CN218073290U - Meat cutting machine - Google Patents

Abstract

The utility model discloses a meat cutter, which comprises a cutter frame (21); the cutter set comprises two groups of cutter sets (22), wherein each group of cutter set (22) comprises a rotating shaft (221) and at least two blades (222) which are arranged at intervals along the axial direction of the rotating shaft (221); and a drive mechanism (24); the method is characterized in that: all the blades (222) of each group of the cutter set (22) are at least divided into two blade units which are sequentially arranged along the axial direction of the rotating shaft (221), the width of a gap (2220) between two adjacent blades (222) in the same blade unit is the same, the width of the gap (2220) between two adjacent blades (222) in the previous blade unit is recorded as W1, the width of the gap (2220) between two adjacent blades (222) in the next blade unit is recorded as W2, and the W1 and the W2 are different in value. Compared with the prior art, the utility model discloses a meat cutting machine can realize the cutting of different thickness meat slices.

Description

Meat cutting machine

Technical Field

The utility model relates to a kitchen equipment technical field specifically indicates a meat cutting machine.

Background

The present meat cutting machine adopts the regional principle of the cutting edge of similar scissors to go to realize the cutting process of meat, is provided with two cutter arbor in the meat cutting machine frame, rotates relatively between two cutter arbor, and the blade of two cutter arbor is crisscross each other and forms the cutting edge region, and a plurality of blades of installing side by side on the same cutter arbor can realize the batch cutting processing to meat product, has very high cutting efficiency. Specifically, refer to the chinese utility model patent "a meat slicer" with patent application No. CN201921681481.1 (publication No. CN 210610851U).

However, in the existing meat cutting machine, the cutter set can only cut meat slices with one thickness, if meat slices with different thicknesses need to be cut, the traditional solution is to replace the cutter set with different specifications, but the replacement of the cutter set has great danger, easily cuts an operator, consumes time and consumes labor.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that to prior art's current situation, provide a meat cutting machine that can realize the cutting of different thickness meat slices.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: a meat cutting machine comprises a meat cutting module which comprises

A tool holder;

the cutter comprises two groups of cutter sets, wherein each group of cutter sets comprises a rotating shaft and at least two blades which are arranged at intervals along the axial direction of the rotating shaft, the rotating shafts of the two groups of cutter sets are arranged side by side, the end part of each rotating shaft is arranged on the cutter frame in a manner of rotating around the axis of the rotating shaft, a gap is formed between every two adjacent blades of the same cutter set, the blades of the two groups of cutter sets are arranged in a staggered manner, and the corresponding blades in the two groups of cutter sets are mutually clung; and

the driving mechanism is used for driving the rotating shafts of the two groups of cutter sets to rotate around opposite directions so as to enable the corresponding blades in the two groups of cutter sets to rotate relatively and mutually cooperate to cut meat blocks;

the method is characterized in that: all the blades of each group of the blade groups are at least divided into two blade units which are sequentially arranged along the axial direction of the rotating shaft, the width of a gap between two adjacent blades in the same blade unit is the same, in any two adjacent blade units, the width of a gap between two adjacent blades in the previous blade unit is recorded as W1, the width of a gap between two adjacent blades in the next blade unit is recorded as W2, and the W1 and the W2 are different in value.

In order to facilitate the limitation of the distance between two adjacent blades, each group of the blade groups further comprises limiting blocks which are in one-to-one correspondence with the gaps, and the limiting blocks are located in the corresponding gaps and abut against the opposite surfaces of the adjacent blades.

In order to facilitate the stable installation of the limiting block, the limiting block is annular and is sleeved on the rotating shaft.

In order to ensure that the cut meat slices can be separated from the blades in time and discharged, the meat cutting module further comprises two groups of comb teeth which correspond to the cutter groups one by one, each comb tooth comprises racks which correspond to the gaps one by one, and each rack is arranged in the corresponding gap in a penetrating way and is positioned between the rotating shafts of the two groups of cutter groups.

