CN210256263U - Vertical vegetable cutter - Google Patents

Abstract

The utility model provides a vertical vegetable cutter, which comprises a frame arranged along the vertical direction and a propelling mechanism, wherein the propelling mechanism is arranged at one end of the frame in the vertical direction and is used for pushing food positioned on the frame to move towards the other end in the vertical direction; the cutting mechanism is arranged at the other end of the rack in the vertical direction and is used for cutting food; and the power driving mechanism is connected with the cutting mechanism and is used for providing power for the cutting mechanism. Promote food to cutting mechanism through advancing mechanism, cutting mechanism cuts food automatically under power actuating mechanism's drive to realized the function of automatic cutout food, improved the efficiency of cutting the dish, strengthened the quality of life, but this vertical vegetable-chopper miniaturation is fit for domestic.

Description

Vertical vegetable cutter

Technical Field

The utility model relates to a vegetable-chopper field especially relates to a vertical vegetable-chopper.

Background

In daily life, cooking is an indispensable thing for most people every day, and one of the tedious steps before cooking is to cut the vegetables.

At present, household vegetable cutting is carried out by adopting a traditional kitchen knife, and the kitchen knife is manually finished in the vegetable cutting process, so that time and labor are wasted, and the vegetable cutting efficiency is low; secondly, manual vegetable cutting is carried out by the personal experience, the sizes of the cut vegetables are different, and thirdly, the danger of cutting fingers by unskilled people exists.

Accordingly, the prior art is yet to be improved and developed.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in, to the above-mentioned defect of prior art, provide a vertical vegetable-chopper, aim at reducing the manpower through the mode of automatic cutting the dish, improve the efficiency of cutting the dish, make the dish size of surely cutting unified, avoid producing the danger that traditional kitchen knife cut the finger.

The utility model provides a technical scheme that technical problem adopted as follows:

the utility model provides a vertical vegetable-chopper, includes the frame that sets up along vertical direction, wherein, still including:

the pushing mechanism is arranged at one end of the rack in the vertical direction and used for pushing the food on the rack to move towards the other end of the rack in the vertical direction;

the cutting mechanism is arranged at the other end of the rack in the vertical direction and is used for cutting food;

the power driving mechanism is connected with the cutting mechanism and is used for providing power for the cutting mechanism;

the propulsion mechanism includes:

the push plate is movably arranged on the rack and is used for pushing food in the vertical direction;

the push plate driving assembly is fixedly arranged on the rack and connected with the push plate and used for providing power for the push plate.

Further, the food processing machine further comprises a front cover plate, the lower end of the front cover plate is hinged to the rack, a working groove used for containing food materials is formed in one face of the front cover plate, the front cover plate faces the pushing mechanism, the upper end of the front cover plate is buckled with the rack, the working groove extends in the vertical direction, and the push plate is located in the working groove.

Furthermore, the push plate driving assembly comprises a first motor fixedly arranged at the top of the rack along the horizontal direction, a driving bevel gear fixedly connected with an output shaft of the first motor, a driven bevel gear meshed with the driving bevel gear, a screw rod fixedly connected with the driven bevel gear and rotatably arranged on the rack along the vertical direction, a screw nut sleeved on the screw rod and in threaded connection with the screw rod, and a guide pillar fixedly arranged along the vertical direction and penetrating through the screw nut; the push plate is fixedly connected with the lead screw nut.

Further, the cutting mechanism includes: the rotary track columns are positioned at the bottom of the rack in the vertical direction and are respectively and rotatably arranged at two ends of the rack in the width direction, and the rotary track columns at the two ends are connected with the power driving mechanism; a left track groove and a right track groove are formed in the rotary track column, and the spiral directions of the left track groove and the right track groove are opposite; the left driving ring is fixedly connected with the left steel ball and sleeved on the rotating track column, and the rotating track column rotates to drive the left driving ring to move along the length direction; the right driving ring is fixedly connected with the right steel ball and sleeved on the rotary track column, and the rotary track column rotates to drive the left driving ring to move along the length direction; and a left driving blade is fixedly connected between the left driving rings at the two ends in the width direction, and a right driving blade is fixedly connected between the right driving rings at the two ends in the width direction.

