CN220661031U - Multifunctional modularized food processing equipment - Google Patents

Abstract

The utility model discloses multifunctional modularized food processing equipment, which belongs to the technical field of food equipment and comprises a frame body, a hopper, a receiving trough, a conveying mechanism, a pushing mechanism, a first driving mechanism, a cutter module and a second driving mechanism, wherein the hopper and the conveying mechanism are arranged at the top of the frame body, the receiving trough is arranged on the frame body and is positioned at the lower side of a discharging end of the conveying mechanism, the pushing mechanism is arranged on the frame body and is positioned below the conveying mechanism, the first driving mechanism is arranged on the frame body and is used for driving the conveying mechanism and the pushing mechanism to work, the cutter module is arranged on the frame body and is positioned at the discharging end of the receiving trough, and the second driving mechanism is arranged on the frame body and is used for driving the cutter module to work. The tool module is convenient to clean and maintain by adopting a modularized design, has good universality, can be replaced according to different processing requirements, saves cost, does not need manual intervention, and greatly reduces the labor intensity and the occurrence of safety accidents.

Description

Multifunctional modularized food processing equipment

Technical Field

The utility model belongs to the technical field of food equipment, and particularly relates to multifunctional modularized food processing equipment.

Background

At present, the market competition of the meat product processing industry in China is strong, and the enterprise scale in the industry is mainly a small enterprise. At present, the global consumption of meat products increases at a speed of 2% -3%, especially during epidemic situations, many families store foods such as cans in the families, so that the requirements of the meat product market on processing machines and equipment are increasing, and further updating of the processing machines and equipment is desired to obtain faster production speed. Machines of the type currently on the market, for example automatic cutting of vegetables, meat and the like, basically require manual intervention to operate.

Most of food processing machines in the current market have single functions, and can only cut meat food into slices or shreds or slices, so that the application range is extremely limited, and the food processing machine has a complex structure, is difficult to disassemble, is difficult to clean and maintain and has lower safety.

Disclosure of Invention

The embodiment of the utility model aims to provide multifunctional modularized food processing equipment which is simple in structure, convenient to use and capable of better improving the problems.

The embodiment of the utility model is realized in the following way:

The embodiment of the utility model provides multifunctional modularized food processing equipment, which comprises a frame body, a hopper, a receiving groove, a conveying mechanism, a pushing mechanism, a first driving mechanism, a cutter module and a second driving mechanism, wherein the hopper and the conveying mechanism are arranged at the top of the frame body, one end of the conveying mechanism is a feeding end, the other end of the conveying mechanism is a discharging end, the feeding end of the conveying mechanism corresponds to the discharging end of the hopper, the receiving groove is arranged on the frame body and is positioned at the lower side of the discharging end of the conveying mechanism, the pushing mechanism is arranged on the frame body and is positioned below the conveying mechanism, one end of the pushing mechanism extends into the receiving groove, the first driving mechanism is arranged on the frame body and is used for driving the conveying mechanism and the pushing mechanism to work, the front end of the receiving groove is a discharging end, the cutter module is arranged on the frame body and is positioned at the discharging end of the receiving groove, and the second driving mechanism is arranged on the frame body and is used for driving the cutter module to work.

Optionally, the conveying mechanism includes conveyer belt, drive roll and driven voller, the drive roll with the driven voller all rotate support in the support body top, the conveyer belt is around locating on the drive roll with on the driven voller, first actuating mechanism with the one end transmission of drive roll is connected.

Optionally, the pushing equipment includes push pedal and pushing rod, the push pedal slide set up in connect in the silo, the one end of pushing rod with the push pedal is connected, the other end of pushing rod with first actuating mechanism transmission is connected.

Optionally, the first actuating mechanism includes first driving motor, first band pulley, second band pulley, third band pulley, first drive belt, second drive belt, first connecting rod and first crank, first driving motor set up in on the support body, first band pulley set up in on the output shaft of first driving motor, the second band pulley pass through first pivot support in on the support body, the third band pulley set up in the one end of drive roll, first drive belt bypass first band pulley with the second band pulley, the second drive belt bypass second band pulley with the third band pulley, the one end of first crank with the one end of first pivot is connected, the other end of first crank with the one end of first connecting rod articulates, the other end of first connecting rod with the one end of pushing rod keeping away from the push pedal articulates.

