured to: swing mechanism is including rotating the oscillating axle that connects in the frame and length direction and frame length direction are the same, two the equal rigid coupling in oscillating axle of lower extreme of oscillating shelf, the one end rigid coupling of oscillating axle has the worm wheel, one side that the frame corresponds the worm wheel still rotates and is connected with the worm that meshes the worm wheel, worm one end extends frame one side and rigid coupling has the rotation wheel.

By adopting the technical scheme, the rotating wheel is rotated to drive the worm to rotate, so that the worm wheel can be driven to rotate, the swing frame can be driven to swing, and the transposition of the transmission shaft III, the transmission shaft I and the transmission shaft II can be completed.

The invention is further configured to: the rack is provided with an arc-shaped groove corresponding to one side of the swing frame, one end of the swing frame close to the arc-shaped groove is fixedly connected with a sliding column which is connected to the arc-shaped groove in a sliding mode, and the sliding column slides to two ends of the arc-shaped groove to enable a first transmission gear, a first reduction gear and a first reversing gear to be meshed or enable a third transmission gear, a first reduction gear and a first reversing gear to be meshed.

By adopting the technical scheme, the swing position of the swing frame can be conveniently limited through the adopted arc-shaped groove, so that the transposition of the first transmission shaft, the second transmission shaft and the third transmission shaft is realized.

The invention is further configured to: the automatic conveying device is characterized in that a pressing and holding frame is arranged at the position, close to a first hopper, of the upper side of the conveying belt, of the rack, a pressing and holding belt in the conveying direction of the conveying belt is arranged on the pressing and holding frame, one end, close to the first hopper, of the pressing and holding belt is lower than the other end of the pressing and holding belt, one side, far away from the first hopper, of the pressing and holding frame is hinged to the rack, and a tension spring capable of dragging the pressing and holding frame to rotate towards one direction of the hopper.

Through adopting above-mentioned technical scheme, during the use, when placing vegetables on the conveyer belt and conveying, vegetables through the effect of extension spring one and the volume of vegetables, can make to press and hold the lower one end pressure of area and hold in vegetables, the cutting of the blade disc of being convenient for one when pressing the area downside.

The invention is further configured to: the pressing and holding frame is provided with pressing and holding rollers with the same axial direction of the two axes and the axial direction of the conveying shaft, the pressing and holding belt sleeve is arranged on the two pressing and holding rollers, the pressing and holding roller with the higher end of the pressing and holding belt is rotatably connected to the pressing and holding frame, the pressing and holding frame is correspondingly connected with a sliding block in a sliding manner vertically on two sides of the pressing and holding roller with the lower end of the pressing and holding belt, two ends of the pressing and holding roller with the lower end of the pressing and holding belt are rotatably connected to the sliding block, and the pressing and holding frame is further provided with an adjusting.

By adopting the technical scheme, the pressing and holding roller at the lower end of the pressing and holding belt can be driven to descend by driving the sliding block to ascend and descend through the adjusting mechanism, so that the lower end position of the pressing and holding belt can be conveniently adjusted, and the pressing and holding belt is convenient to adapt to different working conditions.

The invention is further configured to: the adjusting mechanism comprises screw rods which are respectively and rotatably connected to two sides of the pressure support frame, the axis direction of each screw rod is the same as the sliding direction of the corresponding slide block, and the slide blocks are respectively in threaded connection with the corresponding screw rods.

Through adopting above-mentioned technical scheme, rotate the screw rod and can drive the slider and slide along vertical direction to can drive two sliders and slide along vertical direction, thereby adjust the lower extreme position of holding the roller.

In conclusion, the beneficial technical effects of the invention are as follows:

1. when the cutting knife is used, the sliding table can slide to drive the bevel gear shaft at one end of the driving shaft to be meshed with the bevel gear groove at one end of the reversing shaft I or the reversing shaft II, so that the reversing shaft I or the reversing shaft II can be driven to rotate, when the reversing shaft I rotates, the reversing gear I is meshed with the transmission gear I, the transmission gear I is meshed with the reduction gear I, the cutter disc I rotates by driving the cutter shaft I to rotate by meshing the reduction gear I with the output gear I, similarly, when the reversing shaft II rotates, the reversing gear II is meshed with the transmission gear II, the transmission gear II is meshed with the reduction gear II, the cutter disc II rotates by driving the cutter shaft II to rotate by meshing the reduction gear II with the output gear II, when the reversing shaft I is separated from the meshing of the driving shaft, the rocker is connected with the reduction shaft I, and the cutter shaft I is meshed with the output gear I, so that the cutter disc I, when the second reversing shaft is disengaged from the driving shaft, the rocker is connected with the second reducing shaft, and the second reducing gear is engaged with the second output gear to drive the second cutter shaft to rotate so as to realize the rotation of the second cutter head, so that the conversion between manual operation and electric operation of the first cutter head and the second cutter head of the vegetable cutter is realized, and the vegetable cutter is suitable for different working conditions;

