CN214352762U - Food processor - Google Patents

Abstract

The present invention provides a food processor comprising: a main body; a cutting device mounted to the top end of the body for slicing food; an adjusting means mounted to a top end of the body for adjusting a slice thickness of the food item, the adjusting means being located at one side of the cutting means and movable in a lateral direction of the body; locking means mounted to the adjustment means and the body for limiting movement of the adjustment means relative to the body. The food slicing device can adjust the slicing thickness of food, ensure that the slicing thickness of the food is constant and uniform, and meet the use requirement.

Description

Food processor

[ technical field ] A method for producing a semiconductor device

The present invention relates to a device for cutting food, and in particular to a food processor for slicing food.

[ background of the invention ]

When the existing food processor slices food, the slice thickness is uneven and not constant, and the use requirement cannot be met.

[ summary of the invention ]

The invention mainly aims to provide a food processor which can ensure that food slices are relatively constant and the slice thickness is relatively uniform.

To achieve the above object, the present invention provides a food processor, comprising: a main body; a cutting device mounted to the top end of the body for slicing food; an adjusting means mounted to a top end of the body for adjusting a slice thickness of the food item, the adjusting means being located at one side of the cutting means and movable in a lateral direction of the body; locking means mounted to the adjustment means and body for limiting movement of the adjustment means relative to the body; the locking device comprises a first locking member and a second locking member partially connected with the first locking member, wherein a fastener is arranged on the inner wall of the first locking member, a buckling position is arranged on the second locking member, and the fastener is matched with the buckling position; the locking device comprises a first locking member and a second locking member partially connected with the first locking member, the buckling position is a track arranged on the surface of the second locking member, and the fastener can be accommodated in the buckling position and can move along the slide way.

As a preferred technical solution, the food slicing device further comprises a folding member and a sliding member, wherein the folding member is pivotally mounted on one side of the main body in the longitudinal direction, the sliding member is mounted at the top end of the folding member and can move along the longitudinal direction of the folding member, and the sliding member is used for placing food and pushing the food horizontally to the cutting device for slicing after the food is abutted to the adjusting device.

Preferably, the food processor further comprises a pushing member, the pushing member is mounted at the top end of the sliding member and can move along the longitudinal direction of the sliding member, and the pushing member is used for pushing the food placed on the sliding member to enable the food to abut against the adjusting device.

Preferably, the sliding member is detachably mounted to a top end of the folding member, the pushing member is detachably mounted to a top end of the sliding member, a receiving cavity is formed at a bottom end of the folding member, and the sliding member and the pushing member are respectively received in the receiving cavity after being detached from the folding member and the sliding member.

Preferably, the cutting device comprises a mounting plate mounted on the top end of the main body, a circular blade, a blade locking mechanism mounted on the mounting plate, and a first driving mechanism mounted on the mounting plate, wherein the circular blade is mounted on one surface of the mounting plate close to the folding member through the blade locking mechanism and can rotate relative to the mounting plate and the blade locking mechanism, the circular blade partially protrudes out of one side of the mounting plate close to the adjusting device so as to facilitate slicing of food, and the first driving mechanism is used for driving the circular blade to rotate.

As a preferable technical scheme, one surface of the mounting plate, which is close to the folding component, is provided with a mounting cavity, and the circular blade is located at an opening of the mounting cavity.

Preferably, the blade locking mechanism comprises a first blade locking member and a second blade locking member mounted at the bottom of the mounting cavity, the first blade locking member is mounted to the second blade locking member and can rotate relative to the second blade locking member, and the circular blade is sleeved on the first blade locking member and can rotate relative to the first blade locking member; the first blade locking member is rotatable relative to the second blade locking member from a first position to a second position, the first blade locking member being inseparable from the second blade locking member when the first blade locking member is in the first position such that the circular blade is not removable from the mounting plate, the first blade locking member being separable from the second blade locking member when the first blade locking member is in the second position such that the circular blade is removable from the mounting plate.

Preferably, the first driving mechanism includes a handle mounted to a surface of the mounting plate remote from the folding member, a first cutting gear member mounted to a bottom of the mounting cavity and fixedly connected to the handle, and a second cutting gear member mounted to a surface of the circular blade close to the mounting cavity and engaged with the first cutting gear member.

Preferably, the first blade locking member has a turning handle to facilitate turning of the first blade locking member.

Preferably, the adjusting device comprises a first adjusting member and a second driving mechanism at the top end of the main body, and the second driving mechanism is mounted to the first adjusting member and the main body for driving the first adjusting member to move along the transverse direction of the main body.

Preferably, the second driving mechanism includes a second adjusting member, a first gear member, and a second gear member, the first adjusting member is L-shaped, a vertical portion of the first adjusting member is close to the folding member, the second adjusting member is rotatably mounted in a mounting hole of a horizontal portion of the first adjusting member, the first gear member is fixed to a bottom end of the second adjusting member, a slot extending in a horizontal direction of the main body is provided at a top end of the main body, the slot is communicated with the accommodating cavity of the main body, the second gear member is provided on an inner wall of one side of the slot, teeth of the second gear member are arranged side by side in the horizontal direction of the main body to an inner wall of one side of the slot, and the first gear member is located in the slot and engaged with teeth of the second gear member.

