CN113276196B - Vegetable slicing device with extrusion and blade rotation matched with - Google Patents

Abstract

The invention relates to a vegetable slicing device, in particular to a vegetable slicing device with extrusion and rotation of a blade matched with each other. The vegetable slicing device can reduce workload and avoid the extrusion of a sticky knife and the rotation matching of the blade. The utility model provides an extrusion and rotatory matched with vegetables section device of blade, includes bottom plate, branch, roof, diaphragm and holds the frame, and four branches are installed at the top of bottom plate, and the rigid coupling has the roof between the upper end of four branches, installs the diaphragm between two corresponding branch inside walls, is provided with between two diaphragms and holds the frame. The pushing mechanism and the cutting mechanism are matched, potatoes can be sliced, meanwhile, the potatoes do not need to be manually extruded downwards, the workload can be reduced, the cutting edge of the cutting mechanism is in a skewed tooth shape and is arranged in a tilted manner, when the potatoes are sliced, the phenomenon that the potatoes are extruded by the cutting edge to deform and crack can be avoided, the potato slicing is hindered, and meanwhile, the potato slices can be prevented from being stuck on the cutting mechanism.

Description

Vegetable slicing device with extrusion and blade rotation matched with

Technical Field

The invention relates to a vegetable slicing device, in particular to a vegetable slicing device with extrusion and rotation of a blade matched with each other.

Background

The vegetables are plants or fungi which can be used as dishes and cooked into food, and are one of essential foods in daily diet of people; the vegetables can provide various nutrients such as vitamins and minerals necessary for human body.

In the prior art, before making the potato chips, the potato after cleaning is usually put into the existing slicing equipment, the potato after cleaning is sliced through the existing slicing equipment, and the existing slicing equipment needs to extrude the potato downwards when slicing the potato, so that the potato is sliced with the cutter cooperation of the existing slicing equipment, so that the workload of slicing the potato is increased, in addition, the existing slicing equipment is used for slicing the potato, the potato slices are easily stuck on the cutter of the existing slicing equipment, so that inconvenience is caused to the collection of the sliced potato slices.

Therefore, it is necessary to develop a vegetable slicing device which can reduce the workload and avoid the extrusion of the sticking knife and the rotation of the blade.

Disclosure of Invention

Slicing is carried out in order to overcome the cooperation of the cutter that needs to extrude the potato downwards and current slicing apparatus, can increase work load, and the potato chips glue on the cutter easily, the collection for the potato chips causes inconvenient shortcoming, the technical problem who solves: the vegetable slicing device can reduce workload and avoid the extrusion of a sticky knife and the rotation matching of the blade.

The technical scheme is as follows: the utility model provides an extrusion and rotatory matched with vegetables section device of blade, comprising a base plate, branch, the roof, the diaphragm, hold the frame, pushing equipment and cutting mechanism, four branches are installed at the top of bottom plate, the rigid coupling has the roof between the upper end of four branches, install the diaphragm between two corresponding branch inside walls, it holds the frame to be provided with between two diaphragms, the lateral wall upper portion that holds the frame is opened there is the feed inlet, the bottom of roof is provided with pushing equipment, pushing equipment and bottom plate rigid coupling, cutting mechanism is installed at the top of bottom plate, cutting mechanism cooperates with pushing equipment.

Preferably, the pushing mechanism comprises a hydraulic cylinder, a sliding frame, a first spring, a pushing plate, a vertical plate, sliding blocks, a spur rack, an L-shaped plate, a first connecting frame, a first rotating shaft, a straight gear, a first bevel gear and a transmission part, the hydraulic cylinder is installed at the bottom of the top plate, a cavity is formed at the lower end of a telescopic rod of the hydraulic cylinder, sliding grooves are formed in telescopic rods of the hydraulic cylinder on two sides of the cavity, the sliding frame is slidably arranged between the two sliding grooves, the first spring is fixedly connected between the sliding frame and the telescopic rod of the hydraulic cylinder and is located in the cavity, the pushing plate is installed at the lower part of the telescopic rod of the hydraulic cylinder, the vertical plate is connected between the side walls of the bottom plate and the top plate, a first sliding groove is formed in the side wall of the vertical plate, the two sliding blocks are slidably arranged in the first sliding groove, the straight rack is fixedly connected between the two sliding blocks, the L-shaped plate is installed on the upper part of the side wall of the straight rack, and the L-shaped plate is fixedly connected with the telescopic rod of the hydraulic cylinder, first link is all installed to the riser lateral wall of first sliding tray both sides, and first pivot is installed to the rotary type between two first links, and the straight-teeth gear is installed to first pivot, and the straight-teeth gear is located between two first links, and the straight-teeth gear meshes with the spur rack mutually, and one side that the straight-teeth gear was kept away from to first pivot is connected with first bevel gear, and drive disk assembly is installed to the riser lateral wall of first bevel gear downside, the top rigid coupling of drive disk assembly and bottom plate.

