CN219153026U - Vegetable cutter convenient to ejection of compact - Google Patents

Abstract

The utility model discloses a vegetable cutter convenient for discharging, which belongs to the field of kitchen appliances and solves the problem that the vegetable cutter is affected by the fact that food materials are easy to accumulate in a cutter barrel.

Description

Vegetable cutter convenient to ejection of compact

[ field of technology ]

The utility model relates to the field of kitchen appliances, in particular to a vegetable cutter convenient for discharging.

[ background Art ]

The vegetable cutter is a kitchen utensil capable of being used for cutting food materials, and can cut the food materials into shapes with similar sizes, so that in the cooking process, the time required by the raw food materials to be cooked is close, the situation that the food materials are clamped or too thoroughly cooked after the cooking is finished is avoided, and the cooking effect is improved.

The current vegetable-chopper generally includes a knife section of thick bamboo and the pivoted drive arrangement of drive knife section of thick bamboo, and the knife section of thick bamboo can cut food material and preserve the food material that cuts out in the knife section of thick bamboo at the rotation in-process, and the lateral part of knife section of thick bamboo is opened and is set up in order to supply the user to acquire the food material, and current knife section of thick bamboo generally is cylindrically, along with the increase of food material at the in-process of cutting the dish, and the inside condition that can appear food material backlog of knife section of thick bamboo influences the use of vegetable-chopper to also can hinder the user to take out the food material. In order to solve the problem, the existing vegetable cutter designs the cutter barrel into a cone shape, and although food can fall from the cutter barrel along the inclined inner wall of the cutter barrel in the vegetable cutting process, the gravity center of the cutter barrel is too close to the position where the side part of the cutter barrel is opened, so that the stability of the vegetable cutter is poor and the design difficulty of the vegetable cutter is improved.

[ utility model ]

The utility model aims to solve the technical problems that the vegetable cutter convenient for discharging is provided by overcoming the defects of the prior art, and the problem that the vegetable cutter is influenced by food material accumulation in the cutter barrel is solved.

In order to solve the technical problems, the utility model adopts the following technical scheme:

vegetable cutter convenient to ejection of compact, be in including frame, the horizontal setting that have the installation cavity cutter barrel assembly and the drive arrangement who is used for the drive cutter barrel assembly is rotatory, cutter barrel assembly includes the cutter barrel and sets up cutter on the cutter barrel, correspond cutter barrel assembly upper portion on the installation cavity and be equipped with the feed inlet, correspond cutter barrel assembly lower part on the installation cavity and be equipped with first discharge gate, be equipped with the feed opening on the cutter barrel lateral wall and be used for the switching the flitch of feed opening, the flitch is set up to be in the feed opening corresponds the feed opening closes the feed opening when the feed opening, and the feed opening corresponds open when the first feed opening the feed opening, the frame still includes feed box and swager box, and feed box and swager box are located the top of cutter barrel, and the feed box is used for placing food, and feed box intercommunication, and swager box is used for extruding the food.

On the basis of the scheme, the blanking plate opens or closes the blanking opening by means of dead weight.

On the basis of the scheme, one end of the blanking plate is connected to the side wall of the cutter cylinder in a switching mode, the cutter cylinder rotates in a preset direction, and the blanking plate opens the blanking opening outwards in the direction opposite to the preset direction.

On the basis of the scheme, when the blanking plate closes the blanking opening, the other end of the blanking plate is propped against the side wall of the cutter cylinder to prevent the blanking plate from reversely opening the blanking opening.

On the basis of the scheme, the cutter is arranged on the blanking plate.

On the basis of the scheme, the cutter is detachably connected with the blanking plate; or the blanking plate is detachably connected with the side wall of the cutter cylinder.

On the basis of the scheme, the cutter and the blanking plate are circumferentially arranged on the side wall of the cutter cylinder at intervals.

On the basis of the scheme, the machine base is provided with the extractable discharging box, and the discharging box is positioned below the first discharging hole.

On the basis of the scheme, the machine base is provided with a discharging channel which is used for communicating the first discharging hole to the outside of the machine base.

On the basis of the scheme, an opening is formed in the cutter cylinder opposite to the other end of the bottom wall of the cutter cylinder, and a second discharge hole is formed in the machine base corresponding to the opening.