In order to facilitate the processing and installation of the comb teeth, each comb tooth further comprises a fixing strip for connecting the rack, and the fixing strip is arranged on the top of the tool rest and is basically parallel to the rotating shaft.

In order to avoid the influence of the racks on the feeding of the meat blocks, each rack comprises an inclined section and a vertical section, the inclined section extends into the gap from top to bottom and gradually extends inwards, and the vertical section extends downwards from the bottom end of the inclined section and gradually separates from the gap.

In order to improve the compactness of two adjacent blade units, in any two adjacent blade units, the blade at the tail end in the former blade unit and the blade at the head end in the latter blade unit share the same blade.

In order to protect the meat cutting module and prevent a user from contacting the blades, the meat cutting device further comprises a shell, the meat cutting module is installed in the shell, the top of the shell is provided with at least two feeding ports which correspond to the blade units one by one, and the feeding ports are opposite to the intersecting positions of the corresponding blade units in the two groups of blade units.

In order to facilitate the feeding of the meat blocks and the discharging of the meat slices, an accommodating cavity is formed inside the knife rest, a feeding hole and a discharging hole are respectively formed in the top and the bottom of the knife rest, the two groups of knife sets are accommodated in the accommodating cavity, the feeding hole is over against the feeding hole, and the discharging hole is over against the intersection position of the blades in the two groups of knife sets.

In order to collect the cut meat slices conveniently, a material receiving box with an opening at the top is arranged in the shell, the material receiving box is positioned below the knife rest, and the opening at the top of the material receiving box is over against the discharge hole.

In order to facilitate taking out of the sliced meat, the front side of the shell is provided with a abdication port, and the material receiving box can enter and exit the shell from the abdication port along the front-back direction.

Compared with the prior art, the utility model has the advantages of: different blade unit is constituteed through the blade that has different clearance width, and different blade unit constitution knife tackle, like this, when the user has the cutting demand of different thickness meat, can adopt different blade unit to cut, finally realize the cutting of different thickness meat, need not to change the blade midway or adjust blade clearance width, simple structure.

Drawings

Fig. 1 is a schematic perspective view of a meat cutting machine according to an embodiment of the present invention;

FIG. 2 is an exploded perspective view of the meat slicer of FIG. 1;

FIG. 3 is a schematic perspective view of the meat cutting module of FIG. 2;

FIG. 4 is a longitudinal cross-sectional view of the meat cutting module of FIG. 2;

fig. 5 is a transverse cross-sectional view of the meat cutting module of fig. 2.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

As shown in fig. 1 to 5, which is a preferred embodiment of the meat cutting machine of the present invention. The meat cutting machine comprises a shell 1, a meat cutting module 2 and a material receiving box 3.

The housing 1 includes a base 11 having an opening at the top and an upper cover 12 covering the opening at the top of the base 11. The lower part of the front side wall of the base 11 is provided with a position-giving opening 111, and the surface of the upper cover 12 is provided with at least two feeding openings 121 which are arranged at intervals along the front-back direction. In this embodiment, as shown in fig. 2, the number of the material feeding ports 121 is two, and the two material feeding ports are respectively marked as a first material feeding port 121a and a second material feeding port 121b in the front-back order.

The meat cutting module 2 is arranged in the base 11, and the meat cutting module 2 comprises a knife rest 21, a knife group 22, comb teeth 23 and a driving mechanism 24.

Specifically, the tool holder 21 is mounted on the upper portion of the base 11, the accommodating cavity 211 is formed inside the tool holder 21, the top of the tool holder 21 has an opening as a feeding port 212, the feeding port 212 faces the feeding port 121, and the middle position of the bottom of the tool holder 21 has a long-strip-shaped discharging port 213 extending in the front-back direction.