Preferably, the transmission part comprises a second connecting frame, a second rotating shaft, a second bevel gear, a first large gear, a third connecting frame, a third rotating shaft, a pinion, a second large gear, a support, a collecting frame, a support frame and a support column, the second connecting frame is connected to the side wall of a vertical plate at the lower side of the first bevel gear, the second rotating shaft is rotatably installed on the second connecting frame, the second bevel gear is installed at the upper end of the second rotating shaft and is meshed with the first bevel gear, the first large gear is installed at the lower end of the second rotating shaft, the third connecting frame is installed on the side wall of the vertical plate at the lower side of the first large gear, the third rotating shaft is rotatably installed on the third connecting frame, the pinion is installed at the upper end of the third rotating shaft and is meshed with the first large gear, the second large gear is installed on the third rotating shaft at the lower side of the pinion, three supports are installed at the top of the bottom plate, and the third connecting frame is fixedly connected with the corresponding side wall of the support, the rigid coupling has the collection frame between the three support, collects the frame and embeds to have the support frame, and the support column is installed to the bottom in the support frame.

Preferably, the cutting mechanism comprises a hollow sliding tube, a sliding rod, a mounting frame, a clamping rod, a pulling block, a second spring, a rotating block, a first mounting plate, an annular frame, an outer gear ring and a first cutter frame, the hollow sliding tube is connected to one side, close to one side of the bracket, of the top of the bottom plate, the sliding rod is arranged in the hollow sliding tube in a sliding manner, the mounting frame is connected to the side wall of the hollow sliding tube, the clamping rod is arranged in the side wall of the mounting frame in a sliding manner, the pulling block is installed at one end of the clamping rod, the second spring is fixedly connected between the pulling block and the mounting frame, the second spring is wound on the outer side of the clamping rod, the other end of the clamping rod penetrates through the hollow sliding tube, three clamping grooves are formed in the lower portion of the sliding rod, the other end of the clamping rod is located in the corresponding clamping groove, the rotating block is rotatably connected to the upper portion of the sliding rod, the circumferential wall of the rotating block is provided with the first mounting plate, the annular frame is connected to the annular frame, the outer gear ring is rotatably installed at the top of the annular frame, the outer gear ring is meshed with the second gearwheel, and the inner side wall of the outer gear ring is provided with a first cutter holder.

Preferably, the cutting edge of the first cutter holder is in the shape of a helical tooth.

Preferably, the device also comprises two fixed rods, a blanking frame, a blanking pipe, a wedge-shaped frame, a baffle, a wedge-shaped block, a baffle disc, first tension springs, fixed blocks, fixed plates and a second tension spring, wherein the two fixed rods are respectively connected to the inner side walls of two corresponding support rods, the fixed rods are positioned on the upper side of the transverse plates, the blanking frame is connected between the two fixed rods, the blanking pipe is arranged at the bottom of the blanking frame and is connected with the corresponding transverse plates, a second sliding groove is formed in the top of the blanking pipe, the wedge-shaped frame is arranged on the side wall of the blanking frame on the upper side of the blanking pipe, the baffle is arranged in the second sliding groove in a sliding manner, the wedge-shaped block is arranged on the top of the baffle in a sliding manner, the baffle disc is arranged on a hydraulic cylinder on the upper side of the pushing plate, the two first tension springs are fixedly connected between the wedge-shaped block and the baffle, the wedge-shaped block is in sliding fit with the wedge-shaped frame, the fixed block is arranged on one side, close to the top of the baffle, the fixed plate is installed to the baffle lateral wall of wedge downside, is connected with two second extension springs between fixed plate and the fixed block.

Preferably, the cutting device further comprises a second mounting plate, a second cutting tool rest, a third mounting plate and a third cutting tool rest, wherein the second mounting plate is mounted on one side, away from the first mounting plate, of the circumferential wall of the rotating block, the second mounting plate is connected with the second cutting tool rest, the third mounting plate is connected on one side, away from the second mounting plate, of the circumferential wall of the rotating block, and the third cutting tool rest is arranged on the third mounting plate.

Preferably, the multifunctional trolley further comprises a containing box, a handle, a first support plate, first rollers, a second support plate and second rollers, wherein two third sliding grooves are formed in the top of the bottom plate, the handle is installed on the side wall of the containing box, the two first support plates are installed on two sides of the bottom of the containing box, the first rollers are installed between the lower portions of the two adjacent first support plates in a rotating mode, the two first rollers are located in the two third sliding grooves in a sliding mode respectively, the second support plate is connected to one side, away from the first support plate, of the bottom of the containing box in a rotating mode, the second rollers are installed on the lower portion of the side wall of the second support plate in a rotating mode, and the four second rollers are located in the two third sliding grooves in a sliding mode respectively.

As preferred, still including L-shaped piece and locating lever, two L-shaped pieces are installed at the top of bottom plate, and two L-shaped pieces are located the outside of two third sliding trays, and the locating lever is installed to the case that holds of handle downside, and the locating lever all cooperates with two L-shaped pieces.