Optionally, the cutter module includes cylinder cutter frame, cylinder blade, cylinder anticreep sword cover sheet, cylinder transfer line, the cylinder blade set up in on the cylinder cutter frame, the quantity of cylinder blade be the multi-disc and follow the circumference of cylinder cutter frame distributes, cylinder anticreep sword cover sheet set up in the upper end of cylinder cutter frame, the one end of cylinder transfer line with cylinder anticreep sword cover sheet is connected, the lower extreme of cylinder cutter frame support in on the support body through first cylinder cutter support, the lower extreme of cylinder cutter frame with first cylinder cutter support normal running fit, be equipped with the blanking hole on the first cylinder cutter support, the cylinder transfer line support in on the support body through the second cylinder cutter support, the second actuating mechanism with cylinder transfer line transmission is connected.

Optionally, the second actuating mechanism includes cylinder cutter driving motor, first cylinder cutter sprocket, second cylinder cutter sprocket and cylinder cutter chain, cylinder cutter driving motor set up in on the support body, first cylinder cutter sprocket set up in on the output shaft of cylinder cutter driving motor, second cylinder cutter sprocket set up in on the cylinder transfer line, cylinder cutter chain around locating first cylinder cutter sprocket with on the second cylinder cutter sprocket.

Optionally, the cutter module includes cross knife fixed plate, separates the sword frame, horizontal cutter, erects cutter, rotary cutter, cross knife fixed plate set up in on the support body and be located connect the front end of silo, cross knife fixed plate with connect the corresponding position of discharge end of silo to be equipped with the installation breach, separate the sword frame set up in the installation breach, horizontal cutter slide set up in separate one side of sword frame, erect cutter slide set up in separate the opposite side of sword frame, rotary cutter support through the pivot in cross knife fixed plate is last and be located separate one side of sword frame keeping away from connect the silo, second actuating mechanism is used for the drive rotary cutter is rotatory, and is used for the drive horizontal cutter lateral sliding and the drive erect cutter vertical sliding.

The second driving mechanism comprises a cross cutter driving motor, a first cross cutter chain wheel, a second cross cutter chain wheel, a third cross cutter chain wheel, a fourth cross cutter chain wheel, a fifth cross cutter chain wheel, a sixth cross cutter chain wheel, a first cross cutter chain, a second cross cutter chain, a third cross cutter chain, a second crank, a second connecting rod, a vertical push rod, an L-shaped swinging piece, a cross cutter connecting shaft and a vertical cutter connecting shaft, wherein the cross cutter driving motor is arranged on the frame body, an output shaft of the cross cutter driving motor penetrates through the cross cutter fixing plate, the first cross cutter chain wheel and the second cross cutter chain wheel are arranged on the output shaft of the cross cutter driving motor, the first cross cutter chain wheel is positioned on one side of the cross cutter fixing plate far away from the material receiving groove, the second cross cutter chain wheel is positioned on one side of the cross cutter fixing plate, the third cross cutter chain wheel is supported on the cross cutter fixing plate through a rotating shaft and positioned on the same side of the cross cutter fixing plate, the first cross cutter chain wheel and the second cross cutter chain wheel and the fourth cross cutter chain wheel are positioned on the same side of the cross cutter fixing plate, the first cross cutter chain wheel and the fourth cross cutter chain wheel are positioned on the same side of the cross cutter fixing plate, the utility model provides a rotary cutter, including the first connecting rod, the second connecting rod, the fourth cross tool sprocket set up in the pivot of rotary cutter, the third cross tool sprocket bypass fifth cross tool sprocket with the fourth cross tool sprocket, the first crank one end with the pivot of third cross tool sprocket is connected, the first crank other end with the one end of second connecting rod articulates, vertical push rod pass through the direction slide support in on the cross tool fixed plate, the other end of second connecting rod with the lower extreme of vertical push rod articulates, the upper end of vertical push rod with the one end of perpendicular sword connecting axle is connected, the other end of perpendicular sword connecting axle with the lower extreme of perpendicular sword is connected, the right angle position of L type swinging member support in on the cross tool fixed plate through the pivot, the one end of L type swinging member with perpendicular sword connecting axle is connected, the other end of L type swinging member with the one end of horizontal sword connecting axle is connected, the other end of horizontal sword connecting axle with one end of horizontal sword is connected.