The utility model has the beneficial effects that:

the utility model discloses a vegetable cutter, when cutting food materials, the food materials enter a mounting cavity from a feed inlet to be contacted with the upper part of a cutter barrel assembly by using a feed box and a material pressing box, the cutter barrel can rotate under the drive of a driving device so as to cut the food materials by a cutter, and the food materials can enter the cutter barrel after being cut. The cutter cylinder can rotate and is provided with a rotation axis, the horizontal arrangement refers to the arrangement of the rotation axis of the cutter cylinder along a horizontal plane or close to the horizontal plane, and therefore a discharging opening arranged on the side wall of the cutter cylinder in the rotation process of the cutter cylinder can also rotate around the rotation axis to be close to or far away from the first discharging opening. When the feed opening moves to the position corresponding to the first discharge opening, the feed opening can be opened by the feed plate, so that food materials in the cutter barrel can leave the cutter barrel assembly through the feed opening, and then leave the mounting cavity from the first discharge opening. So the food material that enters into in the cutter barrel can constantly leave the cutter barrel through the feed opening, does not have too much food material backlog in the cutter barrel and leads to the condition of putty appearing in the cutter barrel, and the food material that is cut also can enter into in the cutter barrel smoothly to avoid leading to the food material to enter into the cutter barrel smoothly and appearing the condition that the cutter barrel card changes because of putty, because the extrusion effort is less between the food material, consequently the food material can keep intact and improve the outward appearance of dish, and reduced the food residue that adheres to on the cutter barrel, be convenient for the washing to the cutter barrel.

In this application, owing to set up feed opening and first discharge gate to in time send out the cutter section of thick bamboo with edible material, consequently the cutter section of thick bamboo need not slope set up or set up to the toper structure, in order to maintain overall structure's stability, avoided prior art to set up the cutter section of thick bamboo to the toper structure and lead to the problem that equipment stability reduces.

Further, the blanking plate opens or closes the blanking opening by means of self weight. When the blanking opening moves to a position corresponding to the first discharging opening along with the rotation of the cutter barrel, the blanking plate can open the blanking opening under the action of self gravity so that food materials can leave the cutter barrel assembly, and the blanking plate can close the blanking opening under the action of self gravity along with the continuous rotation of the cutter barrel. In this way, no complex structure is required on the cartridge and in the mounting chamber to drive the blanking plate.

Further, one end of the blanking plate is connected to the side wall of the cutter cylinder in a switching mode, the cutter cylinder rotates in a preset direction, and the blanking plate opens the blanking opening outwards along the opposite direction of the preset direction. The blanking plate can turn over to open and close the blanking opening relative to the cutter barrel, and in order to enable the blanking plate to smoothly open and close the blanking opening, the opening direction of the blanking opening is set, wherein the outward direction is the direction away from the rotation axis of the cutter barrel. In the reverse direction of the preset direction, the two ends of the blanking plate are positioned at the two ends of the blanking opening when the blanking opening is closed, one end of the blanking plate is still kept at the end position of the blanking opening when the blanking plate is turned over relative to the cutter barrel, the other end of the blanking plate can be far away from the cutter barrel to form a space capable of discharging food materials between the blanking plate and the two end positions of the blanking opening, the blanking opening is opened in the reverse direction of the preset direction, and the space capable of discharging food materials is formed between the end position of the blanking opening positioned at the front side and the blanking plate in the reverse direction of the preset direction, and the blanking plate is turned over along the preset direction relative to the cutter barrel. Along with the continuous rotation of the cutter barrel, the blanking plate can close the blanking opening inwards along the reverse direction of the preset direction relative to the cutter barrel, and in the process, the inner wall of the mounting cavity can push the blanking plate to turn over if contacting with the blanking plate. If the blanking plate opens the blanking opening in the other direction, the blanking plate can prop against the side wall of the first discharging opening to block the cutter barrel from rotating when the cutter barrel continuously rotates, if enough distance is arranged between the cutter barrel and the first discharging opening to avoid the blanking plate, the size of the vegetable cutter in the height direction is overlarge or the size of the cutter barrel is too small.

Further, when the blanking plate closes the blanking opening, the other end of the blanking plate abuts against the side wall of the cutter cylinder to prevent the blanking plate from reversely opening the blanking opening. Under the blocking effect of the side wall of the cutter barrel on the blanking plate, the blanking plate can be kept at the position of closing the blanking opening to limit food materials, and the blanking plate is prevented from being turned into the cutter barrel to open the blanking opening, so that the food materials in cutting can directly enter the cutter barrel through the blanking opening to influence the rotation of the cutter barrel.