Preferably, the adjustment device further includes a third adjustment member provided to the distal end of the main body, and a fourth adjustment member provided to the inner cavity of the transverse portion of the first adjustment member, the third adjustment member and the fourth adjustment member cooperating to limit movement of the first adjustment member relative to the main body.

Preferably, the vertical portion of the first adjusting member is arc-shaped on a side close to the cutting device.

Preferably, the number of the third adjusting members is two, and the third adjusting members are respectively located on two sides of the slot, and the number of the fourth adjusting members corresponds to the number of the third adjusting members.

As a preferable technical solution, the third adjusting member includes a plurality of clips arranged at intervals in the transverse direction of the main body, and the fourth adjusting member includes a plurality of clips, each clip corresponding to one clip.

Preferably, the top end of the second adjusting member protrudes from the mounting hole and is provided with a rotating member for rotating the second adjusting member.

As a preferred technical solution, the locking device includes a first locking member and a second locking member, the first locking member is installed in an inner hole of the second adjusting member and can rotate relative to the second adjusting member, the second locking member includes a clamping portion and a connecting portion, the clamping portion is located in the accommodating cavity of the main body, one end of the connecting portion is connected to the clamping portion, and the other end of the connecting portion passes through the slotted hole and the inner hole of the first gear member and is installed on the first locking member; the first locking member can rotate relative to the second adjusting member from a first position to a second position, when the first locking member is located at the first position, the clamping part is clamped to the bottom end of the slotted hole so as to limit the adjusting device to move relative to the main body, when the first locking member is located at the second position, the clamping part is not clamped to the bottom end of the slotted hole so as to enable the adjusting device to move relative to the main body, and when the adjusting device moves relative to the main body, the locking device can move along with the adjusting device.

Preferably, the locking device further comprises a third locking member, the third locking member is sleeved on the connecting portion, and when the first locking member is located at the first position, the third locking member is clamped between the clamping portion and the bottom end of the slot hole.

As a preferred technical solution, the device further comprises a vacuum suction device, wherein the vacuum suction device comprises a vacuum suction base mounted to the main body and a vacuum suction controller, and the vacuum suction controller is used for controlling the vacuum suction base to be adsorbed to the working platform so as to fix the main body to the working platform.

According to the food slicing machine, the slicing thickness of food can be adjusted through the adjusting device, the adjusting device can be limited to move relative to the main body through the locking device, slicing of the food is constant, the slicing thickness is uniform, and the use requirement is greatly met.

[ description of the drawings ]

To further disclose the specific technical content of the present disclosure, please refer to the attached drawings, wherein:

FIG. 1 is a front view of a food processor according to an embodiment of the present invention;

FIG. 2 is a schematic view of the back side of the food processor of FIG. 1;

FIG. 3 is an exploded view of the cutting assembly of the food processor of FIG. 1;

FIG. 4 is a schematic exploded perspective view of the cutting assembly of the food processor of FIG. 1;

FIG. 5 is a sectional view of the first adjustment member of the adjustment device of the food processor shown in FIG. 1;

FIG. 6 is an enlarged partial schematic view of FIG. 5 at A;

FIG. 7 is a schematic view of the inverted portion of FIG. 6 showing the bottom end of the body and the engagement of the teeth of the first gear member with the teeth of the second gear member;

FIG. 8 is an exploded view of the adjustment mechanism and locking mechanism of the food processor of FIG. 1;

FIG. 9 is a schematic exploded perspective view of the adjustment mechanism and locking mechanism of the food processor of FIG. 1;

FIG. 10 is a schematic structural view of a first locking member of the food processor of FIG. 1;

FIG. 11 is a schematic structural view of a second locking member of the food processor of FIG. 1;

FIG. 12 is a schematic view of the sliding member and the pushing member of the food processor shown in FIG. 1 being received in the receiving cavity of the folding member;

FIG. 13 is a schematic structural view of a pushing member and a sliding member of the food processor of FIG. 1;

FIG. 14 is a partial schematic view of the vacuum control of the food processor of FIG. 1 rotated to a second position.

Description of the symbols:

slot 11 of main body 10

Accommodating chamber 12

Cutting device 20 mounting plate 21

Mounting cavity 211 circular blade 22

Blade 221 through hole 222

First blade locking member 23

Rotary handle 231 lug 232

Second blade locking member 24 recess 241

Handle 25 first cutting gear member 26

First mounting portion 28 of second cutting gear member 27

Second mounting portion 29

Adjusting device 30 first adjusting member 31

Vertical part 311 horizontal part 312

Mounting hole 3121 second adjustment member 32

Inner bore 322 of rotating member 321

Inner bore 331 of first gear member 33

Second gear member 34 second gear member teeth 341

Third adjusting member 35

Fastener 351 supporting plate 352

Fourth adjustment member 36 detent 361

Locking device 40 first locking member 41

Rotating handle 412 of fastener 411

Second locking member 42 catch 421

4221 connecting part 422

Third locking member 43

Folding member 50 accommodating cavity 51

Slide member 60 slide member body 61

Slide member mounting plate 62 baffle 63

Pushing member 70 pushing member body 71

Vertical part 711 horizontal part 712

Push member mounting plate 72

Vacuum suction device 80 vacuum suction base 81

Opening 811 vacuum pumping controller 82

[ detailed description ] embodiments

Referring to fig. 1 and 2, the present embodiment provides a food processor, which is mainly used for slicing food such as soft and hard cheese, frozen meat, sausage, bread, vegetables and fruits. The food processor comprises a main body 10, a cutting device 20, an adjusting device 30, a locking device 40, a folding member 50 and a sliding member 60.