2. when the cutter is used, the swing rod can be driven by the swing mechanism to swing, so that the first transmission shaft, the second transmission shaft and the third transmission shaft are driven to swing synchronously, the first transmission gear is separated from the meshing of the first reduction gear and the first reversing gear, the second transmission gear is separated from the meshing of the second reduction gear and the second reversing gear, the third transmission gear is meshed with the first reduction gear and the first reversing gear, the fourth transmission gear is meshed with the second reduction gear and the second reversing gear, at the moment, the sliding table is slid, two bevel gear shafts at the end part of the driving shaft are meshed with the bevel gear grooves of the first reversing shaft or the second reversing shaft, the third transmission gear is meshed with the first reduction gear and the fourth transmission gear is meshed with the second reduction gear under the driving of the third transmission shaft, so that the two cutter shafts rotate simultaneously, and the simultaneous cutting of the two cutter heads is realized, and the sliding table synchronously separates the bevel gear, then, the rocker drives the first reduction gear or the second reduction gear to rotate, and the third synchronous transmission shaft can drive the first cutter shaft and the second cutter shaft to rotate simultaneously, so that the cutter head and the second cutter head can work simultaneously;

3. one rotation of the speed reducing shaft can drive the bevel gear to rotate, so that the direction changing shaft can be driven to rotate through the meshing of the bevel gear III and the bevel gear IV, the transmission shaft is driven to rotate through the universal coupling, and the conveying belt can be driven to rotate, so that vegetables can be conveyed conveniently.

Drawings

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

Fig. 2 is a schematic structural diagram of a second reversing shaft of the invention.

Fig. 3 is a schematic view of the structure of the reversing shaft of the invention.

Fig. 4 is a schematic view of the construction of the transfer shaft of the present invention.

Fig. 5 is a partially enlarged schematic view of a portion a in fig. 1.

Fig. 6 is a schematic view of a nip belt structure of the present invention.

In the figure, 1, a frame; 11. a first hopper; 111. a feeding port I; 12. a second hopper; 121. a feeding port II; 13. a first cutter shaft; 131. a first cutter head; 132. a first output gear; 14. a second cutter shaft; 141. a cutter head II; 142. a second output gear; 15. a first deceleration shaft; 151. a first reduction gear; 152. a reversing bevel gear I; 153. a manual shaft; 1531. a second reversing bevel gear; 1532 a spline housing; 154. a third bevel gear; 16. a second deceleration shaft; 161. a second reduction gear; 17. a first reversing shaft; 171. a reversing gear I; 172. a bevel gear groove; 18. a second reversing shaft; 181. a reversing gear II; 19. an arc-shaped slot; 2. a conveying device; 21. a transfer shaft; 22. a conveyor belt; 23. a steering shaft; 231. a fourth bevel gear; 232. a universal coupling; 24. a pressing and holding frame; 241. a chute; 242. a slider; 243. a screw; 25. pressing and holding the belt; 26. a pressure roller; 27. a tension spring; 3. a receiving groove; 31. a rocker; 32. a spline head; 4. a swing frame; 41. a first transmission shaft; 411. a first transmission gear; 42. a second transmission shaft; 421. a second transmission gear; 43. a third transmission shaft; 431. a third transmission gear; 432. a fourth transmission gear; 44. a traveler; 5. a sliding table; 51. a sliding mechanism; 511. a lead screw; 512. a first bevel gear; 513. a rotating shaft; 514. a second bevel gear; 515. rotating the wheel; 52. a drive shaft; 521. a bevel gear shaft; 522. a driven gear; 53. a drive motor; 531. a drive gear; 6. a swing mechanism; 61. a swing shaft; 62. a worm gear; 63. a worm; 631. and rotating the wheel.

Detailed Description

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

Referring to fig. 1, the multifunctional vegetable cutter disclosed by the invention comprises a rack 1, wherein the rack 1 is in a cuboid shape, a first hopper 11 is fixedly connected to the upper side of one end of the rack 1, a second hopper 12 is fixedly connected to the upper side of the other end of the rack 1, discharge ports are respectively formed in the lower ends of the first hopper 11 and the second hopper 12, a first feeding port 111 is formed in one side of the first hopper 11 close to the second hopper 12, a second feeding port 121 is formed in one side of the second hopper 12 far away from the first hopper 11, and a conveying device 2 capable of conveying materials to the first feeding port 111 is horizontally arranged at a position, corresponding to the position between the first hopper 11 and the second hopper 12, on the upper.

