CN220882624U - Multi-cutter shredder - Google Patents

Abstract

The utility model discloses a multi-cutter shredder, belongs to the technical field of kitchen furniture, and aims to overcome the defect that the conventional shredder can only cut single-shape food materials at the same time. The shredder comprises a seat body, a movable cutter rest and a driving mechanism for driving the cutter rest to move are arranged on the seat body, a first cutter and a second cutter are arranged on the cutter rest, a feeding piece is arranged on the seat body, and a first feeding barrel and a second feeding barrel which correspond to the first cutter and the second cutter respectively are arranged on the feeding piece. The first cutter and the second cutter can adopt different types, and the first cutter and the second cutter adopt different feeding barrels to provide food materials, and the first cutter and the second cutter can simultaneously and independently cut food materials with different shapes, so that the convenience of cutting food materials with different shapes is improved.

Description

Multi-cutter shredder

Technical Field

The utility model belongs to the technical field of kitchen furniture, and relates to a multi-tool shredder.

Background

The blade modules of the existing shredder are generally single combinations. When shredding is needed, a shredding cutter is arranged; when slicing is needed, a slicing knife is installed. In the use process, a user can not cut into slices and slice simultaneously, so that when the user wants to cut into slices and slice, the user needs to change the blade module to switch between slicing and slicing, and the operation is time-consuming and inconvenient.

Disclosure of Invention

The utility model provides a multi-cutter shredder aiming at the problems in the prior art, and aims to overcome the defect that the conventional shredder can only cut single-shape food materials at the same time.

The utility model is realized in the following way:

The multi-cutter shredder comprises a seat body, wherein a movable cutter rest and a driving mechanism for driving the cutter rest to move are arranged on the seat body, a first cutter and a second cutter are arranged on the cutter rest, a feeding piece is arranged on the seat body, and a first feeding barrel and a second feeding barrel which correspond to the first cutter and the second cutter respectively are arranged on the feeding piece.

Preferably, the driving mechanism comprises a motor and a transmission part, the tool rest is provided with a guide groove, and the transmission part is provided with a driving column embedded into the guide groove so that the motor drives the transmission part to rotate, and the driving column slides in the guide groove to drive the tool rest to reciprocate. In other alternatives, the drive mechanism may also be manually driven using a hand crank.

Preferably, rollers are arranged on two sides of the tool rest, a slideway is arranged on the seat body, and the rollers move on the slideway to enable the tool rest to reciprocate on the seat body. Thus, the smoothness of the movement of the tool rest relative to the seat body can be improved.

Preferably, the feeding piece is detachably provided with two groups of pressing components so as to correspond to the first feeding cylinder and the second feeding cylinder. The material pressing component can enable food materials in the feeding barrel to be tightly abutted on the cutter, so that cutting efficiency is improved, and service life is prolonged.

Preferably, the material pressing assembly comprises a material pressing barrel, the material pressing barrel is detachably fixed on the feeding piece, a material pressing column capable of moving up and down is arranged on the material pressing barrel, a material pressing seat is fixed at the lower end of the material pressing column, and a first elastic piece is arranged between the material pressing seat and the material pressing barrel so that the material pressing seat tends to move downwards relative to the material pressing barrel. Thus, the food material can be automatically pushed to move downwards. In other alternatives, a separate press bar may be used for manual pressing.

Preferably, the material pressing seat is provided with a material pressing cavity with a downward opening, a movable block is arranged in the material pressing cavity, the movable block is arranged in a lifting manner relative to the material pressing seat, and when the movable block is at an upper limit position, the lower end of the movable block is higher than the lower end of the material pressing seat. Thus, the stability of the food material position is maintained in the process of pushing the food material by the material pressing assembly, and the lateral movement of the food material is avoided.

Preferably, a second elastic member is disposed between the movable block and the pressing seat, so that the movable block tends to move downwards relative to the pressing seat. Thus being beneficial to fully pressing down the food material and reducing the situation that the food material is embedded in the pressure cavity and can not be cut.

Preferably, the first cutter and the second cutter are fixed on the same cutter frame, and the cutting edges of the first cutter and the second cutter face opposite. Therefore, the stress of the reciprocating movement of the tool rest can be balanced, and the cutting resistance is prevented from being concentrated in one movement direction.

Preferably, the base is provided with a first bin and a second bin, the first bin and the second bin are respectively located below the first cutter and the second cutter, and the first bin and the second bin are mutually separated. This facilitates the separation of different shapes of food material.

Preferably, the two material pressing cylinders are respectively sleeved on the first feeding cylinder and the second feeding cylinder. Thus, the stability of fixing the pressing assembly can be improved.

According to the multi-cutter shredder provided by the utility model, the first cutter and the second cutter can be of different types, the first cutter and the second cutter adopt different feeding cylinders to provide food materials, and the first cutter and the second cutter can simultaneously and independently cut food materials of different shapes, so that the convenience of cutting food materials of different shapes is improved.