The invention has the beneficial effects that: the pushing mechanism and the cutting mechanism are matched, potatoes can be sliced, meanwhile, the potatoes do not need to be manually and downwards extruded, the workload can be reduced, the cutting edge of the cutting mechanism is in a skewed tooth shape and is obliquely arranged, when the potatoes are sliced, the phenomenon that the potatoes are deformed and cracked due to extrusion of the cutting edge can be avoided, the potato slicing is hindered, and meanwhile, the potatoes can be prevented from being stuck on the cutting mechanism; the baffle plate continuously moves downwards, so that intermittent blanking of potatoes can be realized, and inconvenience caused by too many potatoes falling in the containing rack to slicing the potatoes is avoided; the first cutter frame, the second cutter frame and the third cutter frame are rotated, so that the potatoes can be cut into different shapes; the first roller wheel and the second roller wheel are matched, so that the containing box can be guided to move, and potato chips can be conveniently collected; the locating lever cooperates with L-shaped piece, can regard as and hold case clockwise rotation's fulcrum, so can conveniently take out to holding the incasement potato piece and get and put.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the holding rack of the present invention.

Fig. 3 is a schematic perspective view of the pushing mechanism of the present invention.

Fig. 4 is a schematic sectional three-dimensional structure of the push plate of the present invention.

Fig. 5 is a schematic sectional perspective view of the hydraulic cylinder of the present invention.

Fig. 6 is a schematic perspective view of the collecting frame according to the present invention.

Fig. 7 is a schematic perspective view of a second gearwheel according to the present invention.

Fig. 8 is a schematic perspective view of the cutting mechanism of the present invention.

Fig. 9 is a schematic perspective view of the sliding bar according to the present invention.

Fig. 10 is a schematic perspective view of the blanking frame of the present invention.

Fig. 11 is a schematic perspective view of the baffle of the present invention.

Fig. 12 is a schematic perspective view of the bottom plate of the present invention.

Fig. 13 is a perspective view illustrating the structure of the containing box according to the present invention.

Description of reference numerals: 1_ bottom plate, 2_ support rod, 3_ top plate, 4_ transverse plate, 5_ containing frame, 51_ feed port, 6_ pushing mechanism, 601_ hydraulic cylinder, 602_ cavity, 603_ sliding groove, 604_ sliding frame, 605_ first spring, 606_ pushing plate, 607_ vertical plate, 608_ first sliding groove, 609_ sliding block, 610_ spur rack, 6101_ L-shaped plate, 611_ first connecting frame, 612_ first rotating shaft, 613_ spur gear, 614_ first bevel gear, 615_ second connecting frame, 616_ second rotating shaft, 617_ second bevel gear, 618_ first large gear, 619_ third connecting frame, 620_ third rotating shaft, 621_ small gear, 622_ second large gear, 623_ support frame, 624_ collecting frame, 625_ support frame, 626_ support column, 7_ cutting mechanism, 701_ hollow sliding tube, 702_ sliding rod, 703_ mounting frame, 704_ clamping rod, 705_ pulling block, 706_ second spring, 707_ card slot, 708_ turning block, 709_ first mounting plate, 710_ annular frame, 711_ outer gear ring, 712_ first cutter holder, 8_ fixing rod, 9_ blanking frame, 10_ blanking tube, 11_ second sliding groove, 111_ wedge frame, 12_ baffle, 13_ wedge block, 131_ baffle disc, 14_ first tension spring, 15_ fixing block, 16_ fixing plate, 17_ second tension spring, 18_ second mounting plate, 19_ second cutter holder, 20_ third mounting plate, 21_ third cutter holder, 22_ third sliding groove, 23_ holding box, 24_ handle, 25_ first support plate, 26_ first roller, 27_ second support plate, 28_ second roller, 29_ positioning rod, 30_ L-shaped block.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

The utility model provides an extrusion and rotatory matched with vegetables section device of blade, as shown in fig. 1 and fig. 2, including bottom plate 1, branch 2, roof 3, diaphragm 4, hold frame 5, pushing equipment 6 and cutting mechanism 7, four branch 2 are installed at the top of bottom plate 1, the rigid coupling has roof 3 between the upper end of four branch 2, install diaphragm 4 between the 2 inside wall middle parts of two corresponding branches in the front and back, it holds frame 5 to control to be provided with between two diaphragm 4, it has feed inlet 51 to hold the opening of right side wall upper portion of frame 5, the bottom of roof 3 is provided with pushing equipment 6, pushing equipment 6 and bottom plate 1 rigid coupling, cutting mechanism 7 is installed at the top of bottom plate 1, cutting mechanism 7 and the cooperation of pushing equipment 6.

When the potatoes need to be sliced, a user puts a proper amount of potatoes into the containing frame 5 through the feed inlet 51, the user starts the pushing mechanism 6 to work later, the pushing mechanism 6 can work to enable the cutting mechanism 7 to work, the pushing mechanism 6 can press the potatoes downwards to be in contact with the cutting mechanism 7 while working, the cutting mechanism 7 can slice the potatoes while working, sliced potato slices drop downwards, meanwhile, the user collects the potato slices dropping downwards, and after the potatoes are completely sliced, the user can close the pushing mechanism 6.