Referring to fig. 2 and 3, a first cutter shaft 13 is rotatably connected to a position of the frame 1 corresponding to the first hopper 11, a second cutter shaft 14 is rotatably connected to a position of the frame 1 corresponding to the second hopper 12, the axial directions of the first cutter shaft 13 and the second cutter shaft 14 are the same as the length direction of the frame 1, one end of the first cutter shaft 13 extends into the first hopper 11 and is connected with a first cutter head 131 through a bolt, the first cutter head 131 and the first cutter shaft 13 are coaxial, one end of the second cutter shaft 14 extends into the second hopper 12 and is connected with a second cutter head 141 through a bolt, and the second cutter head 141 and the second cutter shaft 14. One end of the first cutter shaft 13, which is positioned in the rack 1, is fixedly connected with a first output gear 132, one end of the second cutter shaft 14, which is positioned in the rack 1, is fixedly connected with a second output gear 142, two ends of the interior of the rack 1 are respectively and rotatably connected with a first reduction shaft 15 and a second reduction shaft 16, the axial directions of the first reduction shaft 15, the second reduction shaft 16 and the first cutter shaft 13 are the same, the first reduction shaft 15 is fixedly connected with a first reduction gear 151 meshed with the first output gear 132, the second reduction shaft 16 is fixedly connected with a second reduction gear 161 meshed with the second output gear 142, the ends, which are far away from each other, of the first reduction shaft 15 and the second reduction shaft 16 are respectively and fixedly connected with a reversing bevel gear 152, one side, which is far away from each other, of the rack 1, corresponding to the first reduction shaft 15 and the second reduction shaft 16, is respectively and rotatably connected with a manual shaft 153, the manual shaft is horizontally arranged, the axial direction of the manual shaft 153 is vertical to the axial direction of the, the other end of the manual shaft 153 extends out of one side of the frame 1 and is fixedly connected to the spline housing 1532, a receiving groove 3 is further disposed on one side of the frame 1, a rocker 31 is disposed in the receiving groove 3, and one end of the rocker 31 is fixedly connected to a spline head 1532 (see fig. 1) that can be inserted into the spline housing 1532. When the cutter head is used, the spline head 32 at one end of the rocker 31 is inserted into the spline housing 1532 at one end of the manual shaft 153 at one side of the first speed reducing shaft 15, the rocker 31 drives the manual shaft 153 to rotate, the first speed reducing shaft 15 driven by the first reversing bevel gear 152 and the second reversing bevel gear 1531 in a meshed mode can rotate, the rocker 31 drives the first speed reducing shaft 15 to rotate, and the first speed reducing gear 151 and the first output gear 132 are meshed to drive the first cutter shaft 13 to rotate, so that the first cutter head 131 is rotated; the spline head 32 at one end of the rocker 31 is inserted into the spline housing 1532 at one end of the manual shaft 153 at one side of the second speed reduction shaft 16, the rocker 31 drives the manual shaft 153 to rotate, namely, the second speed reduction shaft 16 driven by the meshing of the first reversing bevel gear 152 and the second reversing bevel gear 1531 rotates, so that the second speed reduction gear 161 and the second output gear 142 are meshed to drive the second knife shaft 14 to rotate, and the second cutter disc 141 rotates.