Optionally, the transverse cutter comprises two transverse cutter blade clamping seats, two transverse cutter blades and two transverse cutter sliding rods, wherein the two transverse cutter blade clamping seats are symmetrically arranged at intervals, the two transverse cutter sliding rods are arranged between the two transverse cutter blade clamping seats at intervals side by side, the plurality of transverse cutter blades are positioned between the two transverse cutter sliding rods, and the two transverse cutter sliding rods are in sliding connection with the cutter separating frame; the vertical cutter comprises vertical cutter blade clamping seats, vertical cutter blades and vertical cutter blade sliding rods, wherein the number of the vertical cutter blade clamping seats is two, the vertical cutter blade clamping seats are symmetrically arranged at intervals, the number of the vertical cutter blade sliding rods is two, the vertical cutter blade sliding rods are arranged between the vertical cutter blade clamping seats at intervals side by side, the number of the vertical cutter blades is multiple, the vertical cutter blade sliding rods are arranged between the vertical cutter blade clamping seats at intervals side by side, the vertical cutter blade sliding rods are all arranged between the vertical cutter blade sliding rods, and the vertical cutter blade sliding rods are connected with the cutter frame in a sliding mode.

Optionally, a guide groove is further formed in one side, far away from the receiving groove, of the crossed knife fixing plate, and the guide groove is located below the rotary knife.

The beneficial effects of the utility model are as follows:

the multifunctional modularized food processing equipment provided by the embodiment of the utility model adopts a modularized design, is convenient to clean and maintain, and the cutter module and the second driving mechanism can be replaced according to different processing requirements, and the other structures are unchanged, so that the universality of the equipment is greatly improved, the cost is saved, the processing equipment can automatically feed and automatically push materials into the cutter module, manual intervention is not needed, and the labor intensity and safety accidents are greatly reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present utility model and should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a multifunctional modular food processing device according to a first embodiment of the present utility model;

FIG. 2 is an exploded view of one view of FIG. 1;

FIG. 3 is an exploded view of the other view of FIG. 1;

FIG. 4 is a schematic view of a structure of a feeding portion at a view angle;

FIG. 5 is a schematic view of a structure of another view of the feeding section;

FIG. 6 is a schematic view of a cutter module according to the first embodiment;

FIG. 7 is an assembled schematic view of a cutter module and a second drive mechanism according to the first embodiment;

FIG. 8 is an assembled schematic view of the cutter module and the second driving mechanism according to the first embodiment;

fig. 9 is a schematic structural diagram of a multifunctional modular food processing device according to a second embodiment of the present utility model;

FIG. 10 is an exploded view of FIG. 9;

FIG. 11 is an assembled schematic view of a cutter module and a second driving mechanism according to the second embodiment;

FIG. 12 is an assembled schematic view of the cutter module of the second embodiment and another view of the second driving mechanism;

FIG. 13 is a schematic view of the construction of a cross cutter;

FIG. 14 is a schematic view of the construction of a vertical cutter;

FIG. 15 is a schematic view of the structure of a cutter frame;

in the figure: 11-a frame body; 12-a hopper; 13-receiving grooves; 14-adjusting the foot; 15-rolling wheels; 20-a conveying mechanism; 201-a conveyor belt; 202-a drive roll; 203-a driven roller; 30-a pushing mechanism; 301-pushing plate; 302, a pushing rod; 40-a first drive mechanism; 401-a first drive motor; 402-a first pulley; 403-a second pulley; 404-a third pulley; 405-a first drive belt; 406-a second belt; 407-first link; 408-a first crank; 50-a second drive mechanism; 501-a drum cutter drive motor; 502-a first roller cutter sprocket; 503-a second roller cutter sprocket; 504-a roller cutter chain; 60-cutter module; 601-a drum cutter frame; 602-a roller blade; 603-roller anti-disengaging knife cover plate; 604-a roller drive rod; 61-a first roller cutter holder; 62-a second roller cutter holder; 70-a second drive mechanism; 701-a cross cutter drive motor; 702—a first cross cutter sprocket; 703-a second cross cutter sprocket; 704-a third cross cutter sprocket; 705-fourth cross cutter sprocket; 706-fifth cross cutter sprocket; 707-sixth cross cutter sprocket; 708-a first cross cutter chain; 709-a second cross cutter chain; 710-third cross cutter chain; 711-second crank; 712-second link; 713-vertical push rod; 714-L-shaped swinging member; 715-a transverse knife connecting shaft; 716-a vertical cutter connecting shaft; 80-a cutter module; 81-a crossed knife fixing plate; 82-a cutter-isolating frame; 821-blade chute; 83-transverse cutter; 831-a horizontal blade cartridge; 832-transverse knife blade; 833-a transverse knife slide bar; 84-erecting a cutter; 841-vertical blade cartridge; 842-vertical blades; 843-vertical knife slide bar; 85-rotating tool.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments. The components of the embodiments of the present utility model generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the utility model, as presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, based on the embodiments of the utility model, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the utility model.