Example 2

On the basis of the embodiment 1, as shown in fig. 3 to 7, the pushing mechanism 6 includes a hydraulic cylinder 601, a sliding rack 604, a first spring 605, a pushing plate 606, a vertical plate 607, a sliding block 609, a spur rack 610, an L-shaped plate 6101, a first connecting rack 611, a first rotating shaft 612, a spur gear 613, a first bevel gear 614 and a transmission part, the hydraulic cylinder 601 is installed on the right side of the bottom of the top plate 3, a cavity 602 is opened on the lower end of the telescopic rod of the hydraulic cylinder 601, the telescopic rods of the hydraulic cylinders 601 on the left and right sides of the cavity 602 are both provided with sliding slots 603, the sliding rack 604 is slidably arranged between the left and right sliding slots 603, the first spring 605 is fixedly connected between the sliding rack 604 and the telescopic rod of the hydraulic cylinder 601, the first spring 605 is located in the cavity 602, the pushing plate 606 is installed on the lower portion of the telescopic rod of the hydraulic cylinder 601, the vertical plate 607 is connected between the right portions of the rear side walls of the bottom plate 1 and the top plate 3, the right portion of the front side wall of the vertical plate 607 is provided with a first sliding slot 608, two sliding blocks 609 are arranged in a first sliding groove 608 in a sliding manner, a spur rack 610 is fixedly connected between the upper sliding block 609 and the lower sliding block 609, an L-shaped plate 6101 is installed on the upper portion of the right side wall of the spur rack 610, the L-shaped plate 6101 is fixedly connected with an expansion link of the hydraulic cylinder 601, first connecting frames 611 are installed on the lower portions of the front side walls of the risers 607 on the left side and the right side of the first sliding groove 608, a first rotating shaft 612 is rotatably installed between the left first connecting frame and the right first connecting frame 611, a spur gear 613 is installed on the first rotating shaft 612, the spur gear 613 is located between the left first connecting frame and the right first connecting frame 611, the spur gear 613 is meshed with the spur rack 610, a first bevel gear 614 is connected to the left end of the first rotating shaft 612, a transmission part is installed on the front side wall of the riser 607 on the lower side of the first bevel gear 614, and the transmission part is fixedly connected with the top of the bottom plate 1.

When the potatoes need to be sliced, a user puts a proper amount of potatoes into the containing rack 5 through the feed inlet 51, then the user starts the hydraulic cylinder 601 to enable the push plate 606 and the L-shaped plate 6101 to move downwards, so that the cavity 602 can move downwards, the first spring 605 is compressed along with the cavity, the L-shaped plate 6101 moves downwards to enable the spur rack 610 to move downwards, the spur rack 610 moves downwards to enable the spur gear 613 to rotate clockwise, the spur gear 613 rotates clockwise to enable the first bevel gear 614 to rotate clockwise through the first rotating shaft 612, the first bevel gear 614 rotates clockwise to enable the transmission part to work, the transmission part can enable the cutting mechanism 7 to work while working, the push plate 606 moves downwards to press the potatoes, the potatoes can be sliced through the working of the cutting mechanism 7 at the moment, the sliced potatoes move downwards along with the first rotating shaft 614, meanwhile, the user collects the potato slices falling downwards, and after the potato slices in the containing rack 5 are finished, the user starts the hydraulic cylinder 601 to move the push plate 606 and the L-shaped plate 6101 upwards to return and close, the sliding frame 604 can be always contacted with the transmission part under the action of the first spring 605, so that the potato can be conveniently sliced, and then the user repeats the above operations to slice the potato again.

As shown in fig. 6 and 7, the transmission component includes a second connecting frame 615, a second rotating shaft 616, a second bevel gear 617, a first large gear 618, a third connecting frame 619, a third rotating shaft 620, a small gear 621, a second large gear 622, a support 623, a collecting frame 624, a support 625 and a support 626, the second connecting frame 615 is connected to the front side wall of the vertical plate 607 at the lower side of the first bevel gear 614, the second rotating shaft 616 is rotatably installed on the top of the second connecting frame 615, the second bevel gear 617 is installed at the upper end of the second rotating shaft 616, the second bevel gear 617 is engaged with the first bevel gear 614, the first large gear 618 is installed at the lower end of the second rotating shaft 616, a third connecting frame 619 is installed on the front side wall of the vertical plate 607 at the lower side of the first large gear 618, a third rotating shaft 620 is rotatably installed at the top of the third connecting frame 619, the small gear 621 is installed at the upper end of the third rotating shaft 620, the small gear is engaged with the first large gear 618, a second big gear 622 is installed on a third rotating shaft 620 on the lower side of the pinion 621, three supports 623 are installed on the top of the bottom plate 1 on the front side of the vertical plate 607, a third connecting frame 619 is fixedly connected with the upper portions of the supports 623 on the rear side, a collecting frame 624 is fixedly connected among the three supports 623, a supporting frame 625 is embedded in the collecting frame 624, and a supporting column 626 is installed on the bottom in the supporting frame 625.

When potatoes need to be sliced, a user repeats the operation, so that the first bevel gear 614 rotates clockwise, the second bevel gear 617 rotates counterclockwise, the first large gear 618 can rotate counterclockwise by the counterclockwise rotation of the second bevel gear 617 through the second rotating shaft 616, the pinion 621 can rotate clockwise by the counterclockwise rotation of the first large gear 618, the second large gear 622 can rotate clockwise by the clockwise rotation of the pinion 621 through the third rotating shaft 620, the cutting mechanism 7 can work by the clockwise rotation of the second large gear 622, the potatoes can be sliced by the working of the cutting mechanism 7, the sliced potatoes fall into the collecting frame 624 downwards, the sliding frame 604 can be always in contact with the supporting column 626 through the action of the first spring 605, and the user repeats the operation after all the potatoes are sliced.