Furthermore, a grid knife net is detachably arranged at the bottom of the rack in the vertical direction, and the grid knife net is positioned on one side, facing the pushing mechanism, of the cutting mechanism.

Further, the power drive mechanism includes: the cutting mechanism comprises a first motor, a second motor, a bevel gear set and a transmission reduction gear set, wherein the first motor is fixedly arranged at the bottom of the support, the bevel gear set is fixedly connected with an output shaft of the first motor and used for converting the rotation in the width direction into the rotation in the length direction, the transmission reduction gear set is meshed with the bevel gear set, and the transmission reduction gear set is connected with the cutting mechanism and used for providing power for the cutting mechanism.

Furthermore, baffles are arranged at two ends of the frame in the width direction respectively, the baffles extend along the length direction, a plurality of special cutter mesh grooves for storing the grid cutter meshes are formed in the side faces, facing the front cover plate, of the baffles, pushing grooves are formed in the middle of the frames and the baffles at two sides, and the pushing plates are located in the pushing grooves to push the food materials.

Furthermore, the vegetable receiving box is arranged below the cutting mechanism.

Further, still include the protective cover, the protective cover covers power drive mechanism.

The beneficial effect who adopts above-mentioned scheme is: the utility model provides a pair of vertical vegetable-chopper, the food that needs the cutting is placed in the frame, promotes food to cutting mechanism through advancing mechanism, and cutting mechanism cuts food automatically under power drive mechanism's drive to realized the function of automatic cutout food, improved the efficiency of cutting the dish, strengthened the quality of life, but this vertical vegetable-chopper miniaturization is fit for domestic.

Drawings

Fig. 1 is a schematic view of an external structure of an embodiment of the vertical vegetable cutter of the present invention.

Fig. 2 is an exploded view of an embodiment of the vertical vegetable cutter of the present invention.

Fig. 3 is a front view of the working principle of the vertical vegetable cutter of the present invention.

Fig. 4 is a schematic view of the working principle of the push plate driving assembly and the cutting mechanism of the vertical vegetable cutter of the present invention.

Fig. 5 is an enlarged view of a portion a of fig. 4.

In the figure: 100. a frame; 110. a baffle plate; 111. a knife net dedicated slot; 120. a pushing groove; 200. a propulsion mechanism; 210. a front cover plate; 211. a working groove; 220. pushing the plate; 230. a push plate drive assembly; 231. a first motor; 232. a drive bevel gear; 233. a driven bevel gear; 234. a lead screw; 235. a lead screw nut; 236. a guide post; 300. a cutting mechanism; 310. rotating the rail column; 311. a left track groove; 312. a right track groove; 320. a left steel ball; 330. a left drive ring; 340. a left drive blade; 350. a right steel ball; 360. a right drive ring; 370. a right drive blade; 380. a grid knife net; 400. a power drive mechanism; 410. a second motor; 430. a bevel gear set; 431. a cutter drive bevel gear; 432. a cutter driven bevel gear; 440. a transmission reduction gear set; 441. a main drive gear; 442. a slave drive gear; 443. a first reduction gear; 444. a second reduction gear; 445. a third reduction gear; 446. a fourth reduction gear; 450. a control device; 500. and a vegetable receiving box.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer and clearer, the present invention will be described in further detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, 2 and 3, the present invention provides a vertical vegetable cutter, which comprises a frame 100, wherein the frame 100 is a strip-shaped frame and is arranged along a vertical direction, the frame comprises a bottom plate (not labeled in the figure) for being placed on a plane, a back plate (not labeled in the figure) arranged vertically, and a top plate (not shown) for supporting, the frame is a common technique in the art, is easy to implement, is not described in detail, and for convenience of describing the structure, the arrangement position of the strip-shaped stand in the figure 1 is taken as a reference, the left and right directions of the view are taken as the length directions, the front and back directions of the view are taken as the width direction, the vertical direction of the strip-shaped stand is taken as the height direction, a pushing mechanism 200 is fixedly arranged at one end of the rack 100 in the vertical direction, preferably at the top end of the rack 100, and the pushing mechanism 200 is used for pushing the food on the rack 100 to move towards the other end in the vertical direction; the other end of the rack 100 in the vertical direction is fixedly provided with a cutting mechanism 300, the cutting mechanism 300 is used for cutting food, and preferably, the cutting mechanism 300 is located at the bottom of the rack 100. It should be noted that the one end in the vertical direction and the other end in the vertical direction in the present embodiment are defined ends, that is, hereinafter, the one end in the vertical direction refers to the connecting end of the pushing mechanism 200, and the other end in the vertical direction refers to the connecting end of the cutting mechanism 300. A power drive mechanism 400 is provided at a location on the cutting mechanism 300 remote from the advancing mechanism 200, the power drive mechanism 400 being coupled to the cutting mechanism 300 and serving to power the cutting mechanism 300. Like this, the food that needs the cutting is placed in frame 100, promotes food to cutting mechanism 300 through advancing mechanism 200, and cutting mechanism 300 cuts food automatically under power drive mechanism 400's drive to realized the function of automatic cutout food, improved the efficiency of cutting the dish, strengthened the quality of life, but this vertical vegetable-chopper miniaturization is fit for domestic. In addition, in a preferred scheme, the pushing mechanism 200 is located at the upper part of the frame, and the cutting mechanism 300 is located at the lower part of the frame, so that the food material can move to the cutting mechanism by the weight of the food material when being cut, thereby avoiding less food residue and being more beneficial to pushing and cutting the food material.