A cutting device 20 is mounted to the top end of the body 10, the cutting device 20 being used to slice food. An adjusting means 30 is mounted to the top end of the main body 10, the adjusting means 30 is located at one side of the cutting means 20 and is movable in a lateral direction of the main body 10, and the adjusting means 30 is used for adjusting a slice thickness of the food for the cutting means 20 to slice the food. A locking device 40 is mounted to the adjustment device 30 and the body 10, the locking device 40 being adapted to restrict movement of the adjustment device 30 relative to the body 10. The folding member 50 is mounted to one side of the longitudinal direction of the main body 10. The sliding member 60 is mounted to the top end of the folding member 50 and can move along the longitudinal direction of the folding member 50, and the sliding member 60 is used for placing food and horizontally pushing the food to the cutting device 20 for slicing after the food abuts against the adjusting device 30.

Referring to fig. 1, 2, 3 and 4, the cutting device 20 includes a mounting plate 21 mounted to the top end of the body 10, a circular blade 22 for slicing food, a blade locking mechanism mounted to the mounting plate 21, and a first driving mechanism mounted to the mounting plate 21. The circular blade 22 is mounted to a surface of the mounting plate 21 adjacent to the folding member 50 through a blade locking mechanism and can rotate relative to the mounting plate 21 and the blade locking mechanism, the circular blade 22 partially protrudes from a side of the mounting plate 21 adjacent to the adjusting device 30 to facilitate slicing of food, and the first driving mechanism is used for driving the circular blade 22 to rotate.

The mounting plate 21 is provided with a mounting cavity 211 on a side thereof adjacent to the folding member 50, and the circular blade 22 is located at an opening of the mounting cavity 211.

The cutting edge 221 of the circular blade 22 is serrated to facilitate cutting of food with a hard surface. It is understood that the cutting edge 221 of the circular blade 22 may also be wavy, may also be annular, and the like. The shape of the cutting edge 221 of the circular blade 22 may be set according to actual circumstances.

The blade locking mechanism includes a first blade locking member 23 and a second blade locking member 24 mounted to the bottom of the mounting cavity 211. The first blade locking member 23 is mounted to the second blade locking member 24 and is rotatable relative to the second blade locking member 24. The circular blade 22 is fitted to the first blade locking member 23 and is rotatable relative to the first blade locking member 23, and the circular blade 22 has a through hole 222 for fitting to the first blade locking member 23. The first blade locking member 23 is rotatable relative to the second blade locking member 24 from a first position to a second position, the first blade locking member 23 being inseparable from the second blade locking member 24 such that the circular blade 22 is not removable from the mounting plate 21 when the first blade locking member 23 is in the first position, the first blade locking member 23 being separable from the second blade locking member 24 such that the circular blade 22 is removable from the mounting plate 21 when the first blade locking member 23 is in the second position. Through the blade locking mechanism, the circular blade 22 is convenient to disassemble and assemble, and the circular blade 22 is convenient to replace and clean. The circular blade 22 is preferably movably nested to the first blade locking member 23 so that the circular blade 22 and the first blade locking member 23 are also removable.

In this embodiment, the first blade locking member 23 is T-shaped, a first end of the first blade locking member 23 is fitted into the second blade locking member 24, a second end of the first blade locking member 23 is located in the through hole 222 of the circular blade 22 and has a rotation handle 231, and the rotation handle 231 is provided to facilitate rotation of the first blade locking member 23.

The first end of the first blade locking member 23 is provided with a protrusion 232 on the outer wall and the second blade locking member 24 is provided with a recess 241 on the inner wall. When the first blade locking member 23 is in the first position, the protrusion 232 is pressed against the inner wall of the second blade locking member 24, so that the first blade locking member 23 and the second blade locking member 24 are not separable, and thus the circular blade 22 is not detachable from the mounting plate 21, and when the first blade locking member 23 is in the second position, the protrusion 232 is located in the recess 241, so that the first blade locking member 23 and the second blade locking member 24 are separable, and thus the circular blade 22 can be detached from the mounting plate 21.

The number of the protruding blocks 232 and the number of the concave portions 241 in this embodiment are two, and the two protruding blocks 232 and the two concave portions 241 are symmetrically arranged. It is understood that the number of the convex blocks 232 and the concave positions 241 may be other, and may be set according to the actual situation.