As shown in fig. 8 and 9, the cutting mechanism 7 includes a hollow sliding tube 701, a sliding rod 702, a mounting rack 703, a clamping rod 704, a pulling block 705, a second spring 706, a rotating block 708, a first mounting plate 709, an annular rack 710, an external gear ring 711 and a first cutting rack 712, the hollow sliding tube 701 is connected to the front side of a top left bracket 623 of the bottom plate 1, the sliding rod 702 is slidably arranged in the hollow sliding tube 701, the mounting rack 703 is connected to the front side wall of the hollow sliding tube 701, the clamping rod 704 is slidably arranged on the front side wall of the mounting rack 703, the pulling block 705 is installed at the front end of the clamping rod 704, the second spring 706 is fixedly connected between the rear side wall of the pulling block 705 and the front side wall of the mounting rack 703, the second spring 706 is wound outside the clamping rod 704, the rear end of the clamping rod 704 passes through the hollow sliding tube 701, three clamping slots 707 are uniformly spaced at the lower part of the sliding rod 702, the rear end of the clamping rod 704 is located in the corresponding clamping slot 707, the upper part of the sliding rod 702 is rotatably connected to the rotating block 708, the circumferential wall of the rotating block 708 is provided with a first mounting plate 709, the first mounting plate 709 is connected with an annular frame 710, an outer gear ring 711 is rotatably mounted at the top of the annular frame 710, the outer gear ring 711 is engaged with a second large gear 622, and a first cutter holder 712 is arranged on the inner side wall of the outer gear ring 711.

When the potato is required to be sliced, the user repeats the above operations, the second gearwheel 622 is rotated clockwise to enable the outer gear ring 711 to rotate anticlockwise, the outer gear ring 711 is rotated anticlockwise to enable the first cutter holder 712 to rotate anticlockwise, the first cutter holder 712 can slice the potato in an anticlockwise manner, the cutting edge of the first cutter holder 712 is in a skewed tooth shape, the cutting edge of the first cutter holder 712 is arranged in an inclined manner, the potato is sliced in such a manner, the situation that the first cutter holder 712 extrudes the potato to cause deformation and cracks can be avoided, the potato slicing is hindered, and after the potato slicing is completed, the user can repeat the above operations.

Example 3

On the basis of embodiment 2, as shown in fig. 1, 3, 10 and 11, the device further comprises two fixing rods 8, a blanking frame 9, a blanking tube 10, a wedge-shaped frame 111, a baffle 12, a wedge-shaped block 13, a baffle disc 131, a first tension spring 14, a fixing block 15, a fixing plate 16 and a second tension spring 17, wherein the two fixing rods 8 are respectively connected to the inner side walls of the two corresponding supporting rods 2, the fixing rods 8 are positioned on the upper side of the transverse plate 4, the blanking frame 9 is connected between the front and rear fixing rods 8, the blanking tube 10 is installed at the bottom of the blanking frame 9, the bottom of the blanking tube 10 is connected with the top of the right transverse plate 4, a second sliding groove 11 is formed in the left side of the top of the blanking tube 10, the wedge-shaped frame 111 is installed on the left side wall of the blanking frame 9 on the upper side of the blanking tube 10, the baffle 12 is slidably arranged in the second sliding groove 11, the wedge-shaped block 13 is slidably arranged at the top of the baffle 12, the telescopic rod 601 on the upper side of the pushing plate 606 is installed with the baffle disc 131, two first tension springs 14 are fixedly connected between the wedge block 13 and the baffle plate 12, the wedge block 13 is in sliding fit with the wedge frame 111, the fixed block 15 is installed at the top of the discharging pipe 10 on the right side of the second sliding groove 11, the fixed plate 16 is installed on the right side wall of the baffle plate 12 on the lower side of the wedge block 13, and two second tension springs 17 are connected between the bottom of the fixed plate 16 and the top of the fixed block 15.

Initially, the first tension spring 14 and the second tension spring 17 are both in a stretched state, when potatoes need to be sliced, a user puts a proper amount of potatoes into the blanking frame 9, the potatoes in the blanking frame 9 slide leftwards and enter the blanking pipe 10, because the blanking pipe 10 is obliquely arranged in a manner that the left part is lower than the right part, the potatoes in the blanking pipe 10 slide leftwards and fall into the containing frame 5 through the blanking port, after a proper amount of potatoes fall into the containing frame 5, the user repeats the operation to move the baffle disc 131 downwards, when the baffle disc 131 moves downwards and does not press the wedge-shaped block 13, the limit on the wedge-shaped block 13 can be removed, the fixing plate 16 can move downwards under the action of the elastic force of the second tension spring 17, the baffle plate 16 can move downwards, the baffle plate 12 can move downwards to move the wedge-shaped block 13 away from the wedge-shaped frame 111, and the wedge-shaped block 13 can move leftwards under the action of the elastic force of the first tension spring 14, the baffle plate 12 moves downwards to shield the outlet of the blanking pipe 10, so that the situation that potatoes in the blanking pipe 10 continuously slide leftwards into the containing frame 5 to cause too many potatoes in the containing frame 5 to cause interference to potato slicing processing can be avoided, when the baffle plate 131 moves upwards, the baffle plate 131 moves upwards to cause the wedge block 13 to move upwards, the wedge block 13 moves upwards to cause the baffle plate 12 to move upwards, the baffle plate 12 moves upwards to cause the fixing plate 16 to move upwards, the second tension spring 17 stretches along with the baffle plate, the baffle plate 12 moves upwards to open the discharging position of the blanking pipe 10, the potatoes in the blanking pipe 10 slide leftwards into the containing frame 5 through the feeding port 51, when the wedge block 13 moves upwards to contact with the wedge frame 111, the wedge block 13 moves upwards, the wedge block 13 moves rightwards, the first tension spring 14 stretches along with the baffle plate, and when the baffle plate 131 moves upwards to reset, the wedge block 13 can be limited, and when a proper amount of potatoes fall into the containing rack 5, the user can repeat the operation.