Drawings

FIG. 1 is a schematic diagram of a shredder;

FIG. 2 is a schematic cross-sectional view of the shredder;

FIG. 3 is a schematic cross-sectional view of a nip assembly;

FIG. 4 is a schematic view of a tool holder structure for mounting a tool;

FIG. 5 is a schematic view of a partial structure of the shredder;

Fig. 6 is a partial structural cross-sectional view of the shredder.

The drawings are marked with the following description: 100. a base; 110. a slideway; 120. a first bin; 130. a second bin; 200. a tool holder; 210. a first cutter; 220. a second cutter; 230. a guide groove; 240. a roller; 300. a feed member; 310. a first feed cylinder; 320. a second feed cylinder; 400. a motor; 410. a transmission member; 411. a drive column; 510. a material pressing cylinder; 520. a material pressing column; 521. pushing the cap; 530. a material pressing seat; 540. a movable block; 550. a first elastic member; 560. and a second elastic member.

Detailed Description

The following detailed description of the embodiments of the present utility model is provided with reference to the accompanying drawings, so that the technical scheme of the present utility model can be understood and mastered more easily. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

The embodiment provides a shredder with multiple cutters, wherein the multiple cutters comprise two cutters or more than three cutters, and the shredder with two cutters is taken as an example.

As shown in fig. 1 to 6, the shredder includes a base 100, a movable cutter holder 200 and a driving mechanism for driving the cutter holder 200 to move are provided on the base 100, a first cutter 210 and a second cutter 220 are provided on the cutter holder 200, a feeding member 300 is provided on the base 100, and a first feeding barrel 310 and a second feeding barrel 320 corresponding to the first cutter 210 and the second cutter 220 respectively are provided on the feeding member 300. The first cutter 210 and the second cutter 220 can adopt different types of cutters, for example, the first cutter 210 adopts a slicing cutter, the second cutter 220 adopts a shredding cutter, the first feeding barrel 310 and the second feeding barrel 320 respectively supply food materials to the first cutter 210 and the second cutter 220, so that the shredder can cut slices and shred simultaneously, the slicing and shredding functions can be independently used, the cutters are not required to be disassembled and replaced in the switching of the two functions, and the use convenience is improved. In application, the first cutter 210 and the second cutter 220 can also adopt the same type of cutters, so that the efficiency of cutting the same type of food materials can be improved. The feeding member 300 is fixed to the housing 100, and the first and second feed cylinders 310 and 320 are integrally formed with the feeding member 300.

As shown in fig. 5 and 6, the driving mechanism includes a motor 400 and a transmission member 410, the tool holder 200 has a guide slot 230, and the transmission member 410 has a driving post 411 embedded in the guide slot 230, so that the motor 400 drives the transmission member 410 to rotate, and the driving post 411 slides in the guide slot 230 to drive the tool holder 200 to reciprocate. The motor 400 may be powered by plug-in power, or a battery may be provided in the housing 100 to supply power to the motor 400. The motor 400 is in driving connection with the driving member 410, the driving member 410 is a cam, the driving post 411 is arranged offset from the rotation center of the driving member 410, and during the rotation of the driving member 410, the driving post 411 can move in the strip-shaped guide slot 230, and the acting force acts on the side wall of the guide slot 230, so that the tool rest 200 is pushed to move. The driving member 410 rotates the first half turn, the tool holder 200 moves in one direction, the tool holder 200 rotates the second half turn, and the tool holder 200 moves in the other direction, thereby achieving the reciprocating movement of the tool holder 200. The driving post 411 is provided with a sleeve, the sleeve can rotate relative to the driving post 411, and rolling friction is formed between the sleeve and the side wall of the guide groove 230. The tool rest 200 is plate-shaped, and has two hollowed-out positions for installing the first tool 210 and the second tool 220.

As shown in fig. 2 and 4, rollers 240 are disposed on both sides of the tool rest 200, the base 100 has a slide 110 thereon, and the rollers 240 move on the slide 110 to reciprocate the tool rest 200 on the base 100. This reduces friction between the tool holder 200 and the housing 100, and improves smoothness of movement of the tool holder 200. In other alternative embodiments, the tool post 200 and the base 100 may be slidably disposed with respect to each other using a sliding rail structure.

As shown in fig. 2 and 3, two sets of pressing assemblies are detachably fixed to the feeding member 300 to correspond to the first feeding barrel 310 and the second feeding barrel 320. The material pressing component can press the food materials in the feeding barrel to the cutter. Specifically, the pressing assembly includes a pressing cylinder 510, the pressing cylinder 510 is detachably fixed on the feeding member 300, a pressing column 520 capable of moving up and down is provided on the pressing cylinder 510, a pressing seat 530 is fixed at the lower end of the pressing column, the pressing seat 530 is fixed on the pressing column 520 by a screw, and a first elastic member 550 is provided between the pressing seat 530 and the pressing cylinder 510, so that the pressing seat 530 tends to move downward relative to the pressing cylinder 510. Along with the food material in the feeding barrel is cut by the cutter and falls into the below of the cutter, the food material in the feeding barrel is gradually reduced, and the first elastic piece 550 can continuously provide thrust for the food material, so that the food material can be kept in close contact with the cutter, and the cutter can smoothly cut the food material. The two pressing cylinders 510 are respectively sleeved on the first feeding cylinder 310 and the second feeding cylinder 320, and the outer side walls of the pressing cylinders 510 and the feeding cylinders are clamped and fixed. The upper end of the material pressing column 520 upwards penetrates out of the material pressing cylinder 510, and the upper end of the material pressing column 520 is provided with a pushing cap 521, so that the material pressing column 520 can be conveniently forced manually.