As shown in fig. 2, 3 and 4, in the specific structure of this embodiment, the pushing mechanism 200 includes a pushing plate 220 movably disposed on the frame 100, the pushing plate 220 can move along the length direction to push food in the vertical direction, and a pushing plate driving assembly 230 is disposed on the frame 100, and the pushing plate driving assembly 230 is connected to the pushing plate 220 and is used for providing power to the pushing plate 220. The push plate 220 is moved by the power of the push plate driving assembly 230, thereby pushing the food to be cut.

The food feeding device further comprises a front cover plate 210, the lower end of the front cover plate 210 is hinged to the rack, a working groove 211 for placing food materials is formed in one surface, facing the pushing mechanism 200, of the front cover plate 210, after the upper end of the front cover plate is buckled with the rack, the working groove 211 extends in the vertical direction, and the pushing plate 220 is located in the working groove 211; the front cover plate 210 can be opened by rotating around the hinged part, so that an opening is formed in one surface of the frame 100 facing the front cover plate 210, namely, the opening of the working groove 211 is opened, food can be placed in the frame 100 through the working groove 211 and stacked on the cutting mechanism 300 at the lower part for cutting, and the food can be placed more conveniently.

As shown in fig. 3 and 4, according to the difference of the push plate driving assembly 230, the propelling mechanism 200 may be set to be manual or automatic, in this scheme, an automatic propelling mode is preferred, when an automatic propelling mode is adopted, the push plate driving assembly 230 includes a first motor 231 fixedly connected to the top of the rack 100 through a screw in the horizontal direction, a driving bevel gear 232 fixedly connected to an output shaft of the first motor 231 through a connecting key, a driven bevel gear 233 engaged with the driving bevel gear 232, and a lead screw 234 fixedly connected to the driven bevel gear 233 through a connecting key, the lead screw 234 is rotatably disposed on a back plate of the rack 100 through a bearing in the vertical direction, a lead screw nut 235 is sleeved on the lead screw 234, and the lead screw nut 235 is in threaded connection with the lead screw 234; after the first motor 231 is started, the output shaft rotates, the rotation in the horizontal direction is converted into the rotation of the lead screw 234 around the vertical direction through the driving bevel gear 232 and the driven bevel gear 233, and the rotation of the lead screw 234 is converted into the movement of the lead screw nut 235 in the vertical direction. A guide post 236 is fixedly arranged on the back plate of the frame 100 along the vertical direction, and the guide post 236 penetrates through the lead screw nut 235 and is used for enabling the lead screw nut 235 to move along the extending direction of the guide post 236; the push plate 220 is fixedly connected with the lead screw nut 235 through a screw, and the lead screw nut 235 moves and drives the push plate 220 to move, so that the push plate 220 is automatically pushed. Push pedal drive assembly 230 and push pedal 220 all integrated the setting in frame 100 to realize fixed the setting with the drive division, strengthen the stability of system, whole vertical vegetable-chopper effectively reduces the volume of whole structure moreover, more is fit for miniaturized family expenses. When a manual mode is adopted, (not shown in the figure) a handle is arranged on the push plate, a guide rail is arranged on the back plate of the rack along the length direction, so that the push plate slides on the guide rail in a directional mode, the push plate can be pushed to move along the length direction by manually pushing the handle, and the food is pushed manually.