In practical application, if the circular blade 22 needs to be detached from the mounting plate 21, the first blade locking member 23 is rotated relative to the second blade locking member 24 from the first position to the second position, and the protrusion 232 is located in the recess 241, so that the first blade locking member 23 and the second blade locking member 24 can be separated, and the circular blade 22 can be detached; if the circular blade 22 is to be mounted to the mounting plate 21, the first end of the first blade locking member 23 is inserted into the second blade locking member 24 with the protrusion 232 in the recess 241, and then the first blade locking member 23 is rotated to the first position to mount the circular blade 22 to the mounting plate 21.

The first drive mechanism includes a handle 25 mounted to a face of the mounting plate 21 remote from the folding member 50, a first cutting gear member 26 and a second cutting gear member 27. A first cutting gear member 26 is mounted to the bottom of the mounting cavity 211 and fixedly connected to the handle 25, and a second cutting gear member 27 is mounted to a face of the circular blade 22 adjacent the mounting cavity 211 and is engaged with the first cutting gear member 26. In practice, the first cutting gear member 26 is rotated by rotating the handle 25, the second cutting gear member 27 is rotated by the rotation of the first cutting gear member 26, and the circular blade 22 is rotated relative to the mounting plate 21 and the blade locking mechanism by the rotation of the second cutting gear member 27.

In this embodiment, the bottom of the mounting cavity 211 is provided with an annular first mounting portion 28, and the first mounting portion 28 is provided around the outer periphery of the second blade locking member 24. The second cutter gear member 27 corresponds to the through hole 222 of the circular blade 22, the second cutter gear member 27 has an inner hole through which the first end of the first blade locking member 23 passes, the second cutter gear member 27 is formed with an annular second mounting portion 29 at an edge of the inner hole thereof, and the second mounting portion 29 is inserted into a mounting space formed between an inner wall of the first mounting portion 28 and an outer wall of the second blade locking member 24 and is rotatable in the mounting space. The first mounting part 28 and the second mounting part 29 are arranged to strengthen the connecting force between the circular blade 22 and the mounting plate 21 and provide further support for the rotation of the circular blade 22 so as to prevent the circular blade 22 from shaking.

Referring to fig. 1 to 2 and 5 to 9, the adjusting device 30 includes a first adjusting member 31 and a second driving mechanism. The first regulation member 31 is located at the top end of the main body 10, and a second driving mechanism is mounted to the first regulation member 31 and the main body 10 for driving the first regulation member 31 to move in the lateral direction of the main body 10.

Specifically, the first adjusting member 31 is L-shaped, and the vertical portion 311 of the first adjusting member 31 is close to the folding member 50. The linear distance between the surface of the vertical portion 311 of the first adjusting member 31 close to the folding member 50 and the circular blade 22 is the slice thickness of the food, and the slice thickness of the food can be adjusted by adjusting the linear distance between the surface of the vertical portion 311 of the first adjusting member 31 close to the folding member 50 and the circular blade 22. The second drive mechanism includes a second adjustment member 32, a first gear member 33 and a second gear member 34. The second regulation member 32 is rotatably mounted to the mounting hole 3121 of the cross portion 312 of the first regulation member 31. The first gear member 33 is fixed to the bottom end of the second regulation member 32. The bottom end of the transverse portion 312 is hollowed to form an inner cavity, the bottom end of the second adjusting member 32 is located in the inner cavity of the transverse portion 312, and the mounting hole 3121 of the transverse portion 312 is communicated with the inner cavity of the transverse portion 312. The top of main part 10 is equipped with along the horizontal slotted hole 11 that extends of main part 10, and the bottom of main part 10 is hollowed and is formed with and holds chamber 12, and slotted hole 11 and main part 10 hold chamber 12 intercommunication. The second gear member 34 is provided on one side inner wall of the slot hole 11, and the teeth 341 of the second gear member 34 are provided side by side to one side inner wall of the slot hole 11 in the lateral direction of the main body 10. The first gear member 33 is located within the slot 11 and engages with the teeth 341 of the second gear member 34 as shown in fig. 6 and 7. The first gear member 33 and the second gear member 34 of the present invention are covered with the lateral portion 312, and the appearance is beautiful.

In practical applications, the second adjusting member 32 is rotated to drive the first gear member 33 to rotate, and the first gear member 33 can move in the transverse direction of the slot 11 relative to the main body 10 under the meshing action of the teeth 341 of the second gear member 34 while rotating, so that the whole first adjusting member 31 can be driven to move in the transverse direction relative to the main body 10, and thus the slice thickness of the food can be adjusted. The number of teeth 341 of the second gear member 34 is set according to the distance the first regulation member 31 has to move. When the food is actually sliced, the food is placed on the sliding member 60, one end of the food abuts against the vertical part 311 of the first adjusting member 31, and then the sliding member 60 is pushed to horizontally push the food to the circular blade 22 of the cutting device 20 for slicing.

The side of the circular blade 22 close to the folding member 50 of the present embodiment is substantially flush with the side of the main body 10 where the folding member 50 is installed, and therefore, the linear distance between the side of the vertical portion 311 of the first regulating member 31 close to the folding member 50 and the circular blade 22 can also be regarded as the linear distance between the side of the vertical portion 311 of the first regulating member 31 close to the folding member 50 and the side of the main body 10 where the folding member 50 is installed.