In addition, the embodiments of the present utility model and the features of the embodiments may be combined with each other without collision.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

In the description of the present utility model, it should be noted that, directions or positional relationships indicated by terms such as "upper", "lower", "inner", "outer", etc., are directions or positional relationships based on those shown in the drawings, or directions or positional relationships conventionally put in place when the inventive product is used, or directions or positional relationships conventionally understood by those skilled in the art are merely for convenience of describing the present utility model and simplifying the description, and are not indicative or implying that the apparatus or element to be referred to must have a specific direction, be constructed and operated in a specific direction, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," "third," and the like are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

In the description of the present utility model, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; the two components can be mechanically connected, can be directly connected or can be indirectly connected through an intermediate medium, and can be communicated with each other. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Example 1

Referring to fig. 1-3, a first embodiment of the present utility model provides a multifunctional modular food processing device, which includes a frame 11, a hopper 12, a receiving slot 13, a conveying mechanism 20, a pushing mechanism 30, a first driving mechanism 40, a cutter module 60, and a second driving mechanism 50.

The frame 11 is a frame structure, and the frame 11 plays a role in supporting other components. The four corners of the bottom of the frame 11 can be provided with adjusting feet 14, the adjusting feet 14 are in threaded connection with the frame 11, and the adjusting feet 14 can well adjust the levelness of the frame 11 when placed on the ground, so that the frame 11 is not easy to shake. The bottom of the frame 11 may also be provided with a roller 15, where the roller 15 may be disposed adjacent to the adjusting leg 14, and the roller 15 is disposed to facilitate movement of the device. When the equipment needs to be moved, the adjusting foot 14 is lifted, the roller 15 is contacted with the ground, so that the equipment can be pushed to move, and when the equipment moves to a designated position, the adjusting foot 14 can be lowered, so that the adjusting foot 14 is contacted with the ground, and the equipment is placed stably.

The hopper 12 sets up the one end at support body 11 top, and hopper 12 is used for throwing in and adds the material of waiting to process, and the side below of hopper 12 has the discharge gate.

Referring to fig. 4 and 5, the conveying mechanism 20 includes a conveying belt 201, a driving roller 202 and a driven roller 203, where the driving roller 202 and the driven roller 203 are rotatably supported on the top of the frame 11, in this embodiment, the driven roller 203 is disposed near the hopper 12, the conveying belt 201 is wound on the driving roller 202 and the driven roller 203, one end of the conveying belt 201 is a feeding end, the other end is a discharging end, the feeding end of the conveying belt 201 corresponds to the discharging port of the hopper 12, and materials falling from the discharging port of the hopper 12 fall on the conveying belt 201 and then are conveyed forward by the conveying belt 201.

The receiving groove 13 is arranged on the frame 11 and is positioned at the lower side of the discharge end of the conveying belt 201, and materials conveyed by the conveying belt 201 fall from the discharge end of the conveying belt and can fall into the receiving groove 13, and the front end of the receiving groove 13 is the discharge end.

The pushing mechanism 30 comprises a pushing plate 301 and a pushing rod 302, the pushing plate 301 is slidably arranged in the receiving groove 13, the pushing plate 301 can slide back and forth along the front and back directions of the receiving groove 13 when being stressed, the pushing plate 301 can push materials in the receiving groove 13 forward when sliding forward, the pushing rod 302 is supported on the frame 11 through a sliding seat and is located below the conveying mechanism 20, and one end of the pushing rod 302 is connected with the pushing plate 301.