Further, the cutter is arranged on the blanking plate. Through the design, the space occupied by the cutter and the blanking plate on the cutter barrel can be reduced, the structure of the cutter barrel assembly is optimized, and the appearance of the cutter barrel assembly is improved.

Further, the cutter is detachably connected with the blanking plate; or the blanking plate is detachably connected with the side wall of the cutter cylinder. The cutter can be detached from the blanking plate to clean the cutter, so that the cutter barrel assembly can be cleaned conveniently, and different cutters can be replaced according to cutting requirements on the shape and thickness of food materials. In addition, the blanking plate can be directly removed from the cutter barrel, the cutter is cleaned conveniently, and the contact with the cutter can be reduced in the disassembling and assembling process by a user, so that the cutter is safer to use.

Further, the machine base is provided with an extractable discharging box, and the discharging box is positioned below the first discharging hole. The material that drops from first discharge gate can be accepted to the ejection of compact box, after edible material cutting is accomplished, only needs the direct extraction ejection of compact box can take out edible material from on the vegetable-chopper, and the user need not empty the vegetable-chopper and pour edible material, has made things convenient for user's use, has improved and has readied dish efficiency. In addition, the upper limit of the storage capacity of the vegetable cutter food materials can be improved by arranging the discharging box.

Further, a discharging channel which is used for communicating the first discharging port with the outside of the machine base is arranged on the machine base. The discharge channel can accept the food material that drops from first discharge gate to outwards convey the food material, in the food material cutting process, the food material can be constantly outwards conveyed through the discharge channel, in order to avoid the condition that the food material is piled up too much to appear in first discharge gate below, the user need not take out the food material through the mode of empting the vegetable-chopper, has made things convenient for the user to use.

Further, an opening is formed in the cutter cylinder opposite to the other end of the bottom wall of the cutter cylinder, and a second discharging hole is formed in the machine base corresponding to the opening. Through the second discharge gate, the user can directly take out food material from in the cutter section of thick bamboo through the opening, also can clear up the cutter simultaneously, for example in time handles when cutting food material in-process appears food material card on the cutter to avoid cutting efficiency's reduction. And because the food material can in time leave the cutter barrel through the feed opening, can avoid the inside too much food material of backlog of cutter barrel, and lead to spilling over from the second discharge gate and scatter on the mesa, make the food material receive the pollution, the user still need spend energy to clear up the mesa.

These features and advantages of the present utility model will be disclosed in detail in the following detailed description and the accompanying drawings.

[ description of the drawings ]

The utility model is further described with reference to the accompanying drawings:

FIG. 1 is a schematic view of a vegetable cutter according to an embodiment of the present utility model;

FIG. 2 is an isometric view of the vegetable cutter with the discharge basket removed in an embodiment of the present utility model;

FIG. 3 is an exploded view of a vegetable cutter in accordance with an embodiment of the present utility model;

fig. 4 is a schematic diagram of a matching structure of a cutter barrel and a reduction gearbox in the embodiment of the utility model;

FIG. 5 is a front view of a cartridge assembly according to an embodiment of the present utility model;

FIG. 6 is a cross-sectional view of a vegetable cutter in accordance with an embodiment of the present utility model;

FIG. 7 is a schematic view of another vegetable cutter according to an embodiment of the present utility model;

FIG. 8 is a schematic diagram illustrating the cooperation between a cutter and a blanking plate according to an embodiment of the present utility model;

fig. 9 is a schematic diagram of the cooperation of the connection between the blanking plate and the cutter barrel in the embodiment of the present utility model.

Reference numerals:

the device comprises a machine base 100, a discharging barrel 101, a hook 102, a mounting cavity 110, a first discharging hole 120, a discharging box 130, a discharging channel 140, a second discharging hole 150, a feeding box 160, a pressing box 170, a button 180 and a micro switch 190;

knife cylinder assembly 200, knife cylinder 210, through slot 211, knife 220, knife blade 221, knife rest 222, feed inlet 230, feed outlet 240, feed plate 250, through hole 251, chute 252, spindle 253, opening 260, and connecting structure 270;

motor assembly 300, fastening nut 310, motor 320, reduction gearbox 330.

[ detailed description ] of the utility model

The technical solutions of the embodiments of the present utility model will be explained and illustrated below with reference to the drawings of the embodiments of the present utility model, but the following embodiments are only preferred embodiments of the present utility model, and not all embodiments. Based on the examples in the implementation manner, other examples obtained by a person skilled in the art without making creative efforts fall within the protection scope of the present utility model.