As shown in fig. 3, the material pressing seat 530 has a material pressing cavity with a downward opening, a movable block 540 is disposed in the material pressing cavity, the movable block 540 is configured to be liftable with respect to the material pressing seat 530, and when the movable block 540 is at an upper limit position, the lower end of the movable block 540 is higher than the lower end of the material pressing seat 530. The food material is embedded into the material pressing cavity, so that the lateral displacement of the food material can be effectively avoided, and the stability of the food material when pushed is improved. The movable block 540 is provided with a guide post penetrating through the material pressing seat 530, so that the movable block 540 can move up and down more stably.

Further, a second elastic member 560 is disposed between the movable block 540 and the pressing base 530, so that the movable block 540 tends to move downward relative to the pressing base 530. When the pressing seat 530 moves to the lower limit position under the action of the first elastic member 550, the second elastic member 560 can continuously push the movable block 540 so that the movable block 540 further pushes the food material cutter to move. The first elastic member 550 and the second elastic member 560 are both springs.

As shown in fig. 4, the first cutter 210 and the second cutter 220 are fixed to the same cutter holder 200, and the cutting edges of the first cutter 210 and the second cutter 220 face opposite to each other. In other alternative embodiments, the blade orientations of the first blade 210 and the second blade 220 may be the same.

As shown in fig. 2, the base 100 is provided with a first bin 120 and a second bin 130, the first bin 120 and the second bin 130 are respectively located below the first cutter 210 and the second cutter 220, and the first bin 120 and the second bin 130 are spaced from each other. After being cut by the first cutter 210, the food material falls into the first bin 120; after being cut by the second cutter 220, the food material falls into the second bin 130. The first and second bins 120 and 130 are removable with respect to the base 100, which facilitates cleaning.

Claims (10)

1. The utility model provides a multitool utensil shredder, includes pedestal (100), be equipped with mobilizable knife rest (200) and drive on pedestal (100) knife rest (200) movable actuating mechanism, a serial communication port, be equipped with first cutter (210) and second cutter (220) on knife rest (200), be equipped with feed piece (300) on pedestal (100), feed piece (300) are equipped with first feed cylinder (310) and second feed cylinder (320) corresponding to first cutter (210) and second cutter (220) respectively.

2. The multi-tool shredder according to claim 1, wherein the driving mechanism comprises a motor (400) and a transmission member (410), the tool holder (200) has a guide slot (230), the transmission member (410) has a driving post (411) embedded in the guide slot (230), so that the motor (400) drives the transmission member (410) to rotate, and the driving post (411) slides in the guide slot (230) to drive the tool holder (200) to reciprocate.

3. The multi-tool shredder according to claim 1, wherein rollers (240) are provided on both sides of the tool rest (200), the base (100) has a slide (110) thereon, and the rollers (240) move on the slide (110) to reciprocate the tool rest (200) on the base (100).

4. The multi-tool shredder of claim 1, wherein the feeding member (300) has two sets of swage assemblies removably secured thereto to correspond to the first feed cylinder (310) and the second feed cylinder (320).

5. The multi-tool shredder according to claim 4, wherein the pressing assembly comprises a pressing cylinder (510), the pressing cylinder (510) is detachably fixed on the feeding member (300), a pressing column (520) capable of moving up and down is arranged on the pressing cylinder (510), a pressing seat (530) is fixed at the lower end of the pressing column, and a first elastic member (550) is arranged between the pressing seat (530) and the pressing cylinder (510) so that the pressing seat (530) tends to move downwards relative to the pressing cylinder (510).

6. The shredder of claim 5, wherein the pressing base (530) has a pressing cavity with a downward opening, a movable block (540) is disposed in the pressing cavity, the movable block (540) is configured to be liftable relative to the pressing base (530), and when the movable block (540) is at an upper limit position, a lower end of the movable block (540) is higher than a lower end of the pressing base (530).

7. The multi-tool shredder of claim 6, wherein a second resilient member (560) is disposed between the movable block (540) and the swage mount (530) to urge the movable block (540) downward relative to the swage mount (530).

8. The multi-tool shredder of any of claims 1-7, wherein the first and second tools (210, 220) are secured to the same knife holder (200), and wherein the edges of the first and second tools (210, 220) are oppositely oriented.

9. The multi-tool shredder according to any of claims 1-7, wherein the base (100) is provided with a first bin (120) and a second bin (130), the first bin (120) and the second bin (130) are respectively located below the first tool (210) and the second tool (220), and the first bin (120) and the second bin (130) are spaced apart from each other.

10. The multi-tool shredder of claim 5, wherein two of the press cylinders (510) are sleeved on the first feed cylinder (310) and the second feed cylinder (320), respectively.