As shown in fig. 8, the cutting device further includes a second mounting plate 18, a second cutting tool holder 19, a third mounting plate 20 and a third cutting tool holder 21, the second mounting plate 18 is mounted on the circumferential wall of the rotating block 708, the second mounting plate 18 is connected with the second cutting tool holder 19, the third mounting plate 20 is connected to the circumferential wall of the rotating block 708, and the third mounting plate 20 is provided with the third cutting tool holder 21.

When a potato needs to be sliced, a user moves the clamping rod 704 out of the corresponding clamping groove 707 through the pulling block 705, the second spring 706 is stretched, so that the limit of the sliding rod 702 can be released, then the sliding rod 702 moves upwards, the sliding rod 702 moves upwards to move the rotating block 708 upwards, the rotating block 708 moves upwards through the first mounting plate 709 to move the annular frame 710 upwards, the annular frame 710 moves upwards to move the outer gear ring 711 upwards, the outer gear ring 711 moves upwards to be separated from the engagement with the second large gear 622, then the user rotates the rotating block 708 through the sliding rod 702, so that the first mounting plate 709, the second mounting plate 18 and the third mounting plate 20 can be rotated, so that the first cutting frame 712, the second cutting frame 19 and the third cutting frame 21 can be rotated, and meanwhile, after the first cutting frame 712, the second cutting frame 19 and the third cutting frame 21 are rotated to proper positions according to the shape of the potato, then, the user loosens the sliding rod 702, the sliding rod 702 can be moved downwards to be reset under the action of gravity, meanwhile, the pulling block 705 is loosened, the clamping rod 704 can be clamped into the corresponding clamping groove 707 under the action of the elastic force of the second spring 706, the sliding rod 702 can be limited, potatoes can be conveniently cut into different shapes, and the included angle among the first mounting plate 709, the second mounting plate 18 and the third mounting plate 20 is 120 degrees, so that the positions of the first cutting knife rest 712, the second cutting knife rest 19 and the third cutting knife rest 21 can be conveniently rotated.

Example 4

In addition to embodiment 3, as shown in fig. 1 and 12, the present invention further includes a holding box 23, a handle 24, first support plates 25, first rollers 26, second support plates 27, and second rollers 28, wherein the front and rear sides of the top of the bottom plate 1 are respectively provided with third sliding grooves 22, the handle 24 is installed on the right sidewall of the holding box 23, the front and rear sides of the left side of the bottom of the holding box 23 are respectively provided with two first support plates 25, the first rollers 26 are rotatably installed between the lower portions of the front and rear adjacent first support plates 25, the front and rear two first rollers 26 are respectively slidably located in the front and rear two third sliding grooves 22, the front and rear sides of the right side of the bottom of the holding box 23 are respectively connected with the second support plates 27, the lower portions of the second support plates 27 are rotatably installed with the second rollers 28, and the four second rollers 28 are respectively slidably located in the front and rear two third sliding grooves 22.

Before the potato is sliced as required, the user repeats the above operation, make the potato after the section drop downwards in holding case 23 through collecting frame 624, after dropping proper amount of potato piece in holding case 23, the user makes through handle 24 and holds case 23 and remove right to suitable position, afterwards the user take out can to holding the potato piece in case 23, after the potato piece that holds in case 23 is whole to be taken out, the user makes through handle 24 and holds case 23 and remove left and reset, so can conveniently collect the potato piece once more, cooperation through first gyro wheel 26 and second gyro wheel 28, can remove and lead holding case 23.

As shown in fig. 1, 12 and 13, the storage box further comprises an L-shaped block 30 and a positioning rod 29, the L-shaped block 30 is mounted on the front side and the rear side of the right side of the top of the bottom plate 1, the front L-shaped block 30 and the rear L-shaped block 30 are located on the outer sides of the front third sliding groove 22 and the rear third sliding groove 22, the positioning rod 29 is mounted on the right side wall of the storage box 23 on the lower side of the handle 24, and the positioning rod 29 is matched with the front L-shaped block 30 and the rear L-shaped block 30.