The two ends of the rack 1 are rotatably connected with swing frames 4, one sides of the two swing frames 4 close to each other are respectively rotatably connected with a first transmission shaft 41 or a second transmission shaft 42, the axes of the first transmission shaft 41 and the second transmission shaft 42 are in the same straight line and are the same with the length direction of the rack 1, a first transmission gear 411 which can be meshed with a first reduction gear 151 is fixedly connected to the first transmission shaft 41, a second transmission gear 421 which can be meshed with a second reduction gear 161 is fixedly connected to the second transmission shaft 42, a first reversing shaft 17 and a second reversing shaft 18 are further rotatably connected to the inside of the rack 1, a first reversing gear 171 which can be meshed with the first transmission gear 411 is fixedly connected to the first reversing shaft 17, and a second reversing gear 181 which can be meshed with the second transmission gear; a sliding table 5 is connected to the inside of the frame 1 in a sliding manner along the length direction of the frame 1, a sliding mechanism 51 for driving the sliding table 5 to move is further arranged inside the frame 1, a driving shaft 52 which is the same as the length direction of the frame 1 is connected to the sliding table 5 in a rotating manner, a driven gear 522 is fixedly connected to the middle of the driving shaft 52, a driving motor 53 is further fixedly connected to the sliding table 5, a driving gear 531 meshed with the driving gear 531 is fixedly connected to an output shaft of the driving motor 53, bevel gear shafts 521 coaxial with the driving shaft 52 are fixedly connected to the two ends of the driving shaft 52, bevel gear grooves 172 are formed in the reversing shaft and one end of the reversing shaft, close to the reversing shaft II 18, of the reversing shaft, and any one of the bevel gear shafts 521 at the two ends of the driving shaft 52 can be inserted into the corresponding. When in use, the sliding table 5 can slide to drive the bevel gear shaft 521 at one end of the driving shaft 52 to be meshed with the bevel gear groove 172 at one end of the first reversing shaft 17 or the second reversing shaft 18, so that the first reversing shaft 17 or the second reversing shaft 18 can be driven to rotate, when the first reversing shaft 17 rotates, the first reversing gear 171 can be meshed with the first transmission gear 411, the first transmission gear 411 is meshed with the first reduction gear 151, then the first reduction gear 151 is meshed with the first output gear 132 to drive the first cutter head 13 to rotate, similarly, when the second reversing shaft 18 rotates, the second reversing gear 181 can be meshed with the second transmission gear 421, the second transmission gear 421 is meshed with the second reduction gear 161, then the second reduction gear 161 is meshed with the second output gear 142 to drive the second cutter head 14 to rotate, and accordingly the second cutter head 141 rotates, when the first reversing shaft 17 is disengaged from the driving shaft 52, the rocker 31 is connected with the manual shaft 153 at one side of the first reduction shaft 15, the first cutter head 131 can be driven to rotate by the meshing of the first reduction gear 151 and the first output gear 132, the first cutter shaft 13 is driven to rotate, when the second reversing shaft 18 is disengaged from the driving shaft 52, the rocker 31 is connected with the manual shaft 153 on one side of the second reduction shaft 16, the second reduction gear 161 and the second output gear 142 are meshed to drive the second cutter shaft 14 to rotate, and the second cutter head 141 is driven to rotate, so that the switching between manual operation and electric operation of the first cutter head 131 and the second cutter head 141 of the vegetable cutter is realized.

The sliding mechanism 51 comprises a screw 511 rotatably connected in the machine frame 1, the axial direction of the screw 511 is the same as the length direction of the machine frame 1, the sliding table 5 is in threaded connection with the screw 511, one end of the screw 511 is fixedly connected with a first bevel gear 512, one side of the machine frame 1 is also rotatably connected with a rotating shaft 513, one end of the rotating shaft 513 is fixedly connected with a second bevel gear 514 meshed with the first bevel gear 512, and the other end of the rotating shaft 513 is also extended out of the machine frame 1 and fixedly connected with a rotating wheel 515. The rotating rotary wheel 515 can drive the second bevel gear 514 to mesh with the first bevel gear 512, so as to drive the screw 511 to rotate, thereby driving the sliding table 5 to slide, and further enabling any bevel gear shaft 521 to mesh with the corresponding bevel gear groove 172 or enabling the two bevel gear shafts 521 to be separated from the two bevel gear grooves 172 simultaneously.

The swing frame 4 is also rotatably connected with a transmission shaft three 43 at one side close to each other, the axial directions of the transmission shaft three 43 and the transmission shaft one 41 are the same, the transmission shaft three 43 is positioned at one side of the transmission shaft one 41, a transmission gear three 431 capable of meshing with the reduction gear one 151 and the reversing gear one 171 is fixedly connected on the transmission shaft three 43, a transmission gear three 431 capable of meshing with the reduction gear two 161 and the reversing gear two 181 is also fixedly connected on the transmission shaft three 43, a swing mechanism 6 capable of driving the two swing frames 4 to swing synchronously is further arranged in the rack 1, the swing frame 4 can drive the transmission shaft one 41, the transmission shaft two 42 and the transmission shaft three 43 to swing synchronously, further the transmission gear one 411 of the transmission shaft one 41 is disengaged from the reduction gear one 151 and the reversing gear one 171, the transmission gear two 421 of the transmission shaft two 42 is disengaged from the reduction gear two 161 and the reversing gear two 181, and the transmission gear three 431 of the transmission shaft three 43, the transmission gear four 432 of the transmission shaft three 43 is meshed with the reduction gear two 161 and the reversing gear two 181, at this time, the sliding table 5 is slid, so that the two bevel gear shafts 521 at the end part of the driving shaft 52 are meshed with the bevel gear grooves 172 of the first reversing shaft 17 or the second reversing shaft 18, both can be driven by the third transmission shaft 43, simultaneously, a transmission gear three 431 is meshed with a reduction gear one 151 and a transmission gear four 432 is meshed with a reduction gear two 161, so that the two cutter shafts rotate simultaneously, so as to realize the simultaneous cutting of the two cutterheads, and in the same way, the sliding table 5 is slid, so that the bevel gear shafts 521 at the two ends of the driving shaft 52 are synchronously separated from the two bevel gear grooves 172, then, the rocker 31 rotates the first reduction shaft 15 or the first reduction gear 151 or the second reduction gear 161 of the reduction shaft 16, and the third synchronous transmission shaft 43 can drive the first cutter shaft 13 and the second cutter shaft 14 to simultaneously rotate, so that the first cutter head 131 and the second cutter head 141 can simultaneously work.