As shown in fig. 3, 4 and 5, the cutting mechanism 300 includes: the other end (bottom) of the rack 100 in the vertical direction is rotatably connected with a rotating rail column 310 through a bearing, the rotating rail column 310 is arranged along the length direction, two rotating rail columns 310 are arranged and are respectively arranged at two ends of the rack 100 in the width direction, the rotating rail columns 310 at the two ends are connected with a power driving mechanism 400, and the rotating rail columns 310 at the two ends provide rotating power for the rotating rail columns 310 at the two ends through the power driving mechanism 400; a left track groove 311 and a right track groove 312 are formed in the rotary track column 310, the spiral directions of the left track groove 311 and the right track groove 312 are opposite, and the right track groove 312 and the left track groove 311 are both splayed crossed spiral tracks; a left steel ball 320 is embedded in the left track groove 311, a left driving ring 330 is sleeved on the rotating track column 310, the inner wall of the left driving ring 330 is welded and fixed with the left steel ball 320, a left driving blade 340 is fixedly connected between the left driving ring 330 at two ends in the width direction, the rotating track column 310 rotates to drive the splayed crossed spiral track to rotate, and the left steel ball 320 drives the left driving ring 330 to move in the splayed crossed spiral track along the length direction. A right steel ball 350 is embedded in the right track groove 312 in a clamping manner, a right driving ring 360 is sleeved on the rotating track column 310, the inner wall of the right driving ring 360 is welded and fixed with the right steel ball 350, a right driving blade 370 is fixedly connected between the right driving rings 360 at two ends in the width direction, the rotating track column 310 rotates to drive the splayed crossed spiral track to rotate, and the right steel ball 350 drives the right driving ring 360 to move in the length direction in the splayed crossed spiral track; when the power driving mechanism 400 drives the two rotating track columns 310 to rotate simultaneously, the left driving blade 340 and the right driving blade 370 are driven by the left driving ring 330 and the right driving ring 360 to reciprocate in opposite directions or in opposite directions, and when food to be cut is conveyed to a position between the left driving blade 340 and the right driving blade 370, the left driving blade 340 moves in the right direction, and the right driving blade 370 moves in the left direction, so that the food material is cut. Left side drive blade and right side drive blade in this embodiment all adopt screw fixed connection, realize dismantling through the screw, and the later stage of being convenient for is changed and is maintained.

For the convenience of cutting food materials in the vertical direction, a grid knife net 380 is detachably arranged at the other end (bottom end) of the vertical direction of the rack 100, the grid knife net 380 is positioned at one side of the cutting mechanism 300 facing the pushing mechanism 200, so that long-strip-shaped food enters the grid knife net 380 before cutting, the food is supported through the grid knife net 380, the grid knife net 380 bears the food and cuts the food in the vertical direction, and the food is more conveniently cut into pieces.