The number of the knife sets 22 is two, and the knife sets are respectively accommodated at the left and right sides of the accommodating cavity 211, and each knife set 22 includes a rotating shaft 221, a blade 222 and a limiting block 223. The rotating shafts 221 of the two groups of cutter sets 22 are arranged side by side and extend along the front-back direction, and the front end and the back end of each rotating shaft 221 are respectively and rotatably connected to the front side wall and the back side wall of the cutter frame 21; the number of the blades 222 is at least two, and the blades are arranged along the axial direction of the rotating shaft 221 at intervals, the plane where each blade 222 is located is perpendicular to the axis of the rotating shaft 221, a gap 2220 is formed between two adjacent blades 222 of the same cutter set 22, the blades 222 of the two cutter sets 22 are arranged in a staggered manner, and the corresponding blades 222 in the two cutter sets 22 are tightly attached to each other; the stoppers 223 are annular, are sleeved on the rotating shaft 221, and are in one-to-one correspondence with the gaps 2220, and each stopper 223 is located in the corresponding gap 2220 and abuts against the opposite surface of the adjacent blade 222. In addition, all the blades 222 of each group of blade sets 22 are at least divided into two blade units sequentially arranged along the axial direction of the rotating shaft 221, the width of the gap 2220 between two adjacent blades 222 in the same blade unit is the same, in any two adjacent blade units, the width of the gap 2220 between two adjacent blades 222 in the previous blade unit is denoted as W1, the width of the gap 2220 between two adjacent blades 222 in the next blade unit is denoted as W2, the values of W1 and W2 are different, and the blade 222 at the tail end in the previous blade unit and the blade 222 at the head end in the next blade unit share the same blade; similarly, all the limiting blocks 223 of each group of knife groups 22 are at least divided into two limiting units corresponding to the blade units one by one, and the thickness of the limiting blocks 223 in each limiting unit is the same and is the same as the width of the gap 2220 between two adjacent blades 222 in the corresponding blade unit.

The number of the comb teeth 23 is two, and the comb teeth 23 correspond to the knife groups 22 one by one, and each comb tooth 23 comprises a fixed bar 231 and a rack 232. The fixing strips 231 of the two comb teeth 23 are respectively arranged at the left side and the right side of the top of the tool rest 21, and each fixing strip 231 extends along the front-back direction and is basically parallel to the rotating shaft 221; the racks 232 are connected to the fixing strips 231 and are in one-to-one correspondence with the gaps 2220, each rack 232 penetrates through the corresponding gap 2220 and is close to the opposite surface of the adjacent blade 222, each rack 232 is located between the rotating shafts 221 of the two groups of cutter sets 22, due to the stopping function of the racks 232, cut meat slices can be separated from the blades 222 in time and discharged, and meat scraps can be stopped by the racks 232 to avoid being rolled onto the rotating shafts 221. In this embodiment, each rack 232 includes an inclined segment 2321 and a vertical segment 2322, the inclined segment 2321 extends into the gap 2220 from top to bottom and gradually extends inward, the vertical segment 2322 extends downward from the bottom end of the inclined segment 2321 and gradually disengages from the gap 2220, and the fixing bar 231 is connected to the top end of each inclined segment 2321. In addition, all the racks 232 of each comb 23 are divided into at least two rack units corresponding to the blade units one by one, and the thickness of the racks 232 in each rack unit is the same and slightly smaller than the width of the gap 2220 between two adjacent blades 222 in the corresponding blade unit.

The driving mechanism 24 is mounted on the rear side of the tool post 21 and includes a first gear 241, a second gear 242, a third gear 243, and a driving member 244. The number of the first gears 241 is two, the first gears 241 are in one-to-one correspondence with the rotating shafts 221, each first gear 241 is coaxially installed at the rear end of the corresponding rotating shaft 221, and the two first gears 241 are meshed with each other; the driving member 244 is a motor, is mounted on the tool holder 21, and has an output shaft extending in the vertical direction; the second gear 242 and the third gear 243 are bevel gears, the second gear 242 is coaxially mounted on one of the first gears 241, and the third gear 243 is coaxially mounted on the top end of the output shaft of the driving member 244 and meshed with the second gear 242. The driving member 244 is activated to drive the third gear 243 to rotate, the second gear 242 rotates therewith, and then the two first gears 241 drive the two rotating shafts 221 to rotate around opposite directions (the rotating shaft 221 on the right side rotates around the counterclockwise direction, and the rotating shaft 221 on the left side rotates around the clockwise direction), so that the corresponding blades 222 in the two groups of knife sets 22 rotate relatively and cooperate with each other to cut the meat.