When potatoes need to be sliced, the user repeats the operations, so that the containing box 23 moves rightwards, the containing box 23 moves rightwards to enable the positioning rod 29 to move rightwards, when the positioning rod 29 moves rightwards to be in contact with the front and rear L-shaped blocks 30, the positioning rod 29 can be limited through the front and rear L-shaped blocks 30, then the user enables the right part of the containing box 23 to swing downwards through the handle 24, the positioning rod 29 and the L-shaped blocks 30 are matched to serve as a fulcrum for clockwise rotation of the containing box 23, the containing box 23 rotates clockwise to enable the first roller 26 to move out of the third sliding groove 22, when the containing box 23 rotates clockwise 90 degrees and is vertical, the user can move out and store potato slices in the containing box 23, therefore, the user does not need to take out potato slices in the containing box 23 once and again, the potato slice collecting efficiency can be improved, the workload can be reduced, and after all potato slices in the containing box 23 are taken out, the user makes and holds case 23 swing and reset, so can make first gyro wheel 26 reset, afterwards the user make hold case 23 move left and be located the downside of collecting frame 624 can to can conveniently collect potato slice next time.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims (4)

1. A vegetable slicing device with extrusion and blade rotation matched comprises a bottom plate (1), supporting rods (2), a top plate (3) and a transverse plate (4), wherein the top of the bottom plate (1) is provided with four supporting rods (2), the top plate (3) is fixedly connected between the upper ends of the four supporting rods (2), the transverse plate (4) is arranged between the inner side walls of two corresponding supporting rods (2), the cutting device is characterized by further comprising a containing frame (5), a material pushing mechanism (6) and a cutting mechanism (7), wherein the containing frame (5) is arranged between the two transverse plates (4), a material inlet (51) is formed in the upper portion of the side wall of the containing frame (5), the material pushing mechanism (6) is arranged at the bottom of the top plate (3), the material pushing mechanism (6) is fixedly connected with the bottom plate (1), the cutting mechanism (7) is installed at the top of the bottom plate (1), and the cutting mechanism (7) is matched with the material pushing mechanism (6);

the pushing mechanism (6) comprises a hydraulic cylinder (601), a sliding frame (604), a first spring (605), a pushing plate (606), a vertical plate (607), a sliding block (609), a spur rack (610), an L-shaped plate (6101), a first connecting frame (611), a first rotating shaft (612), a spur gear (613), a first bevel gear (614) and a transmission part, the hydraulic cylinder (601) is installed at the bottom of the top plate (3), a cavity (602) is opened at the lower end of the telescopic rod of the hydraulic cylinder (601), sliding grooves (603) are opened on the telescopic rods of the hydraulic cylinder (601) at two sides of the cavity (602), the sliding frame (604) is arranged between the two sliding grooves (603) in a sliding manner, the first spring (605) is fixedly connected between the sliding frame (604) and the telescopic rod of the hydraulic cylinder (601), the first spring (605) is positioned in the cavity (602), the pushing plate (606) is installed at the lower part of the telescopic rod of the hydraulic cylinder (601), a vertical plate (607) is connected between the side walls of the bottom plate (1) and the top plate (3), a first sliding groove (608) is formed in the side wall of the vertical plate (607), two sliding blocks (609) are arranged in the first sliding groove (608) in a sliding manner, a spur rack (610) is fixedly connected between the two sliding blocks (609), an L-shaped plate (6101) is installed on the upper portion of the side wall of the spur rack (610), the L-shaped plate (6101) is fixedly connected with a telescopic rod of a hydraulic cylinder (601), first connecting frames (611) are installed on the side walls of the vertical plate (607) at two sides of the first sliding groove (608), a first rotating shaft (612) is rotatably installed between the two first connecting frames (611), a spur gear (613) is installed on the first rotating shaft (612), the spur gear (613) is located between the two first connecting frames (611), the spur gear (613) is meshed with the spur rack (610), a first bevel gear (614) is connected on one side of the first rotating shaft (612) far away from the spur gear (613), a transmission part is arranged on the side wall of a vertical plate (607) at the lower side of the first bevel gear (614), and the transmission part is fixedly connected with the top of the bottom plate (1);

the transmission part comprises a second connecting frame (615), a second rotating shaft (616), a second bevel gear (617), a first large gear (618), a third connecting frame (619), a third rotating shaft (620), a small gear (621), a second large gear (622), a support (623), a collecting frame (624), a support frame (625) and a support column (626), the second connecting frame (615) is connected with the side wall of a vertical plate (607) at the lower side of the first bevel gear (614), the second rotating shaft (616) is installed in a rotating manner on the second connecting frame (615), the second bevel gear (617) is installed at the upper end of the second rotating shaft (616), the second bevel gear (617) is meshed with the first bevel gear (614), the first large gear (618) is installed at the lower end of the second rotating shaft (616), the third connecting frame (619) is installed on the side wall of the vertical plate (607) at the lower side of the first large gear (618), and the third rotating shaft (620) is installed in a rotating manner on the third connecting frame (619), a pinion (621) is installed at the upper end of a third rotating shaft (620), the pinion (621) is meshed with a first gearwheel (618), a second gearwheel (622) is installed on the third rotating shaft (620) on the lower side of the pinion (621), three supports (623) are installed at the top of the bottom plate (1), a third connecting frame (619) is fixedly connected with the side wall of the corresponding support (623), a collecting frame (624) is fixedly connected among the three supports (623), a supporting frame (625) is embedded in the collecting frame (624), and a supporting column (626) is installed at the bottom in the supporting frame (625);