The appearances of the phrases such as "exemplary," "some embodiments," and the like in the following text are meant to be "serving as examples, embodiments, or illustrative," and any embodiment described as "exemplary" is not necessarily to be construed as preferred or advantageous over other embodiments. In the following detailed description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, it will be appreciated by those skilled in the art that the present disclosure may be practiced without some of these specific details.

Referring to fig. 1 to 6, the embodiment of the utility model discloses a vegetable cutter convenient for discharging, which comprises a machine base 100 with a mounting cavity 110, a cutter barrel assembly 200 horizontally arranged in the mounting cavity 110 and a driving device for driving the cutter barrel assembly 200 to rotate, wherein the cutter barrel assembly 200 comprises a cutter barrel 210 and a cutter 220 arranged on the cutter barrel 210, a feed inlet 230 is arranged on the mounting cavity 110 corresponding to the upper part of the cutter barrel assembly 200, a first discharge outlet 120 is arranged on the mounting cavity 110 corresponding to the lower part of the cutter barrel assembly 200, a feed opening 240 and a feed plate 250 for opening and closing the feed opening 240 are arranged on the side wall of the cutter barrel 210, the feed plate 250 is arranged to close the feed opening 240 when the feed opening 240 corresponds to the feed inlet 230, and the feed opening 240 is opened when the feed opening 240 corresponds to the first discharge outlet 120, so that a user can take out food through the first discharge outlet 120.

When the vegetable cutter disclosed by the utility model cuts food materials, the food materials enter the mounting cavity 110 from the feed inlet 230 to be contacted with the upper part of the cutter barrel assembly 200, and the cutter barrel 210 can rotate under the drive of the driving device, so that the cutter 220 is driven to cut the food materials, and the food materials can enter the cutter barrel 210 after being cut.

The cutter barrel 210 is rotatable and has a rotation axis, and the horizontal arrangement refers to that the rotation axis of the cutter barrel 210 (the dash-dot line in fig. 4 is the rotation axis of the cutter barrel) is disposed along a horizontal plane, so that the discharging opening 240 disposed on the side wall of the cutter barrel can rotate around the rotation axis to approach or separate from the first discharging opening 120 during the rotation of the cutter barrel 210. Of course, in consideration of certain errors occurring in the actual installation process, machining errors may occur in the manufacturing process of the parts, and the rotation axis of the cutter barrel 210 may deviate slightly from the horizontal plane, but no significant inclination of the cutter barrel 210 may occur.

When the blanking opening 240 moves to a position corresponding to the first discharging opening 120, the blanking plate 250 can open the blanking opening 240 to enable the food materials in the cutter barrel 210 to leave the cutter barrel assembly 200 through the blanking opening 240 and leave the mounting cavity 110 from the first discharging opening 120. Therefore, the food material entering the cutter barrel 210 can continuously leave the cutter barrel 210 through the discharging opening 240, the condition that too much food material is accumulated in the cutter barrel 210 to cause blocking in the cutter barrel 210 is avoided, the cut food material can smoothly enter the cutter barrel 210, the condition that the cutter barrel 210 is blocked and rotated due to the fact that the food material cannot smoothly enter the cutter barrel 210 caused by blocking is avoided, and the mutual extrusion acting force between the food materials is small, so that the food material can keep complete to improve the appearance of dishes, food residues attached to the cutter barrel 210 are reduced, and the cleaning of the cutter barrel 210 is facilitated.

In this application, since the discharging port 240 and the first discharging port 120 are provided to deliver the food material out of the cutter barrel in time, the cutter barrel 210 does not need to be inclined or set to be of a tapered structure, so as to maintain the stability of the whole structure, and the problem that the stability of the device is reduced due to the fact that the cutter barrel is set to be of a tapered structure in the prior art is avoided.

After the cutting of the food material is completed, a small amount of food material remains in the cutter barrel 210, and only the cutter barrel 210 needs to be slowly rotated continuously to discharge the food material remaining in the cutter barrel 210. The user can take out the edible material of accomplishing the cutting through first discharge gate 120, as the preference, be equipped with extractable discharging box 130 on the frame 100, discharging box 130 is located first discharge gate 120 below, and edible material that drops from first discharge gate 120 can be accepted to discharging box 130, and after edible material cutting is accomplished, only need directly extract discharging box 130 can take out edible material from the vegetable-chopper, and the user need not empty the vegetable-chopper, has made things convenient for user's use. In addition, the upper limit of the storage amount of the food materials of the vegetable cutter can be improved by arranging the discharging box 130.