The swing mechanism 6 comprises a swing shaft 61 rotatably connected in the rack 1, the length direction of the swing shaft 61 is the same as that of the rack 1, the lower ends of the two swing frames 4 are fixedly connected to the swing shaft 61, one end of the swing shaft 61 is fixedly connected with a worm wheel 62, one side of the rack 1 corresponding to the worm wheel 62 is also rotatably connected with a worm 63, the worm 63 is meshed with the worm wheel 62, one end of the worm 63 extends out of one side of the rack 1 and is fixedly connected with a rotating wheel 631, an arc-shaped groove 19 is formed in the position of the rack 1 corresponding to one side of the swing frame 4, one end of the swing frame 4 close to the arc-shaped groove 19 is fixedly connected with a sliding column 44 connected to the arc-shaped groove 19 in a sliding mode, and the sliding column 44 slides to two ends of the arc-shaped groove 19 along with the swing of the swing frame 4 to enable a first transmission gear 411. The rotating wheel 631 is rotated to drive the worm 63 to rotate so as to drive the worm wheel 62 to rotate, and therefore the swinging shaft 61 can be driven to rotate so as to drive the swinging frame 4 to swing, and therefore the transposition of the transmission shaft III 43 with the transmission shaft I41 and the transmission shaft II 42 can be completed, and then the adopted arc-shaped groove 19 is matched with the sliding column 44, so that the swinging position of the swinging frame 4 can be limited conveniently, and the transposition of the transmission shaft I41, the transmission shaft II 42 and the transmission shaft III 43 can be realized.

Referring to fig. 1 and 4, the conveying device includes conveying shafts 21 respectively rotatably connected to two ends of a frame 1, axes of the two conveying shafts 21 are horizontally arranged and perpendicular to a length direction of the frame 1, a conveying belt 22 having a length direction the same as that of the frame 1 is sleeved on the two conveying shafts 21, one end of the conveying belt 22 extends to a feeding port one 111, a bevel gear three 154 is fixedly connected to a reduction shaft one 15, a turning shaft 23 is rotatably connected to one side of the frame 1, a bevel gear four 231 is fixedly connected to one end of the turning shaft 23, the bevel gear four 231 is engaged with the bevel gear three 154, a universal coupling 232 is fixedly connected between one end of the conveying shaft 21 and the turning shaft 23, the reduction shaft one 15 can drive the bevel gear three 154 to rotate, so that the turning shaft 23 can be driven to rotate by engagement of the bevel gear three 154 and the bevel gear four 231, so that the conveying shaft 21 is driven to rotate by the, the vegetable is convenient to convey.