As shown in fig. 5, the power driving mechanism 400 in this embodiment includes: the second motor 410 is fixedly arranged on the rack, the second motor 410 can be vertically arranged or obliquely arranged at a certain angle with the vertical direction, and the second motor 410 in the embodiment is arranged along the width direction, so that the space is saved. A gear box (not shown) for fixing the second motor 410 is disposed on the machine frame 100, the gear box is located below the machine frame, a bevel gear set 430 fixed to an output shaft of the second motor 410 and used for converting the rotation in the width direction into the rotation in the length direction, a transmission reduction gear set 440 engaged with the bevel gear set 430, the transmission reduction gear set 440 connected to the cutting mechanism 300 and used for providing power for the cutting mechanism 300, the bevel gear set 430 engaged with the transmission reduction gear set 440 are disposed in the gear box, and the specific structure of the bevel gear set 430 is as follows: the output shaft fixedly connected with cutter drive bevel gear 431 of second motor 410, cutter drive bevel gear 431 meshes mutually has cutter driven bevel gear 432, and cutter driven bevel gear 432 passes through the bearing and rotates the connection in the gear box, and transmission reduction gear 440 is including: a main drive gear 441 fixedly coupled to the cutter driven bevel gear 432 and rotated together with the cutter driven bevel gear 432, a sub drive gear 442 engaged with the main drive gear 441, first and second reduction gears 443, 444 engaged with the sub drive gear 442 in the width direction, respectively, a third reduction gear 445 engaged with the first reduction gear 443 and coupled to the rotation orbit column 310 on one side, and a fourth reduction gear 446 engaged with the second reduction gear 444 and coupled to the rotation orbit column 310 on the other side; the second motor 410 is started to drive the cutter driving bevel gear 431 to rotate, the cutter driving bevel gear 431 drives the cutter driven bevel gear 432 to rotate, the cutter driven bevel gear 432 drives the main transmission gear 441 to rotate together, the main transmission gear 441 drives the slave transmission gear 442 to rotate, the slave transmission gear 442 drives the first reduction gear 443 and the second reduction gear 444 to rotate simultaneously, the first reduction gear 443 drives the third reduction gear 445 to rotate so as to drive the rotating orbit column 310 on one side to rotate, and the second reduction gear 444 drives the fourth reduction gear 446 to rotate so as to drive the rotating orbit column 310 on the other side to rotate, so that the rotating orbit columns 310 on the two sides rotate synchronously.

In order to control the first motor 231 and the second motor 410, the vertical vegetable cutter in this embodiment further includes a control device 450, the control device 450 is disposed at the top end of the frame, the control device 450 includes a control panel and a plurality of buttons or knobs, and the buttons or knobs are used for controlling the speed change, the start and the stop of the push plate driving assembly and the power driving mechanism. In this embodiment, push pedal drive assembly's speed sets up to invariable, and push pedal drive assembly drive push pedal impels back self return on earth, through knob adjusting power actuating mechanism's speed to the reciprocating motion speed of control left side drive blade and right side drive blade, the section that food was eaten to the fast messenger's cutting is thin, can change the section size through changing check sword net, therefore this device easy operation uses convenient to use. The first motor 231 and the second motor 410 in this embodiment are all low-voltage dc motors, so as to ensure the safety of power consumption.

As shown in fig. 1 and 2, in this embodiment, two baffles 110 are integrally formed at two ends of the frame 100 in the width direction, the two baffles 110 extend along the length direction, a plurality of knife net dedicated grooves 111 for storing grid knife nets 380 are formed on the surface of the baffle 110 facing the front cover plate, a push groove 120 is formed between the frame 100 and the baffles 110 at two sides, and the baffles 110 and the frame 100 are made of stainless steel materials, so that no moving part and no contact with a charged part are arranged in the push groove 120, thereby facilitating cleaning. The knife net dedicated groove 111 can be used for storing knife nets with different specifications and cutting food materials with different varieties. Food may be placed in the push trough 120 so that the food is not squeezed out of the housing 100.

The vertical vegetable cutter of this embodiment is still including connecing dish box 500, connect dish box 500 to set up in the below of cutting mechanism 300, and the dish after having cut can directly drop to connect dish box 500, collects the good dish, for conveniently taking out connect dish box 500, sets up the opening in cutting device's below, connects dish box 500 and directly inserts at the opening part.

The vertical vegetable cutter also comprises a protective cover (not shown in the figure), the protective cover is fixedly covered on the power driving mechanism 400, so that the human body can be prevented from contacting with moving parts in the power driving mechanism 400, and the human body is protected.

To sum up, the utility model provides a vertical vegetable-chopper, the food that needs the cutting is placed in the frame, promotes food to cutting mechanism through advancing mechanism, and cutting mechanism cuts food automatically under power drive mechanism's drive to realized the function of automatic cutout food, improved the efficiency of cutting the dish, strengthened the life quality, but this vertical vegetable-chopper miniaturization is fit for domestic.