The first drive mechanism 40 includes a first drive motor 401, a first pulley 402, a second pulley 403, a third pulley 404, a first transmission belt 405, a second transmission belt 406, a first link 407, and a first crank 408. The first driving motor 401 is arranged on the frame 11, the first belt pulley 402 is arranged on an output shaft of the first driving motor 401, the second belt pulley 403 is supported on the frame 11 through a first rotating shaft, the number of the second belt pulleys 403 can be one or two, when the number is one, at least two belt clamping grooves are formed in the second belt pulleys 403, when the number is two, the two second belt pulleys 403 can synchronously rotate, the third belt pulley 404 is arranged at one end of the driving roller 202, the first belt pulley 405 bypasses the first belt pulley 402 and the second belt pulley 403, the second belt pulley 406 bypasses the second belt pulley 403 and the third belt pulley 404, one end of the first crank 408 is connected with one end of the first rotating shaft, the other end of the first crank 408 is hinged with one end of the first connecting rod 407, and the other end of the first connecting rod 407 is hinged with one end, far away from the push plate 301, of the push rod 302. When the first driving motor 401 works, the first belt pulley 402 can be driven to rotate, the first belt pulley 402 drives the second belt pulley 403 to rotate through the first driving belt 405, meanwhile, the rotating shaft supporting the second belt pulley 403 and the second belt pulley 403 synchronously rotate, the second belt pulley 403 drives the third belt pulley 404 to rotate through the second driving belt 406, the third driving belt drives the driving roller 202 to rotate, thereby driving the conveying belt 201 to rotate, meanwhile, the rotating shaft supporting the second belt pulley 403 also drives the first crank 408 to rotate, and the first crank 408 drives the pushing rod 302 to reciprocate along the front and back directions of the frame 11 through the first connecting rod 407, so that the pushing plate 301 is driven to push materials in the material receiving groove 13 forwards.

The first driving motor 401 is controlled by the PLC controller and the speed regulator in a combined way, the speed of conveying and feeding can be controlled by adjusting the rotating speed of the first driving motor 401, the accumulation and the clamping of food to be processed can be reduced, certain processing assistance can be well ensured, the pressure of a processing cutter can be controlled, the conditions of cutter sharpening, breakage and the like can be effectively prevented, and the equipment can be well ensured to operate normally.

Referring to fig. 6, in the present embodiment, the cutter module 60 includes a roller cutter frame 601, a roller blade 602, a roller anti-falling-off cover sheet 603, and a roller transmission rod 604, the roller blade 602 is disposed on the roller cutter frame 601, the number of the roller blades 602 is multiple and distributed along the circumference of the roller cutter frame 601, the roller anti-falling-off cover sheet 603 is disposed at the upper end of the roller cutter frame 601, and one end of the roller transmission rod 604 is connected with the roller anti-falling-off cover sheet 603.

Referring to fig. 7 and 8, the lower end of the drum cutter frame 601 is supported on the frame 11 through the first drum cutter frame 61, the lower end of the drum cutter frame 601 is in rotational fit with the first drum cutter frame 61, a blanking hole is further formed in the first drum cutter frame 61, the material cut by the drum blade 602 can fall from the blanking hole, the drum transmission rod 604 is supported on the frame 11 through the second drum cutter frame 62, and the drum transmission rod 604 is in rotational fit with the second drum cutter frame 62. The first roller cutter supporter 61 and the second roller cutter supporter 62 are detachably connected with the frame 11, so that the cutter module 60 can be easily disassembled and replaced.

The second drive mechanism 50 includes a roller cutter drive motor 501, a first roller cutter sprocket 502, a second roller cutter sprocket 503, and a roller cutter chain 504. The drum cutter driving motor 501 is disposed on the frame 11, the first drum cutter sprocket 502 is disposed on an output shaft of the drum cutter driving motor 501 and can rotate synchronously, the second drum cutter sprocket 503 is disposed on the drum driving rod 604 and can rotate synchronously, and the drum cutter chain 504 is wound around the first drum cutter sprocket 502 and the second drum cutter sprocket 503. When the roller cutter driving motor 501 works, the first roller cutter chain wheel 502 can be driven to rotate, the first roller cutter chain wheel 502 drives the second roller cutter chain wheel 503 to rotate through the roller cutter chain 504, and then the second roller cutter chain wheel 503 drives the cutter module 60 to rotate, so that the cutting of articles is realized.

The roller cutter driving motor 501 is controlled by the PLC controller and the speed regulator in a combined way, and the rotation speed of the roller cutter can be changed by adjusting the rotation speed of the roller cutter driving motor 501, so that the processing efficiency is controlled.

The blanking hole below of first cylinder cutter support 61 still can be equipped with weighing module, and bearing module and PLC controller electric connection, bearing module are used for weighing the material that falls from the blanking hole department of first cylinder cutter support 61 to can realize quantitative processing, when processing weight reaches required data, the machine automatic stop processing.

Human body infrared induction detectors are further arranged around the cutter module 60, when a human body approaches the cutter module 60, the human body infrared induction detectors feed detected information back to the PLC, an emergency stop button is triggered, and the machine is forced to stop running, so that personal safety is guaranteed.