Generally speaking, each part of the vegetable-chopper is detachable structure to the user's split clearance of being convenient for, if the discharge gate sets up in a sword section of thick bamboo lateral part, then topple over the vegetable-chopper and take out the in-process of edible material, the structural stability of vegetable-chopper can decline, leads to the structure to disintegrate and influence the use at this in-process easily. Compared with the prior art, the vegetable cutter of this application need not to empty and can take out edible material, can not appear foretell condition in the use and appear.

In order to avoid complicating the structure of the vegetable cutter, the blanking plate 250 is rotatably mounted on the side wall of the cutter barrel 210, and can open or close the blanking opening 240 by means of self weight, and when the blanking opening 240 moves to a position corresponding to the first discharging opening 120 along with the rotation of the cutter barrel 210, the blanking plate 250 can open the blanking opening 240 under the action of self gravity so that food materials can leave the cutter barrel assembly 200, and when the cutter barrel 210 continues to rotate, the blanking plate 250 can close the blanking opening 240 under the action of self gravity. In this way, no complex structure is required on the cartridge 210 and in the mounting cavity 110 to drive the blanking plate 250. The blanking plate 250 may be provided with a rotation shaft 253 that cooperates with the cutter cylinder 210 to realize the turning movement of the blanking plate 250.

When the blanking plate 250 closes the blanking opening 240, the other end of the blanking plate 250 abuts against the side wall of the cutter barrel 210 to prevent the blanking plate 250 from reversely opening the blanking opening 240, so that the blanking plate 250 can be kept at a position for closing the blanking opening 240 to limit food materials, the blanking plate 250 is prevented from being turned into the cutter barrel 210 to open the blanking opening 240, and the food materials being cut can directly enter the cutter barrel 210 through the blanking opening 240 to affect the rotation of the cutter barrel 210.

Preferably, the cutter barrel 210 is provided with two groups of blanking plates 250 and blanking openings 240 which are symmetrical with respect to the center of the cutter barrel 210. In the cutting process of the food material, even if the discharging opening 240 is in an opened state, the rotating cutter barrel 210 has an acting force on the food material in the cutter barrel 210, so that part of the food material can be remained in the cutter barrel 210, and the discharging efficiency can be improved by arranging two discharging openings 240. And the interval between the two discharging openings 240 is large so as not to weaken the strength of the knife cylinder 210 positioned therebetween, to avoid cracking of the knife cylinder 210.

In order to enable the blanking plate 250 to smoothly open and close the blanking port 240, in one embodiment of the present utility model, based on the above-described embodiment, referring to fig. 5, the cutter drum 210 rotates in a predetermined direction (a direction indicated by an arrow located at a side of the cutter drum in fig. 5 is a direction of rotation of the cutter drum), and the blanking plate 250 opens the blanking port 240 outwardly (outwardly is a direction directed away from a rotation axis of the cutter drum) in a direction opposite to the predetermined direction.

Specifically: the blanking plate 250 has two ends, namely an end a and an end B, the end B is switched with the cutter drum 210, the preset direction is set to be anticlockwise, the end a is located at the rear side of the end B in the anticlockwise direction, the opposite direction of the preset direction is clockwise direction, namely the direction from the end B to the end a, the blanking plate 240 also has two ends, one is the front end in the clockwise direction, the other is the rear end, when the blanking plate 240 is closed, the end a and the end B of the blanking plate 250 are located at the two end positions of the blanking plate 240, when the blanking plate 250 is opened the blanking plate 240, a space for discharging food materials is formed between the two end positions of the blanking plate 250 and the blanking plate 240, the end a of the blanking plate 250 moves relative to the end B (the moving direction of the end a is the direction indicated by an arrow located at the right side of the blanking plate 250 in fig. 5), and the blanking plate 250 is turned over in the anticlockwise direction relative to the cutter drum 210, so that the space for discharging food materials can be formed at the positions of the end a and the front side of the blanking plate 240. After the blanking opening 240 is opened, as the cutter barrel 210 continues to rotate, the blanking plate 250 can close the blanking opening 240 inward in a direction opposite to the predetermined direction with respect to the cutter barrel 210 (the blanking plate 250 is turned clockwise with respect to the cutter barrel 210), and in this process, the inner wall of the mounting cavity 110 can push the blanking plate 250 to turn if contacting the blanking plate 250.