In this embodiment, as shown in fig. 5, the blades 222 of each group of the cutter sets 22 are divided into a first blade unit and a second blade unit in a front-back order, and correspond to the material feeding ports 121 one by one, the first blade unit includes at least two first blades 222a arranged at intervals in the axial direction of the rotating shaft 221, the second blade unit includes at least two second blades 222b arranged at intervals in the axial direction of the rotating shaft 221, a width of a gap 2220 between two adjacent first blades 222a is denoted as W1, a width of a gap 2220 between two adjacent second blades 222b is denoted as W2, the first material feeding port 121a faces an intersecting position of the first blades 222a in the two groups of the cutters 22, the second material feeding port 121b faces an intersecting position of the second blades 222b in the two groups of the cutters 22, and the material discharging port 213 faces an intersecting position of the blades 222 in the two groups of the cutters 22.

All the limiting blocks 223 of each group of the knife groups 22 are divided into a first limiting unit and a second limiting unit in a front-back sequence, the limiting blocks 223 in the first limiting unit correspond to the gaps 2220 in the first blade unit one by one and are recorded as first limiting blocks 223a, the thicknesses of the limiting blocks 223 in the first limiting unit are recorded as D1, the limiting blocks 223 in the second limiting unit correspond to the gaps 2220 in the second blade unit one by one and are recorded as second limiting blocks 223b, and the thicknesses of the limiting blocks 223 in the second limiting unit are recorded as D2. The definition of the different width gaps 2220 in the different blade units described above can be achieved by the two different thickness stop blocks 232.

All the racks 232 of each comb tooth 23 are divided into a first rack unit and a second rack unit in a front-back order, the racks 232 in the first rack unit correspond to the gaps 2220 in the first blade unit one by one, and are marked as first racks 232a, the thickness of the first racks 232a is marked as d1, the racks 232 in the second rack unit correspond to the gaps 2220 in the second blade unit one by one, and are marked as second racks 232b, and the thickness of the second racks 232b is marked as d2. The different widths of the gaps 2220 in the different blade units described above can be matched by the two different thicknesses of the racks 232.

In this example, W1 is about 2 times W2, W1= D1 > D1, and W2= D2 > D2.

The top of the material receiving box 3 has an opening, is disposed in the base 11, and can enter and exit the base 11 from the receding opening 111 along the front-back direction. The material receiving box 3 is located below the tool holder 21, and the top opening of the material receiving box 3 faces the material outlet 213.

The working principle of the embodiment is as follows:

(1) When a user needs to cut thicker meat slices, the meat slices can be fed into the first feeding port 121a, fall under the action of gravity, the first blades 222a which rotate relatively are matched with each other and cut into meat slices, under the stopping action of the first rack 232a, the meat slices in the gap 2220 are gradually separated from the first blades 222a and fall into the material receiving box 3 through the discharging port 213, and the thickness of the cut meat slices is basically consistent with W1;

(2) When a user needs to cut thinner meat slices, the meat blocks can be fed into the second feeding port 121b, fall under the action of gravity, the second blades 222b which rotate relatively are matched with each other and cut the meat blocks into meat slices, under the stopping action of the second rack 232b, the meat slices in the gap 2220 are gradually separated from the second blades 222b and fall into the material receiving box 3 through the material outlet 213, and the thickness of the cut meat slices is basically consistent with W2.