the cutting mechanism (7) comprises a hollow sliding pipe (701), a sliding rod (702), a mounting rack (703), a clamping rod (704), a pulling block (705), a second spring (706), a rotating block (708), a first mounting plate (709), an annular rack (710), an outer gear ring (711) and a first cutter rack (712), the hollow sliding pipe (701) is connected to one side, close to a side support (623), of the top of the bottom plate (1), the sliding rod (702) is arranged in the hollow sliding pipe (701) in a sliding mode, the mounting rack (703) is connected to the side wall of the hollow sliding pipe (701), the clamping rod (704) is arranged in the side wall of the mounting rack (703) in a sliding mode, the pulling block (705) is installed at one end of the clamping rod (704), the second spring (706) is fixedly connected between the pulling block (705) and the mounting rack (703), the second spring (706) is wound on the outer side of the clamping rod (704), and the other end of the clamping rod (704) penetrates through the hollow sliding pipe (701), the lower part of the sliding rod (702) is provided with three clamping grooves (707), the other end of the clamping rod (704) is positioned in the corresponding clamping groove (707), the upper part of the sliding rod (702) is rotatably connected with a rotating block (708), the circumferential wall of the rotating block (708) is provided with a first mounting plate (709), the first mounting plate (709) is connected with an annular frame (710), the top of the annular frame (710) is rotatably provided with an outer gear ring (711), the outer gear ring (711) is meshed with a second large gear (622), and the inner side wall of the outer gear ring (711) is provided with a first cutter holder (712); the blanking device is characterized by further comprising two fixing rods (8), two blanking frames (9), two blanking pipes (10), two wedge-shaped frames (111), two baffles (12), two wedge-shaped blocks (13), a blocking disc (131), a first tension spring (14), a fixing block (15), a fixing plate (16) and a second tension spring (17), wherein the two fixing rods (8) are respectively connected to the inner side walls of the two corresponding supporting rods (2), the fixing rods (8) are positioned on the upper side of the transverse plate (4), the blanking frames (9) are connected between the two fixing rods (8), the blanking pipes (10) are installed at the bottom of the blanking frames (9), the blanking pipes (10) are connected with the corresponding transverse plate (4), a second sliding groove (11) is formed in the top of the blanking pipes (10), the wedge-shaped frames (111) are installed on the side walls of the blanking frames (9) on the upper side of the blanking pipes (10), and the baffles (12) are arranged in the second sliding groove (11), a wedge-shaped block (13) is arranged at the top of the baffle (12) in a sliding manner, a blocking disc (131) is installed on a telescopic rod of a hydraulic cylinder (601) on the upper side of the pushing plate (606), two first tension springs (14) are fixedly connected between the wedge-shaped block (13) and the baffle (12), the wedge-shaped block (13) is in sliding fit with the wedge-shaped frame (111), a fixed block (15) is installed on one side, close to the baffle (12), of the top of the discharging pipe (10), a fixed plate (16) is installed on the side wall of the baffle (12) on the lower side of the wedge-shaped block (13), and two second tension springs (17) are connected between the fixed plate (16) and the fixed block (15); the cutting device is characterized by further comprising a second mounting plate (18), a second cutting tool rest (19), a third mounting plate (20) and a third cutting tool rest (21), wherein the second mounting plate (18) is mounted on one side, away from the first mounting plate (709), of the circumferential wall of the rotating block (708), the second mounting plate (18) is connected with the second cutting tool rest (19), the third mounting plate (20) is connected to one side, away from the second mounting plate (18), of the circumferential wall of the rotating block (708), and the third cutting tool rest (21) is arranged on the third mounting plate (20).

2. The vegetable slicing device for pressing in cooperation with the rotation of the blade as claimed in claim 1, wherein the cutting edges of the first cutting blade frame (712) are formed in a helical shape.

3. The vegetable slicing device capable of realizing the extrusion and rotation matching of the blades as claimed in claim 1, further comprising a containing box (23), a handle (24), a first support plate (25), a first roller (26), a second support plate (27) and a second roller (28), wherein two third sliding grooves (22) are formed in the top of the bottom plate (1), the handle (24) is installed on the side wall of the containing box (23), the two first support plates (25) are installed on both sides of the bottom of the containing box (23), the first roller (26) is rotatably installed between the lower portions of the two adjacent first support plates (25), the two first rollers (26) are respectively slidably located in the two third sliding grooves (22), the second support plate (27) is connected to one side of the bottom of the containing box (23) far away from the first support plate (25), and the second roller (28) is rotatably installed on the lower portion of the side wall of the second support plate (27), the four second rollers (28) are respectively and slidably positioned in the two third sliding grooves (22).

4. The vegetable slicing device with the extrusion and blade rotation matched with the claim 3, characterized by further comprising L-shaped blocks (30) and positioning rods (29), wherein the two L-shaped blocks (30) are installed at the top of the bottom plate (1), the two L-shaped blocks (30) are located on the outer sides of the two third sliding grooves (22), the positioning rods (29) are installed on the containing boxes (23) on the lower side of the handle (24), and the positioning rods (29) are matched with the two L-shaped blocks (30).

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