Referring to fig. 5 and 6, a pressing and holding frame 24 is disposed at a position, close to the hopper one 11, on the upper side of the conveyor belt 22 of the frame 1, a pressing and holding belt 25 in a conveying direction of the conveyor belt 22 is disposed on the pressing and holding frame 24, the pressing and holding belt 25 has an elastic pressing and holding belt 25, one end, close to the hopper one 11, of the elastic pressing and holding belt 25 is lower than the other end, pressing and holding rollers 26 having two axial directions identical to the axial direction of the conveying shaft 21 are disposed on the pressing and holding frame 24, the pressing and holding belt 25 is sleeved on the two pressing and holding rollers 26, the pressing and holding roller 26 at the higher end of the pressing and holding belt 25 is rotatably connected to the pressing and holding frame 24, sliding grooves 241 are vertically disposed at two sides of the pressing and holding roller 26 corresponding to the lower end of the pressing and holding belt 25, sliding blocks 242 are slidably connected in the sliding grooves 241, two ends of the pressing and holding roller 26 at the. The adjusting mechanism comprises screw rods 243 respectively rotatably connected to two sides of the swing frame 4, the axial direction of the screw rods 243 is the same as the sliding direction of the slide blocks 242, and the slide blocks 242 are respectively in threaded connection with the corresponding screw rods 243. One side of the pressing and holding frame 24, which is far away from the first hopper 11, is hinged to the rack 1, and a tension spring 27 capable of dragging the pressing and holding frame 24 to rotate towards the first hopper 11 in a normal state is further arranged between the pressing and holding frame 24 and the first hopper 11. When the vegetable cutting device is used, when vegetables are placed on the conveying belt 22 to be conveyed, the tension spring 27I can pull the pressing holder 24 to swing along with entering of the vegetables when the vegetables pass through the lower side of the pressing belt 25, so that the lower end of the pressing belt 25 is always pressed on the upper side of the vegetables, and cutting of the cutter head 131 is facilitated. In addition, the screw 243 is rotated to drive the sliding blocks 242 to slide along the vertical direction, so that the two sliding blocks 242 can be driven to slide along the vertical direction, the lower end position of the pressing roller 26 is adjusted, and different working conditions are convenient to apply.

The implementation principle of the embodiment is as follows: the rotating wheel 515 can drive the bevel gear II 514 to be meshed with the bevel gear I512, thereby driving the screw 511 to rotate, thereby driving the sliding table 5 to slide, driving the bevel gear shaft 521 at one end of the driving shaft 52 to be meshed with the bevel gear groove 172 at one end of the first reversing shaft 17 or the second reversing shaft 18, thereby driving the first reversing shaft 17 or the second reversing shaft 18 to rotate, when the first reversing shaft 17 rotates, the first cutter head 131 can rotate by meshing the first reversing gear 171 with the first transmission gear 411, meshing the first transmission gear 411 with the first reduction gear 151 and meshing the first reduction gear 151 with the first output gear 132 to drive the first cutter shaft 13 to rotate, and similarly, when the second reversing shaft 18 rotates, the second reversing gear 181 can be meshed with the second transmission gear 421, the second transmission gear 421 is meshed with the second reduction gear 161, and the second reduction gear 161 is meshed with the second output gear 142 to drive the second knife shaft 14 to rotate so as to realize the rotation of the second cutter disc 141; when the first reversing shaft 17 is disengaged from the driving shaft 52, the spline head 32 at one end of the rocker 31 is inserted into the spline housing 1532 at one end of the manual shaft 153 on one side of the first speed reducing shaft 15, the rocker 31 drives the manual shaft 153 to rotate, the first speed reducing shaft 15 driven by the first reversing bevel gear 152 and the second reversing bevel gear 1531 in a meshing manner can rotate, the first speed reducing shaft 15 can be driven to rotate by the rocker 31, and the first speed reducing gear 151 and the first output gear 132 in a meshing manner can drive the first cutter shaft 13 to rotate, so that the first cutter head 131 can rotate; when the second reversing shaft 18 is disengaged from the driving shaft 52, the spline head 32 at one end of the rocker 31 is inserted into the spline housing 1532 at one end of the manual shaft 153 at one side of the second reducing shaft 16, the rocker 31 drives the manual shaft 153 to rotate, namely, the second reducing shaft 16 driven by the first reversing bevel gear 152 and the second reversing bevel gear 1531 to rotate is engaged, so that the second reducing gear 161 is engaged with the second output gear 142 to drive the second knife shaft 14 to rotate, the second cutter disc 141 to rotate, and the switching between manual operation and electric operation of the first cutter disc 131 and the second cutter disc 141 of the vegetable cutter is realized.