Claims (11)

1. A meat cutting machine comprises a meat cutting module (2), wherein the meat cutting module (2) comprises

A tool holder (21);

the cutter comprises two groups of cutter sets (22), wherein each group of cutter set (22) comprises a rotating shaft (221) and at least two blades (222) which are arranged at intervals along the axial direction of the rotating shaft (221), the rotating shafts (221) of the two groups of cutter sets (22) are arranged side by side, the end parts of the rotating shafts (221) are arranged on the cutter frame (21) in a manner of rotating around the axis of the rotating shafts, a gap (2220) is formed between every two adjacent blades (222) of the same cutter set (22), the blades (222) of the two groups of cutter sets (22) are arranged in a staggered manner, and the corresponding blades (222) in the two groups of cutter sets (22) are mutually attached; and

the driving mechanism (24) is used for driving the rotating shafts (221) of the two groups of cutter sets (22) to rotate around opposite directions so as to enable the corresponding blades (222) in the two groups of cutter sets (22) to rotate relatively and mutually cooperate to cut meat blocks;

the method is characterized in that: all the blades (222) of each group of the blade group (22) are at least divided into two blade units which are sequentially arranged along the axial direction of the rotating shaft (221), the width of a gap (2220) between two adjacent blades (222) in the same blade unit is the same, in any two adjacent blade units, the width of the gap (2220) between two adjacent blades (222) in the previous blade unit is recorded as W1, the width of the gap (2220) between two adjacent blades (222) in the next blade unit is recorded as W2, and the values of W1 and W2 are different.

2. The meat slicer of claim 1, wherein: each group of the cutter groups (22) further comprises a limiting block (223) corresponding to the gap (2220) in a one-to-one mode, and the limiting blocks (223) are located in the corresponding gaps (2220) and abut against the opposite surfaces of the adjacent blades (222).

3. The meat chopper of claim 2, wherein: the limiting block (223) is annular and is sleeved on the rotating shaft (221).

4. The meat slicer of claim 1, wherein: the meat cutting module (2) further comprises two groups of comb teeth (23) which correspond to the cutter groups (22) one by one, each comb tooth (23) comprises a rack (232) which corresponds to the gap (2220) one by one, and each rack (232) penetrates through the corresponding gap (2220) and is positioned between the rotating shafts (221) of the two cutter groups (22).

5. The meat slicer of claim 4, wherein: each comb tooth (23) also comprises a fixing strip (231) for connecting each rack (232), and the fixing strip (231) is arranged at the top of the tool rest (21) and is basically parallel to the rotating shaft (221).

6. The meat slicer of claim 4, wherein: each rack (232) comprises an inclined section (2321) and a vertical section (2322), the inclined section (2321) extends into the gap (2220) from top to bottom and gradually extends inwards, and the vertical section (2322) extends downwards from the bottom end of the inclined section (2321) and gradually departs from the gap (2220).

7. The meat cutter of claim 1, wherein: in any two adjacent blade units, the blade (222) at the tail end in the former blade unit and the blade (222) at the head end in the latter blade unit share the same blade.

8. Meat slicer according to any of the claims 1-7, characterized in that: the meat cutting machine is characterized by further comprising a shell (1), the meat cutting module (2) is installed in the shell (1), at least two feeding ports (121) which correspond to the blade units one by one are formed in the top of the shell (1), and the feeding ports (121) are opposite to the intersecting positions of the corresponding blade units in the two groups of cutter sets (22).

9. The meat slicer of claim 8, wherein: an accommodating cavity (211) is formed in the tool rest (21), a feed inlet (212) and a discharge outlet (213) are formed in the top and the bottom of the tool rest (21) respectively, the two groups of tool sets (22) are accommodated in the accommodating cavity (211), the feed inlet (212) is over against the feed inlet (121), and the discharge outlet (213) is over against the intersection position of the blades (222) in the two groups of tool sets (22).

10. The meat cutter of claim 9, wherein: the feeding device is characterized in that a material receiving box (3) with an opening at the top is arranged in the shell (1), the material receiving box (3) is positioned below the tool rest (21), and the opening at the top of the material receiving box (3) is opposite to the discharge hole (213).

11. The meat cutter of claim 10, wherein: the front side of casing (1) has abdication mouth (111), material receiving box (3) can follow the fore-and-aft direction and pass in and out from this abdication mouth (111) casing (1).

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