The side of the upright portion 311 of the first adjustment member 31 adjacent to the cutting device 20 is arc-shaped, and when the food processor is not in use, the adjustment device 30 can be moved to a position in which it is juxtaposed to the cutting device 20, as shown in fig. 1, while the side of the upright portion 311 of the first adjustment member 31 adjacent to the cutting device 20 is arc-shaped, which can be conveniently engaged with the circular blade 22 to prevent the circular blade 22 from cutting the user.

Preferably, the top end of the second regulation member 32 protrudes from the mounting hole 3121 and is provided with a rotation piece 321 to rotate the second regulation member 32.

The adjustment device 30 further comprises a third adjustment member 35 and a fourth adjustment member 36. The third regulation member 35 is provided to the top end of the main body 10. The fourth adjustment member 36 is disposed in the inner cavity of the transverse portion 312 of the first adjustment member 31, specifically, the fourth adjustment member 36 is disposed at the bottom of the inner cavity of the transverse portion 312, and the third adjustment member 35 and the fourth adjustment member 36 cooperate to limit the movement of the first adjustment member 31 relative to the main body 10, so as to prevent the first adjustment member 31 from being removed from the main body 10. Through the structure, the inner cavity of the transverse part 312 can contain the third adjusting component 35 and the fourth adjusting component 36 therein without being exposed, and the bottom end of the transverse part 312 is attached to the top end of the main body 10, so that the appearance is attractive.

Preferably, there are two third adjusting members 35 respectively located at both sides of the slot 11, and the number of the fourth adjusting members 36 corresponds to the number of the third adjusting members 35. The number of the third and fourth regulating members 35, 36 may also be other.

Specifically, the third regulating member 35 includes a plurality of catching pieces 351 spaced apart in the lateral direction of the main body 10, as shown in fig. 8, and the plurality of catching pieces 351 are all coupled to a support plate 352, and the support plate 352 is provided to the top end of the main body 10. The fourth regulating member 36 includes a plurality of detents 361 provided in the lateral direction of the main body 10, as shown in fig. 9, and each detent 361 corresponds to one of the detents 351. The movement of the first regulation member 31 with respect to the main body 10 is limited by the catch 351 and the detent 361. When the card 351 is engaged with the side of the corresponding card 361 close to the folding member 50, the movement of the first adjusting member 31 relative to the main body 10 in the direction close to the folding member 50 can be limited, and when the card 351 is engaged with the side of the corresponding card 361 far from the folding member 50, the movement of the first adjusting member 31 relative to the main body 10 in the direction far from the folding member 50 can be limited.

The locking device 40 comprises a first locking member 41 and a second locking member 42. Referring to fig. 10 and 11, the first locking member 41 is mounted or coupled to the inner bore 322 of the second adjustment member 32 and is rotatable relative to the second adjustment member 32. The second locking member 42 includes a rectangular card portion 421 and a connecting portion 422. The first locking member 41 is partially connected to the second locking member 42. The card portion 421 is located in the receiving cavity 12 of the main body 10. The connecting portion 422 has one end connected to the locking portion 421 and the other end mounted to the first locking member 41 through the slot 11 and the inner hole 331 of the first gear member 33. The first locking member 41 is rotatable relative to the second adjustment member 32 from a first position to a second position. When the first locking member 41 is located at the first position, the locking portion 421 is locked to the bottom end of the slot 11, that is, the longitudinal direction of the locking portion 421 is perpendicular to the longitudinal direction of the slot 11, so as to limit the adjusting device 30 from moving relative to the main body 10, and thus, the adjusting device 30 can be fixed to the top end of the main body 10, when food slicing is actually performed, the adjusting device 30 will not move, and when the first locking member 41 is located at the second position, the locking portion 421 is not locked to the bottom end of the slot 11, that is, the longitudinal direction of the locking portion 421 is parallel to the longitudinal direction of the slot 11, so that the adjusting device 30 can move relative to the main body 10, and thus, the thickness of the sliced food can be adjusted. The width of the locking portion 421 is smaller than the width of the slot 11, so that when the first locking member 41 is located at the second position, the locking portion 421 is not locked to the bottom of the slot 11, and the length of the locking portion 421 is larger than the width of the slot 11, so that when the first locking member 41 is located at the first position, the locking portion 421 is locked to the bottom of the slot 11.

The locking device 40 is movable with the adjustment device 30, i.e. the first locking member 41 and the second locking member 42 are movable with the adjustment device 30, when the adjustment device 30 is moved with respect to the main body 10.

In practical applications, when the adjusting device 30 needs to be moved to adjust the slice thickness of the food, the first locking member 41 is rotated from the first position to the second position, so that the locking portion 421 is not locked to the bottom end of the slot 11, and the adjusting device 30 can be moved relative to the main body 10. After the adjusting device 30 is moved to a proper position relative to the main body 10, the first locking member 41 is rotated to the first position, so that the locking portion 421 is locked to the bottom end of the slot 11 to restrict the adjusting device 30 from moving relative to the main body 10, thereby fixing the adjusting device 30 to the top end of the main body 10. By means of the locking means 40, the movement of the adjustment means 30 with respect to the body 10 is limited, which results in a more constant slicing of the food and a more uniform slicing thickness.