In addition, the rotating wheel 631 drives the worm 63 to rotate and can drive the worm wheel 62 to rotate, so as to drive the swing shaft 61 to rotate and drive the swing frame 4 to swing, so as to drive the first transmission shaft 41, the second transmission shaft 42 and the third transmission shaft 43 to swing synchronously, further to enable the first transmission gear 411 of the first transmission shaft 41 to be disengaged from the first reduction gear 151 and the first reversing gear 171, the second transmission gear 421 of the second transmission shaft 42 to be disengaged from the second reduction gear 161 and the second reversing gear 181, and to enable the third transmission gear 431 of the third transmission shaft 43 to be engaged with the first reduction gear 151 and the first reversing gear 171, so as to enable the fourth transmission gear 432 of the third transmission shaft 43 to be engaged with the second reduction gear 161 and the second reversing gear 181, at the moment, the sliding table 5 is slid, so that the two bevel gear shafts 521 at the end of the driving shaft 52 are engaged with the first reversing shaft 17 or, and simultaneously, a transmission gear three 431 is meshed with a reduction gear one 151 and a transmission gear four 432 is meshed with a reduction gear two 161, so that two cutter shafts rotate simultaneously, and then two cutter heads are cut simultaneously, and similarly, the sliding table 5 is slid, so that bevel gear shafts 521 at two ends of the driving shaft 52 are synchronously separated from two bevel gear grooves 172, then the rocker 31 drives the reduction gear one 151 of the reduction shaft one 15 or the reduction gear two 161 of the reduction shaft 16 to rotate, and the action of a synchronous transmission shaft three 43 can drive the cutter shaft one 13 and the cutter shaft two 14 to rotate simultaneously, so that the cutter heads and the cutter heads two 141 work simultaneously.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims

1. A multifunctional vegetable cutter is characterized in that: the automatic cutter comprises a rack (1), wherein a first cutter shaft (13) and a second cutter shaft (14) which have the same axis direction as the length direction of the rack (1) are respectively and rotatably connected to two ends of the rack (1), the first cutter shaft (13) extends out of the rack (1) and is provided with a first cutter head (131), one end of the second cutter shaft (14) extends out of the rack (1) and is provided with a second cutter head (141), the first cutter shaft (13) is fixedly connected with a first output gear (132), and the second cutter shaft (14) is fixedly connected with a second output gear (142); a first reduction shaft (15) and a second reduction shaft (16) are rotatably connected to the frame (1), the first reduction shaft (15) is fixedly connected with a first reduction gear (151) meshed with the first output gear (132), and the second reduction shaft (16) is fixedly connected with a second reduction gear (161) meshed with the second output gear (142); a first transmission shaft (41) and a second transmission shaft (42) are further rotatably connected in the rack (1), the first transmission shaft (41) is fixedly connected with a first transmission gear (411) capable of being meshed with a first reduction gear (151), the second transmission shaft (42) is fixedly connected with a second transmission gear (421) capable of being meshed with a second reduction gear (161), the rack (1) is further rotatably connected with a first reversing shaft (17) and a second reversing shaft (18), the first reversing shaft (17) is fixedly connected with a first reversing gear (171) capable of being meshed with the first transmission gear (411), and the second reversing shaft (18) is fixedly connected with a second reversing gear (181) capable of being meshed with the second transmission gear (421); bevel gear grooves (172) are formed in the ends, close to each other, of the reversing shaft I and the reversing shaft II (18), a sliding table (5) is connected in the machine frame (1) in a sliding way along the length direction of the machine frame (1), a driving shaft (52) is rotatably connected on the sliding table (5), a driving motor (53) capable of driving the driving shaft (52) to rotate is arranged on the sliding table (5), bevel gear shafts (521) coaxial with the driving shaft (52) are fixedly connected to two ends of the driving shaft (52), any one bevel gear shaft (521) can be inserted into the corresponding bevel gear groove (172) along with the sliding of the driving shaft (52) or two bevel gear shafts (521) can be separated from the two bevel gear grooves (172) along with the sliding of the driving shaft (52), the rack (1) is also provided with a rocker (31) which can be matched with the first speed reducing shaft (15) or the second speed reducing shaft (16) and drive the first speed reducing shaft (15) or the second speed reducing shaft (16) to rotate.

2. The multifunctional vegetable cutter as claimed in claim 1, characterized in that: the two ends of the rack (1) are hinged with swing frames (4), the first transmission shaft (41) and the second transmission shaft are respectively connected to one side, close to each other, of the swing frames (4) in a rotating mode, the first transmission shaft (41) and the second transmission shaft (42) are coaxial, the third transmission shaft (43) is further connected to one side, close to each other, of the swing frames (4) in a rotating mode, a third transmission gear (431) capable of being meshed with the first reduction gear (151) and the first reversing gear (171) is fixedly connected to the third transmission shaft (43), a third transmission gear (431) capable of being meshed with the second reduction gear (161) and the second reversing gear (181) is further fixedly connected to the third transmission shaft (43), the rack (1) is further internally provided with a first transmission gear (431) and a fourth transmission gear (432) which are meshed with the first reduction gear (151) and the second reduction gear (161) and are capable of driving the two swing frames (4) to synchronously swing, so that the first 151) And a swing mechanism (6) connected with the second reduction gear (161).