One side of the conveying mechanism 20 is also provided with an infrared sensor electrically connected with the PLC controller, and the infrared sensor is used for identifying the advancing speed of the material to be processed on the conveying belt 201 so as to be better matched with the processing cutter.

Example 2

Referring to fig. 9 and 10, a second embodiment of the present utility model provides a multifunctional modular food processing device, which includes a frame 11, a hopper 12, a receiving slot 13, a conveying mechanism 20, a pushing mechanism 30, a first driving mechanism 40, a cutter module 80, and a second driving mechanism 70.

The frame 11 is a frame structure, and the frame 11 plays a role in supporting other components. The four corners of the bottom of the frame 11 can be provided with adjusting feet 14, the adjusting feet 14 are in threaded connection with the frame 11, and the adjusting feet 14 can well adjust the levelness of the frame 11 when placed on the ground, so that the frame 11 is not easy to shake. The bottom of the frame 11 may also be provided with a roller 15, where the roller 15 may be disposed adjacent to the adjusting leg 14, and the roller 15 is disposed to facilitate movement of the device. When the equipment needs to be moved, the adjusting foot 14 is lifted, the roller 15 is contacted with the ground, so that the equipment can be pushed to move, and when the equipment moves to a designated position, the adjusting foot 14 can be lowered, so that the adjusting foot 14 is contacted with the ground, and the equipment is placed stably.

The hopper 12 sets up the one end at support body 11 top, and hopper 12 is used for throwing in and adds the material of waiting to process, and the side below of hopper 12 has the discharge gate.

Referring to fig. 4 and 5, the conveying mechanism 20 includes a conveying belt 201, a driving roller 202 and a driven roller 203, where the driving roller 202 and the driven roller 203 are rotatably supported on the top of the frame 11, in this embodiment, the driven roller 203 is disposed near the hopper 12, the conveying belt 201 is wound on the driving roller 202 and the driven roller 203, one end of the conveying belt 201 is a feeding end, the other end is a discharging end, the feeding end of the conveying belt 201 corresponds to the discharging port of the hopper 12, and materials falling from the discharging port of the hopper 12 fall on the conveying belt 201 and then are conveyed forward by the conveying belt 201.

The receiving groove 13 is arranged on the frame 11 and is positioned at the lower side of the discharge end of the conveying belt 201, and materials conveyed by the conveying belt 201 fall from the discharge end of the conveying belt and can fall into the receiving groove 13, and the front end of the receiving groove 13 is the discharge end.

The pushing mechanism 30 comprises a pushing plate 301 and a pushing rod 302, the pushing plate 301 is slidably arranged in the receiving groove 13, the pushing plate 301 can slide back and forth along the front and back directions of the receiving groove 13 when being stressed, the pushing plate 301 can push materials in the receiving groove 13 forward when sliding forward, the pushing rod 302 is supported on the frame 11 through a sliding seat and is located below the conveying mechanism 20, and one end of the pushing rod 302 is connected with the pushing plate 301.

The first drive mechanism 40 includes a first drive motor 401, a first pulley 402, a second pulley 403, a third pulley 404, a first transmission belt 405, a second transmission belt 406, a first link 407, and a first crank 408. The first driving motor 401 is arranged on the frame 11, the first belt pulley 402 is arranged on an output shaft of the first driving motor 401, the second belt pulley 403 is supported on the frame 11 through a first rotating shaft, the number of the second belt pulleys 403 can be one or two, when the number is one, at least two belt clamping grooves are formed in the second belt pulleys 403, when the number is two, the two second belt pulleys 403 can synchronously rotate, the third belt pulley 404 is arranged at one end of the driving roller 202, the first belt pulley 405 bypasses the first belt pulley 402 and the second belt pulley 403, the second belt pulley 406 bypasses the second belt pulley 403 and the third belt pulley 404, one end of the first crank 408 is connected with one end of the first rotating shaft, the other end of the first crank 408 is hinged with one end of the first connecting rod 407, and the other end of the first connecting rod 407 is hinged with one end, far away from the push plate 301, of the push rod 302. When the first driving motor 401 works, the first belt pulley 402 can be driven to rotate, the first belt pulley 402 drives the second belt pulley 403 to rotate through the first driving belt 405, meanwhile, the rotating shaft supporting the second belt pulley 403 and the second belt pulley 403 synchronously rotate, the second belt pulley 403 drives the third belt pulley 404 to rotate through the second driving belt 406, the third driving belt drives the driving roller 202 to rotate, thereby driving the conveying belt 201 to rotate, meanwhile, the rotating shaft supporting the second belt pulley 403 also drives the first crank 408 to rotate, and the first crank 408 drives the pushing rod 302 to reciprocate along the front and back directions of the frame 11 through the first connecting rod 407, so that the pushing plate 301 is driven to push materials in the material receiving groove 13 forwards.