If the blanking plate opens the blanking opening in the other direction (namely, the cutter barrel rotates anticlockwise, and the blanking plate turns clockwise relative to the cutter barrel), the blanking plate can prop against the side wall of the first discharging hole to block the rotation of the cutter barrel when the cutter barrel continues to rotate, and if a sufficient distance is arranged between the cutter barrel and the first discharging hole to avoid the blanking plate, the size of the vegetable cutter in the height direction is overlarge or the size of the cutter barrel is undersized.

In order to enable the blanking plate to timely turn over and open the discharge hole, the wall thickness of one end of the blanking plate, which can move relative to the cutter cylinder, can be increased so as to improve the quality of the one end.

Referring to fig. 3, in one embodiment of the present utility model, based on the above embodiment, the cutter 220 is disposed on the blanking plate 250, and by such design, the space occupied by the cutter 220 and the blanking plate 250 on the cutter cartridge 210 can be reduced, the structure of the cutter cartridge assembly 200 can be optimized, and the appearance of the cutter cartridge assembly 200 can be improved. Of course, the cutters can be arranged at other positions on the cutter barrel and are arranged at intervals with the blanking plate, and the design has the advantage that the number and the size of the cutters can be designed according to actual requirements. In addition, the cutter can set up a plurality of, all is provided with the cutter on the flitch, on the cutter section of thick bamboo lateral wall, so can increase the cutter quantity on the cutter section of thick bamboo, the cutter section of thick bamboo rotates the round and can cut more food to improve cutting efficiency.

For convenience, in one embodiment of the present utility model, based on the above embodiment, referring to fig. 8 and 9, the cutter 220 may be detached from the cutter barrel 210, so as to clean the cutter 220, and after the cutter 220 is detached, the cutter barrel 210 may be cleaned conveniently, so as to avoid the user from being cut by the cutter 220 during the cleaning process.

The cutter 220 is detachably connected to the blanking plate 250, so that different kinds of cutters can be mounted on the blanking plate 250 to adjust the shape, thickness, etc. of the cutting of the food material.

The cutter 220 is detachable in a more conventional manner, and this embodiment illustrates only one more conventional manner: referring to fig. 8, the cutter 220 includes a blade 221 and a cutter holder 222, the blade 221 is fixed to the cutter holder 222, a through hole 251 penetrating in a radial direction of the cutter barrel 210 is provided in the blanking plate 250, and slide grooves 252 are provided on both sidewalls of the through hole 251, one side of the slide groove 252 is opened, the cutter holder 222 slides into the slide groove 252 from the opened portion of the slide groove 252, and the blade corresponds to the through hole 251. The direction in which knife rest 222 mates with chute 252 is opposite to the direction in which knife cylinder 210 rotates, so that during cutting, frictional forces between the food material and blade 221 do not push knife 220 away from blanking plate 250.

Or, the blanking plate 250 may be detachably connected with the cutter barrel 210, so that the cutter 220 can be detached from the cutter barrel 210 along with the blanking plate 250, and the cutter 220 can be cleaned conveniently, and a user cannot directly contact with the cutter 220 in the detaching process, so that the user is prevented from being cut by the cutter 220 in the detaching process. While also enabling the tool 220 to be removably mated with the blanking plate 250 to replace the tool 220 on the blanking plate 250.

Regarding the detachable structure of the blanking plate and the cutter barrel, an example is as follows: referring to fig. 9, it is mentioned that the blanking plate 250 is provided with a rotating shaft 253 that is in rotation fit with the cutter barrel 210, the rotating shaft 253 is a flat shaft, the cutter barrel 210 is provided with a through groove 211, the through groove 211 is communicated with a round hole 212 that is in fit with the rotating shaft 253, the flat shaft can enter the round hole 212 through the through groove 211, wherein the width L1 of the flat shaft is close to the diameter D1 of the round hole 212 so as to allow the flat shaft to rotate in the round hole 212, the thickness L2 of the flat shaft is slightly smaller than the dimension D2 of the through groove 211, the dimension D2 of the through groove 211 is smaller than the diameter D1 of the round hole 212, and the flat shaft can be taken out from the round hole 212 only when the flat shaft rotates to a certain angle, so that the blanking plate 250 is detached from the cutter barrel 210. In the process of cutting food materials, the maximum rotation angle of the blanking plate 250 relative to the cutter barrel 210 is smaller than 90 degrees, and the blanking plate 250 can be detached from the cutter barrel 210 only when the rotation angle of the blanking plate 250 exceeds 100 degrees, so that the blanking plate 250 can be prevented from falling from the cutter barrel 210 in the process of cutting food materials.