In this embodiment, one end of the connection portion 422 away from the card portion 421 is fitted into the first locking member 41. In order to enhance the installation strength between the connection portion 422 and the first locking member 41, a fastening position 4221 is disposed at one end of the connection portion 422 away from the fastening portion 421, a fastening member 411 is disposed on an inner wall of the first locking member 41, and the fastening member 411 is engaged with the fastening position 4221.

Preferably, the catch 4221 is an angled elongated hole or track disposed on the surface of the second locking member 42, and the catch 4221 can accommodate the catch 411 and allow the catch 411 to move within the angled elongated hole or track of the catch 4221. Further, when the user rotates the rotation handle 412 to rotate the first locking member 41, the fasteners 411 provided on the inner wall of the first locking member 41 rotate sequentially, and the fasteners 411 slide upward or downward in the fastening positions 4221 according to the rotation direction. Specifically, the catch 4221 is a track disposed on the surface of the second locking member 42, and the buckle 411 can be accommodated in the catch 4221 and can move along the slide way. Further, the angle and length of the through hole of the elongated angled through hole or track of the locking position 4221 are set according to the magnitude of the rotation handle 412 to move the second locking member 42. When the buckle 411 slides downwards in the buckle 4221, the buckle 411 slides downwards along the buckle 4221 of the angled through hole or rail to pull the second locking member 42 upwards or towards the first locking member 41, when the buckle 411 moves to the lower end portion of the buckle 4221 of the angled through hole or rail, the locking device 40 is turned to the locking state, the first locking member 41 and the second locking member 42 lock the first adjusting member 31 therebetween to prevent the first adjusting member 31 from moving, and fix the adjusting device 30 at a position of the main body 10 to prevent the thickness of the cut food from being uneven due to the movement or vibration of the adjusting device 30 during the cutting process. In addition, when the user rotates the rotating handle 412 in the opposite direction to rotate the first locking member 41, the inner wall of the first locking member 41 is provided with the fastener 411, and the fastener 411 rotates in the buckle position 4221 in the opposite direction, and when the fastener 411 slides in the buckle position 4221 in the upper direction, the fastener 411 slides in the buckle position 4221 of the angled elongated through hole or rail in the upper direction to pull the second locking member 42 to move downward or in the opposite direction to the first locking member 41, and when the fastener 411 moves to the upper end portion of the buckle position 4221 of the elongated through hole or rail, the locking device 40 is turned to the unlocking state, and the first locking member 41 and the second locking member 42 unlock the first adjusting member 31 therebetween.

The top end of the first locking member 41 has a turning handle 412 to facilitate turning of the first locking member 41.

The tip of the first locking member 41 is also provided with a mark of the rotation direction to indicate the rotation of the first locking member 41.

The locking device 40 further comprises a third locking member 43, the third locking member 43 being in the form of a plate, the third locking member 43 being fitted over the connecting portion 422, the third locking member 43 being fixed relative to the second locking member 42. When the first locking member 41 is located at the first position, the third locking member 43 is clamped between the clip portion 421 and the bottom end of the slot 11. The third locking member 43 is preferably an elastic member. The third locking member 43 can strengthen the force of the locking portion 421 to the bottom end of the slot 11.

In other embodiments, the locking device 40 may also be a screw hole and a fastening member such as a screw, etc. that are screwed together, i.e. the screw hole is disposed at the top end of the main body 10, the fastening member is installed at the transverse portion 312 of the first adjusting member 31, when the adjusting device 30 needs to be fixed to the top end of the main body 10, the fastening member is screwed into the screw hole by rotating the fastening member, so that the adjusting device 30 can be fixed to the top end of the main body 10, and when the adjusting device 30 needs to be moved to adjust the slice thickness of the food, the fastening member is detached from the screw hole by rotating the fastening member, and the adjusting device 30 can be moved.

Referring to fig. 1, 2 and 12, the folding member 50 is pivotally mounted to one side in the longitudinal direction of the main body 10. When the food processor is not used, the folding member 50 can be turned over to cover the cutting device 20 and the adjusting device 30, so that the volume of the food processor can be reduced, and the circular blade 22 of the cutting device 20 can be covered, and the user can be prevented from being cut by the circular blade 22.

The food processor further comprises a pushing member 70, the pushing member 70 being mounted to the top end of the sliding member 60 and being movable in the longitudinal direction of the sliding member 60, the pushing member 70 being for pushing the food placed on the sliding member 60 to abut the food to the regulating device 30. In practical application, each time the food is sliced, the food needs to be pushed towards the adjusting device 30 to abut against the vertical part 311 of the first adjusting member 31, and the food is pushed conveniently and efficiently by the pushing member 70.

In this embodiment, the sliding member 60 is detachably mounted on the top end of the folding member 50, the pushing member 70 is detachably mounted on the top end of the sliding member 60, the bottom end of the folding member 50 is provided with a receiving cavity 51, and the sliding member 60 and the pushing member 70 are respectively received in the receiving cavity 51 after being respectively detached from the folding member 50 and the sliding member 60, so as to facilitate the receiving of the sliding member 60 and the pushing member 70.