It is to be understood that the invention is not limited to the above-described embodiments, and that modifications and variations may be made by those skilled in the art in light of the above teachings, and all such modifications and variations are intended to be included within the scope of the invention as defined in the appended claims.

Claims (9)

1. The utility model provides a vertical vegetable-chopper, includes the frame that sets up along vertical direction, its characterized in that still including:

the pushing mechanism is arranged at one end of the rack in the vertical direction and used for pushing the food on the rack to move towards the other end of the rack in the vertical direction;

the cutting mechanism is arranged at the other end of the rack in the vertical direction and is used for cutting food;

the power driving mechanism is connected with the cutting mechanism and is used for providing power for the cutting mechanism;

the propulsion mechanism includes:

the push plate is movably arranged on the rack and is used for pushing food in the vertical direction;

the push plate driving assembly is fixedly arranged on the rack and connected with the push plate and used for providing power for the push plate.

2. The vertical vegetable cutter according to claim 1, further comprising a front cover plate, wherein the lower end of the front cover plate is hinged to the frame, a working groove for placing food materials is formed in one surface of the front cover plate facing the pushing mechanism, the working groove extends in the vertical direction after the upper end of the front cover plate is fastened with the frame, and the push plate is located in the working groove.

3. The vertical vegetable cutter according to claim 2, characterized in that the push plate driving assembly comprises a first motor fixedly arranged at the top of the frame along the horizontal direction, a driving bevel gear fixedly connected with an output shaft of the first motor, a driven bevel gear engaged with the driving bevel gear, a lead screw fixedly connected with the driven bevel gear and rotatably arranged on the frame along the vertical direction, a lead screw nut sleeved on the lead screw and in threaded connection with the lead screw, and a guide post fixedly arranged along the vertical direction and penetrating through the lead screw nut; the push plate is fixedly connected with the lead screw nut.

4. The vertical vegetable cutter according to claim 1, characterized in that said cutting means comprise: the rotary track columns are positioned at the bottom of the rack in the vertical direction and are respectively and rotatably arranged at two ends of the rack in the width direction, and the rotary track columns at the two ends are connected with the power driving mechanism; a left track groove and a right track groove are formed in the rotary track column, and the spiral directions of the left track groove and the right track groove are opposite; the left driving ring is fixedly connected with the left steel ball and sleeved on the rotating track column, and the rotating track column rotates to drive the left driving ring to move along the length direction; the right driving ring is fixedly connected with the right steel ball and sleeved on the rotary track column, and the rotary track column rotates to drive the left driving ring to move along the length direction; and a left driving blade is fixedly connected between the left driving rings at the two ends in the width direction, and a right driving blade is fixedly connected between the right driving rings at the two ends in the width direction.

5. The vertical vegetable cutter according to claim 4, characterized in that a grid knife net is detachably arranged at the bottom of the rack in the vertical direction, and the grid knife net is positioned at one side of the cutting mechanism facing the pushing mechanism.

6. The vertical vegetable cutter according to claim 1, characterized in that said power driving mechanism comprises: the cutting mechanism comprises a first motor, a second motor, a bevel gear set and a transmission reduction gear set, wherein the first motor is fixedly arranged at the bottom of the support, the bevel gear set is fixedly connected with an output shaft of the first motor and used for converting the rotation in the width direction into the rotation in the length direction, the transmission reduction gear set is meshed with the bevel gear set, and the transmission reduction gear set is connected with the cutting mechanism and used for providing power for the cutting mechanism.

7. The vertical vegetable cutter as claimed in claim 2, wherein the two ends of the frame in the width direction are respectively provided with a baffle plate, the baffle plates extend along the length direction, the side of the baffle plates facing the front cover plate is provided with a plurality of special cutter mesh grooves for storing the cutter mesh of the grid, a push groove is formed between the frame and the baffle plates at the two sides, and the push plate is positioned in the push groove to push the food material.

8. The vertical vegetable cutter according to claim 1, further comprising a vegetable receiving box disposed below the cutting mechanism.

9. The vertical vegetable cutter according to any one of claims 1 to 8, further comprising a protective cover covering the power drive mechanism.

Images