Referring to fig. 7, in another embodiment of the present utility model, unlike the above embodiment, the base 100 is provided with the discharge channel 140 that connects the first discharge port 120 to the outside of the base 100, the discharge channel 140 is located below the first discharge port 120 and is capable of carrying dropped food, the bottom wall of the discharge channel 140 is an inclined plane, and the food can be conveyed outwards along the bottom wall of the discharge channel 140 after dropping from the first discharge port 120 onto the discharge channel 140, so that during the food cutting process, the food can be continuously conveyed outwards through the discharge channel 140, so as to avoid the situation that too much food is accumulated below the first discharge port 120.

Referring to fig. 2, 3 and 6, in an embodiment of the present utility model, based on the above embodiment, an opening 260 is formed on the other end of the cutter barrel 210 opposite to the bottom wall of the cutter barrel 210, a second discharge port 150 is provided on the base 100 corresponding to the opening 260, through which second discharge port 150, a user can directly take out food from the cutter barrel 210 through the opening 260, and at the same time, the cutter 220 can be cleaned, for example, when food is stuck on the cutter 220 during cutting of the food, so as to avoid reduction of cutting efficiency. And because the food material can in time leave the cutter barrel 210 through the discharging opening 240, the food material can be prevented from overflowing from the second discharging opening 150 and scattering on the table top due to excessive food material accumulated in the cutter barrel 210.

The machine base 100 is also provided with a detachable discharging barrel 101, the installation cavity 110 is formed by the discharging barrel 101, the machine base 100 is L-shaped and is provided with a bottom support and a back support, a space for accommodating the discharging barrel 101 is formed between the bottom support and the back support, the back support is provided with a hook 102, the discharging barrel 101 is detachably installed on the machine base 100 through the hook 102, and the discharging box 130 is arranged on the bottom support. The second discharge port 150 is disposed at a side portion of the discharge barrel 101, the first discharge port 120 is disposed at a bottom portion of the discharge barrel 101, the feed port 230 is disposed at a top portion of the discharge barrel 101, and the cutter barrel assembly 200 is disposed in the discharge barrel 101.

In an embodiment of the present utility model, unlike the above embodiment, the cutter barrel is not provided with an opening, so that a user can be prevented from being injured by extending his or her hand into the cutter barrel during the process of cutting food by the cutter barrel. Due to the fact that the first discharging hole is formed, food materials in the cutter barrel can be directly taken down from the vegetable cutter through the first discharging hole and the discharging box, and even if the end portion of the cutter barrel is closed, the use cannot be affected. In the above embodiment, the second discharge port on the discharge barrel may be used as an inlet for mounting the cutter barrel in the mounting cavity, or the cutter barrel assembly may be assembled to the stand first and then the discharge barrel may be mounted.

In an embodiment of the present utility model, unlike the above embodiment, in this embodiment, the second discharge port is not provided on the discharge barrel, so that the cutter barrel is in a closed environment, and the user can be prevented from being injured by extending the hand into the cutter barrel during the process of cutting the food material by the cutter barrel. Due to the fact that the first discharging hole and the discharging box are arranged, even if the cutter barrel is sealed, the user can not be influenced to obtain food materials from the vegetable cutter. In this embodiment, when assembling the vegetable cutter, the cutter barrel assembly is first assembled to the housing, and then the discharge barrel is installed.

Referring to fig. 2, 3 and 6, in one embodiment of the present utility model, based on the above embodiment, the stand 100 further includes a feeding box 160 and a pressing box 170, the feeding box 160 and the pressing box 170 are located above the cutter drum 210, the feeding box 160 is used for placing food, the feeding port 230 is communicated with the feeding box 160, the pressing box 170 is used for pressing the food, and the food can be pressed and continuously moved downward during the cutting process of the food by the cutter 220, so that the food can be kept in contact with the cutter 220 to ensure the cutting efficiency.

The cartridge 160 is removable from the housing 100 to facilitate cleaning of the cartridge 160, and the cartridge 170 is directly placed within the cartridge 160.