The first driving motor 401 is controlled by the PLC controller and the speed regulator in a combined way, the speed of conveying and feeding can be controlled by adjusting the rotating speed of the first driving motor 401, the accumulation and the clamping of food to be processed can be reduced, certain processing assistance can be well ensured, the pressure of a processing cutter can be controlled, the conditions of cutter sharpening, breakage and the like can be effectively prevented, and the equipment can be well ensured to operate normally.

Referring to fig. 11 and 12, in the present embodiment, the cutter module 80 includes a cross cutter fixing plate 81, a cutter separating frame 82, a transverse cutter 83, a vertical cutter 84, and a rotary cutter 85. The fixed plate 81 of cross knife is detachable to be set up on support body 11 and be located the front end that connects silo 13, the fixed plate 81 of cross knife is equipped with the installation breach with the corresponding position of discharge end that connects silo 13, separate the sword frame 82 and be rectangular frame structure, separate sword frame 82 setting in the installation breach, horizontal cutter 83 slides to set up in one side that separates the sword frame 82, perpendicular cutter 84 slides to set up in the opposite side that separates the sword frame 82, rotatory cutter 85 is supported on the fixed plate of cross knife 81 through the pivot and is located the one side that separates the sword frame 82 and keep away from and connect silo 13, can pass through the region that horizontal cutter 83 and perpendicular cutter 84 correspond when rotatory cutter 85 rotates.

Referring to fig. 13, the flat cutter 83 includes two flat cutter 832 holders 831, two flat cutter blades 832 and two flat cutter slide bars 833, the number of the flat cutter 832 holders 831 is two and symmetrically arranged at intervals, the number of the flat cutter slide bars 833 is two and arranged between the two flat cutter 832 holders 831 at intervals side by side, the two flat cutter slide bars 833 and the two flat cutter 832 holders 831 enclose a rectangular frame structure, the number of the flat cutter 832 is a plurality of the flat cutter blades 832 and arranged between the two flat cutter 832 holders 831 at intervals side by side, the plurality of the flat cutter 832 are all located between the two flat cutter slide bars 833, the two flat cutter slide bars 833 are slidably connected with the cutter isolating frame 82, and the flat cutter 832 holders 831 are provided with first bar-shaped connecting holes.

Referring to fig. 14, the vertical cutter 84 includes a vertical cutter 842 clamping seat 841, vertical cutter blades 842 and vertical cutter sliding rods 843, the number of the vertical cutter 842 clamping seats 841 is two, and the vertical cutter sliding rods 843 are symmetrically arranged at intervals, the number of the vertical cutter sliding rods 843 is two, and are arranged between the two vertical cutter 842 clamping seats 841 at intervals side by side, the two vertical cutter sliding rods 843 and the two vertical cutter 842 clamping seats 841 enclose a rectangular frame structure, the number of the vertical cutter blades 842 is multiple, and are arranged between the two vertical cutter 842 clamping seats 841 at intervals side by side, the multiple vertical cutter blades 842 are all positioned between the two vertical cutter sliding rods 843, the two vertical cutter sliding rods 843 are slidably connected with the cutter isolating frame 82, and the vertical cutter 842 clamping seats 841 are provided with second strip-shaped connecting holes.

Referring to fig. 15, the frame of the cutter-separating frame 82 is provided with a cutter-sliding slot 821 at the positions corresponding to the transverse cutter blades 832 and the vertical cutter blades 842, and the transverse cutter blades 832 and the vertical cutter blades 842 are both positioned in the cutter-sliding slot 821 and are in sliding fit, so that the cutter-sliding slot 821 can well ensure that the moving track of the transverse cutter blades 832 and the vertical cutter blades cannot deviate.