As shown in conjunction with fig. 13, the slide member 60 includes a slide member main body 61 and an L-shaped mount plate 62 provided to one side of the slide member main body 61 in the lateral direction. The sliding member body 61 is located at the top end of the folding member 50. The L-shaped mounting plate 62 cooperates with a side of the folded member 50 remote from the cutting device 20 and the adjustment device 30. The slide member main body 61 is attached to the tip end of the folding member 50 by an L-shaped attachment plate 62 and is movable in the longitudinal direction of the folding member 50.

Preferably, the sliding member 60 further includes a blocking plate 63, the blocking plate 63 is mounted to a side of the sliding member body 61 away from the cutting device 20 in the longitudinal direction, and the blocking plate 63 is provided to prevent the circular blade 22 of the cutting device 20 from cutting the user.

Preferably, the blocking plate 63 is pivotally mounted to a side of the sliding member main body 61, which is away from the cutting device 20, in the longitudinal direction, and when the sliding member 60 is accommodated in the accommodating cavity 51, the blocking plate 63 can be turned over to the top end of the sliding member main body 61, so as to conveniently accommodate the sliding member 60, as shown in fig. 12.

The pushing member 70 includes a pushing member body 71 and a U-shaped mounting plate 72 provided to one side of the pushing member body 71. The pushing member body 71 is L-shaped, the lateral part 712 of the pushing member body 71 is located at the top end of the sliding member body 61, and the U-shaped mounting plate 72 is fitted to the shutter 63. The pushing member body 72 is attached to the tip of the sliding member body 61 via a U-shaped mounting plate 72 and is movable in the longitudinal direction of the sliding member 60.

Referring to fig. 14, the food processor of the present invention further includes a vacuum pumping device 80. The vacuum suction device 80 includes a vacuum suction base 81 and a vacuum suction controller 82. A vacuum suction base 81 is mounted to the bottom of the receiving cavity 12 of the main body 10 and is located in the receiving cavity 12, and a vacuum suction controller 82 is mounted to a side of the main body 10 away from the folding member 50. The vacuum suction controller 82 is used to control the suction of the vacuum suction base 81 to the work platform to achieve the fixing of the main body 10 to the work platform. The vacuum suction controller 82 can rotate from a first position (shown in fig. 9) to a second position (shown in fig. 14) relative to the main body 10, and when the vacuum suction controller 82 rotates from the first position to the second position, air in the hole 811 of the vacuum suction base 81 can be sucked, so that negative pressure is generated in the hole 811 of the vacuum suction base 81, and the negative pressure can be sucked to the working platform, and thus the main body 10 can be fixed to the working platform, so that the whole food processor is relatively stable when food is cut, and the slice thickness of the food is relatively uniform. The vacuum suction controller 82 may close off the air in the opening 811 of the suction vacuum base 81 when it is rotated from the second position to the first position so that the vacuum suction base 81 does not adhere to the work platform.

The working principle of the invention is as follows: the main body 10 can be fixed to the work platform by the vacuum sucking means 80, then the linear distance between the side of the vertical portion 311 of the first regulating member 31 adjacent to the folding member 50 and the circular blade 22 is adjusted according to the slice thickness of the food, and after the adjustment is completed, the whole regulating means 30 is fixed to the top end of the main body 10 by the locking means 40 to prevent the regulating means 30 from moving; then the sliding member 60 is moved to a position opposite to the regulating device 30, and then the food is placed to the top end of the sliding member main body 61 and is sandwiched between the upright portion 711 of the pushing member main body 71 and the upright portion 311 of the first regulating member 31; then the handle 25 of the cutting device 20 is rotated, so that the circular blade 22 of the cutting device 20 is rotated, the sliding member 60 is pushed to horizontally push the food to the circular blade 22 of the cutting device 20 for slicing, after the slicing is finished, the sliding member 60 is retracted to the position opposite to the adjusting device 30, the pushing member 70 pushes the food to the position abutting against the vertical part 311 of the first adjusting member 31, the sliding member 60 is pushed again to horizontally push the food to the circular blade 22 of the cutting device 20 for slicing, and the steps are repeated, so that the food can be completely sliced.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (18)

1. A food processor, comprising:

a main body;

a cutting device mounted to the top end of the body for slicing food;

an adjusting means mounted to a top end of the body for adjusting a slice thickness of the food item, the adjusting means being located at one side of the cutting means and movable in a lateral direction of the body; and

locking means mounted to the adjustment means and body for limiting movement of the adjustment means relative to the body;

the locking device comprises a first locking member and a second locking member partially connected with the first locking member, wherein a fastener is arranged on the inner wall of the first locking member, a buckling position is arranged on the second locking member, and the fastener is matched with the buckling position;

the buckle position is a track arranged on the surface of the second locking component, and the fastener can be accommodated in the buckle position and can move along the slide way.

2. The food processor of claim 1, further comprising a folding member pivotably mounted to one side of the longitudinal direction of the body, and a sliding member mounted to a top end of the folding member and movable in a longitudinal direction of the folding member, the sliding member for placing food and for pushing food horizontally to the cutting device for slicing after the food abuts against the adjustment device.