3. The multifunctional vegetable cutter as claimed in claim 1, characterized in that: frame (1) internal rotation is connected with lead screw (511) the same with frame (1) length direction, lead screw (511) threaded connection is in slip table (5), the one end rigid coupling of lead screw (511) has bevel gear (512), frame (1) one side still rotates and is connected with pivot (513), pivot (513) one end rigid coupling has bevel gear two (514) that mesh in bevel gear (512), the other end of pivot (513) still extends frame (1) and rigid coupling has spinning wheel (515).

4. The multifunctional vegetable cutter as claimed in claim 1, characterized in that: the position rigid coupling that frame (1) corresponds cutterhead one (131) is in hopper one (11), and the position rigid coupling that frame (1) corresponds cutterhead two (141) has hopper two (12), and the discharge gate has all been seted up to the lower extreme of hopper one (11) and hopper two (12), and pan feeding mouth one (111) has been seted up to one side that hopper one (11) are close to hopper two (12), frame (1) upside is provided with conveyer belt (22) that can the material carry to pan feeding mouth one (111).

5. The multifunctional vegetable cutter as claimed in claim 4, characterized in that: the upside both ends of frame (1) all rotate and are connected with conveying axle (21) that the level set up and axis direction perpendicular to frame (1) length direction, and two conveying axles (21) are located to conveyer belt (22) cover, the rigid coupling has bevel gear three (154) on reducing shaft (15), one side of frame (1) still rotates and is connected with steering shaft (23) of the vertical setting of axis, the one end rigid coupling of steering shaft (23) has bevel gear four (231) that mesh in bevel gear three (154), and the rigid coupling has universal joint (232) between steering shaft (23) and a conveying axle (21).

6. The multifunctional vegetable cutter as claimed in claim 2, characterized in that: swing mechanism (6) are including rotating swing axle (61) that connects in frame (1) and length direction and frame (1) length direction is the same, two the equal rigid coupling of lower extreme in swing axle (61) of swing span (4), the one end rigid coupling of swing axle (61) has worm wheel (62), frame (1) one side that corresponds worm wheel (62) still rotates and is connected with worm (63) that mesh in worm wheel (62), worm (63) one end is extended frame (1) one side and rigid coupling and is had rotating wheel (631).

7. The multifunctional vegetable cutter as claimed in claim 6, characterized in that: arc wall (19) have been seted up to the position that frame (1) corresponds one swing span (4) one side, the one end rigid coupling that swing span (4) are close to arc wall (19) has traveller (44) of sliding connection in arc wall (19), traveller (44) slide to the both ends of arc wall (19) can make drive gear (411), reduction gear (151) and reversing gear (171) meshing or make drive gear three (431), reduction gear (151) and reversing gear (171) meshing.

8. The multifunctional vegetable cutter as claimed in claim 4, characterized in that: the automatic feeding device is characterized in that a pressing and holding frame (24) is arranged at a position, close to a first hopper (11), of the upper side of a conveying belt (22) corresponding to the rack (1), a pressing and holding belt (25) in the conveying direction of the conveying belt (22) is arranged on the pressing and holding frame (24), one end, close to the first hopper (11), of the pressing and holding belt (25) is lower than the other end of the pressing and holding belt, one side, far away from the first hopper (11), of the pressing and holding frame (24) is hinged to the rack (1), and a tension spring (27) capable of dragging the pressing and holding frame (24) to tend to the direction rotation of the first hopper (11) in a normal state is further.

9. The multifunctional vegetable cutter as claimed in claim 8, characterized in that: the pressing and holding device is characterized in that pressing and holding rollers (26) with two axial directions being the same as the axial direction of the conveying shaft (21) are arranged on the pressing and holding frame (24), two pressing and holding rollers (26) are sleeved with a pressing and holding belt (25), the pressing and holding rollers (26) at the higher end of the pressing and holding belt (25) are rotatably connected to the pressing and holding frame (24), the pressing and holding rollers (26) at the two sides of the pressing and holding frame (24) corresponding to the lower end of the pressing and holding belt (25) are vertically slidably connected with sliders (242), the two ends of the pressing and holding rollers (26) at the lower end of the pressing and holding belt (25) are rotatably connected to the sliders (242), and an adjusting mechanism capable of driving the sliders (242) to ascend and descend is.

10. The multifunctional vegetable cutter as claimed in claim 9, characterized in that: the adjusting mechanism comprises screw rods (243) which are respectively connected to two sides of the pressure holding frame (24) in a rotating mode, the axial direction of the screw rods (243) is the same as the sliding direction of the sliding blocks (242), and the sliding blocks (242) are respectively connected to the corresponding screw rods (243) in a threaded mode.