Referring to fig. 3 and 6, in an embodiment of the present utility model, based on the above embodiment, the driving device includes a motor assembly 300, the motor assembly is disposed on a back support of the stand 100, the cutter barrel 210 is detachably mounted with the motor assembly 300, an opening is further disposed on the back support of the stand 100, a connecting structure 270 capable of being in driving fit with the motor assembly 300 is disposed on an outer sidewall of a bottom of the cutter barrel 210, the connecting structure 270 can extend out of the opening, and the cutter barrel 210 can be locked by being connected with the connecting structure 270 through a fastening nut 310, so as to prevent the cutter barrel 210 from falling from the stand 100.

The motor assembly 300 includes a motor 320 and a reduction gearbox 330, a gear set is disposed in the reduction gearbox 330, the connection structure 270 penetrates through the reduction gearbox 330 and can be meshed with one of the gears in the gear set, and through rotation among a plurality of gears, the rotation speed of the motor 320 transmitted to the connection structure 270 is reduced, and torque is increased, so that smooth rotation of the cutter barrel 210 is ensured.

The machine base 100 is further provided with a button 180, and after the button 180 is pressed, the motor assembly 300 can drive the cutter barrel assembly 200 to rotate so as to automatically cut vegetables, and a user only needs to keep pressing the material pressing box 170 in the process.

In addition, the driving device can also be manually driven, and the back of the machine seat is provided with a handle connected with the cutter barrel, so that the cutter barrel can be rotated to cut food materials.

While the utility model has been described in terms of embodiments, it will be appreciated by those skilled in the art that the utility model is not limited thereto but rather includes the drawings and the description of the embodiments above. Any modifications which do not depart from the functional and structural principles of the present utility model are intended to be included within the scope of the appended claims.

Claims (10)

1. Vegetable cutter convenient to ejection of compact, be in including frame, the horizontal setting that have the installation cavity cutter barrel assembly and the drive arrangement who is used for the drive in the installation cavity cutter barrel assembly is rotatory, cutter barrel assembly includes the cutter barrel and sets up cutter on the cutter barrel, correspond cutter barrel assembly upper portion on the installation cavity and be equipped with the feed inlet, its characterized in that corresponds cutter barrel assembly lower part on the installation cavity and be equipped with first discharge gate, be equipped with the feed opening on the cutter barrel lateral wall and be used for the switching the flitch of feed opening, the flitch is set up to be in the feed opening corresponds the feed opening is closed when the feed opening, and open when the feed opening corresponds the first discharge opening the feed box still includes feed box and swager, and feed box and swager are located the top of cutter barrel, and the feed box is used for placing edible material, and feed opening and feed box intercommunication, swager are used for extruding edible material.

2. The vegetable cutter for facilitating discharging as claimed in claim 1, wherein said blanking plate opens or closes said blanking opening by its own weight.

3. The vegetable cutter for facilitating discharging as claimed in claim 2, wherein one end of said blanking plate is connected to said side wall of said cutter drum, said cutter drum rotates in a predetermined direction, and said blanking plate opens said blanking opening outwardly in a direction opposite to said predetermined direction.

4. The vegetable cutter convenient to discharge according to claim 3, wherein when said blanking plate closes said blanking opening, the other end of said blanking plate abuts against the side wall of said cutter barrel to prevent said blanking plate from reversely opening said blanking opening.

5. The easy-to-discharge vegetable cutter of claim 1, wherein said cutter is disposed on said blanking plate.

6. The easy-to-discharge vegetable cutter of claim 5, wherein said cutter is detachably connected to said blanking plate; or the blanking plate is detachably connected with the side wall of the cutter cylinder.

7. The easy-to-discharge vegetable cutter of claim 1, wherein said cutter is circumferentially spaced from said blanking plate on said cutter drum side wall.

8. Vegetable cutter facilitating discharging according to one of claims 1 to 7, characterised in that the housing is provided with a removable discharge box, which is located below the first discharge opening.

9. The vegetable cutter for facilitating discharging according to any one of claims 1 to 7, wherein a discharging passage is provided on the housing for communicating the first discharging port to the outside of the housing.

10. The vegetable cutter for facilitating discharging according to any one of claims 1 to 7, wherein an opening is formed in the cutter barrel at the other end opposite to the bottom wall of the cutter barrel, and a second discharging opening is provided in the housing corresponding to the opening.

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