3. The food processor of claim 2, further comprising a pushing member mounted to a top end of the sliding member and movable in a longitudinal direction of the sliding member, the pushing member for pushing food placed onto the sliding member to abut the food to the regulating device.

4. The food processor of claim 3, wherein the sliding member is removably mounted to a top end of the folding member, the pushing member is removably mounted to a top end of the sliding member, a bottom end of the folding member is provided with a receiving cavity, and the sliding member and the pushing member are respectively received in the receiving cavity after being removed from the folding member and the sliding member.

5. The food processor of claim 2, wherein the cutting device includes a mounting plate mounted to the top end of the body, a circular blade mounted to a face of the mounting plate adjacent the folding member by the blade locking mechanism and rotatable relative to the mounting plate and the blade locking mechanism, a blade locking mechanism mounted to the mounting plate, the circular blade projecting partially beyond a side of the mounting plate adjacent the adjustment device to facilitate slicing of the food, and a first drive mechanism mounted to the mounting plate for driving the circular blade to rotate.

6. The food processor of claim 5, wherein a face of the mounting plate adjacent to the folding member is provided with a mounting cavity, and the circular blade is located at an opening of the mounting cavity.

7. The food processor of claim 6, wherein the blade locking mechanism includes a first blade locking member and a second blade locking member mounted to the bottom of the mounting cavity, the first blade locking member being mounted to and rotatable relative to the second blade locking member, the circular blade cartridge being mounted to and rotatable relative to the first blade locking member; the first blade locking member is rotatable relative to the second blade locking member from a first position to a second position, the first blade locking member being inseparable from the second blade locking member when the first blade locking member is in the first position such that the circular blade is not removable from the mounting plate, the first blade locking member being separable from the second blade locking member when the first blade locking member is in the second position such that the circular blade is removable from the mounting plate.

8. The food processor of claim 6, wherein the first drive mechanism includes a handle mounted to a face of the mounting plate distal from the folding member, a first cutting gear member mounted to a bottom of the mounting cavity and fixedly connected to the handle, and a second cutting gear member mounted to a face of the circular blade proximal to the mounting cavity and engaged with the first cutting gear member.

9. The food processor of claim 7, wherein the first blade locking member has a turning handle to facilitate turning the first blade locking member.

10. A food processor as claimed in claim 2, wherein the adjustment means comprises a first adjustment member at a top end of the body and a second drive mechanism mounted to the first adjustment member and body for driving the first adjustment member in a transverse direction of the body.

11. The food processor of claim 10, wherein the second drive mechanism includes a second adjustment member, a first gear member, and a second gear member; the first adjusting member is L-shaped, the vertical part of the first adjusting member is close to the folding member, the second adjusting member is rotatably installed in the installation hole of the transverse part of the first adjusting member, the first gear member is fixed to the bottom end of the second adjusting member, the top end of the main body is provided with a slotted hole extending along the transverse direction of the main body, the slotted hole is communicated with the accommodating cavity of the main body, the inner wall of one side of the slotted hole is provided with the second gear member, the teeth of the second gear member are arranged to the inner wall of one side of the slotted hole side by side along the transverse direction of the main body, and the first gear member is positioned in the slotted hole and meshed with the teeth of the second gear member.

12. The food processor of claim 11, wherein the adjustment device further includes a third adjustment member disposed to the top end of the body and a fourth adjustment member disposed within the internal cavity of the cross portion of the first adjustment member, the third adjustment member cooperating with the fourth adjustment member for limiting movement of the first adjustment member relative to the body.

13. The food processor of claim 12, wherein the third adjustment members are two and are located on either side of the slot, and the number of the fourth adjustment members corresponds to the number of the third adjustment members.

14. The food processor of claim 12, wherein the third adjustment member includes a plurality of catches spaced apart laterally of the body, and the fourth adjustment member includes a plurality of catches, one catch for each detent.

15. The food processor of claim 11, wherein a top end of the second adjustment member protrudes from the mounting hole and is provided with a rotation member to rotate the second adjustment member.

16. The food processor of claim 11, wherein the locking device includes a first locking member and a second locking member, the first locking member being mounted in and rotatable relative to the second adjustment member, the second locking member including a catch portion and a connecting portion, the catch portion being located in the receiving cavity of the main body, the connecting portion having one end connected to the catch portion and another end mounted to the first locking member through the slot and the inner bore of the first gear member; the first locking member can rotate relative to the second adjusting member from a first position to a second position, when the first locking member is located at the first position, the clamping part is clamped to the bottom end of the slotted hole so as to limit the adjusting device to move relative to the main body, when the first locking member is located at the second position, the clamping part is not clamped to the bottom end of the slotted hole so as to enable the adjusting device to move relative to the main body, and when the adjusting device moves relative to the main body, the locking device can move along with the adjusting device.

17. The food processor of claim 16, wherein the locking device further comprises a third locking member nested to the connecting portion, the third locking member being clamped between the catch portion and the bottom end of the slot when the first locking member is in the first position.

18. The food processor of claim 1, further comprising a vacuum suction device including a vacuum suction mount mounted to the body and a vacuum suction controller for controlling the suction of the vacuum suction mount to a work platform to effect securing of the body to the work platform.

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