The second drive mechanism 70 includes a crossover cutter drive motor 701, a first crossover cutter sprocket 702, a second crossover cutter sprocket 703, a third crossover cutter sprocket 704, a fourth crossover cutter sprocket 705, a fifth crossover cutter sprocket 706, a sixth crossover cutter sprocket 707, a first crossover cutter chain 708, a second crossover cutter chain 709, a third crossover cutter chain 710, a second crank 711, a second link 712, a vertical pushrod 713, an L-shaped swing 714, a cross cutter connection shaft 715, and a vertical cutter connection shaft 716. The cross cutter driving motor 701 is arranged on the frame 11, the output shaft of the cross cutter driving motor passes through the cross cutter fixing plate 81, the first cross cutter chain wheel 702 and the second cross cutter chain wheel 703 are both arranged on the output shaft of the cross cutter driving motor 701, the first cross cutter chain wheel 702 is positioned on one side of the cross cutter fixing plate 81 far away from the receiving groove 13, the second cross cutter chain wheel 703 is positioned on one side of the cross cutter fixing plate 81 close to the receiving groove 13, the third cross cutter chain wheel 704 is supported on the cross cutter fixing plate 81 through a rotating shaft and is positioned on the same side of the cross cutter fixing plate 81 as the first cross cutter chain wheel 702, the first cross cutter chain 708 bypasses the first cross cutter chain wheel 702 and the third cross cutter chain wheel 704, the fourth cross cutter chain wheel 705 and the fifth cross cutter chain wheel 706 are supported on the cross cutter fixing plate 81 through the same rotating shaft, the fourth cross cutter sprocket 705 is located on the same side of the cross cutter fixing plate 81 as the second cross cutter sprocket 703, the fifth cross cutter sprocket 706 is located on the same side of the cross cutter fixing plate 81 as the first cross cutter sprocket 702, the second cross cutter chain 709 bypasses the second cross cutter sprocket 703 and the fourth cross cutter sprocket 705, the sixth cross cutter sprocket 707 is provided on the rotation shaft of the rotary cutter 85, the third cross cutter chain 710 bypasses the fifth cross cutter sprocket 706 and the sixth cross cutter sprocket 707, one end of the second crank 711 is connected with the rotation shaft of the third cross cutter sprocket 704, the other end of the second crank 711 is hinged with one end of the second link 712, the vertical push rod 713 is supported on the cross cutter fixing plate 81 through a guide slide, the sliding direction of the vertical push rod 713 is in the vertical direction, the other end of the second link 712 is hinged with the lower end of the vertical push rod 713, the upper end of the vertical push rod 713 is connected with one end of the vertical knife connecting shaft 716, the other end of the vertical cutter connecting shaft 716 is connected with a second strip-shaped connecting hole at the lower end of the vertical cutter 84 in a clamping manner, the right-angle part of the L-shaped swinging piece 714 is supported on the crossed cutter fixing plate 81 through a rotating shaft, one end of the L-shaped swinging piece 714 is connected with the vertical cutter connecting shaft 716, the other end of the L-shaped swinging piece 714 is connected with one end of the transverse cutter connecting shaft 715, and the other end of the transverse cutter connecting shaft 715 is connected with a first strip-shaped connecting hole at one end of the transverse cutter 83 in a clamping manner. When the cross cutter driving motor 701 works, the first cross cutter chain wheel 702 and the second cross cutter chain wheel 703 are driven to synchronously rotate, the first cross cutter chain wheel 702 drives the third cross cutter chain wheel 704 to rotate through the first cross cutter chain 708, the third cross cutter chain wheel 704 drives the second crank 711 to rotate, the second crank 711 drives the vertical push rod 713 to reciprocate up and down through the second connecting rod 712, and the vertical push rod 713 drives the vertical cutter 84 to reciprocate, so that the materials entering the cross cutter driving motor can be cut; meanwhile, the vertical push rod 713 drives the L-shaped swinging piece 714 to swing left and right when moving up and down, and the L-shaped swinging piece 714 can drive the transverse cutter 83 to do left and right reciprocating motion when swinging, so that the material entering the horizontal cutter can be cut and processed. Meanwhile, the second cross cutter sprocket 703 drives the fourth cross cutter sprocket 705 to rotate through the second cross cutter chain 709, the fifth cross cutter sprocket 706 rotates in synchronization with the fourth cross cutter sprocket 705, the fifth cross cutter sprocket 706 drives the sixth cross cutter sprocket 707 to rotate through the third cross cutter chain 710, and the sixth cross cutter sprocket 707 drives the rotary cutter 85 to rotate. The horizontal cutter 83 and the vertical cutter 84 cooperate to cut the material into strips, and then the rotary cutter 85 can cut the strip into pieces.

The cross tool driving motor 701 is controlled by the PLC controller and the speed governor in combination, and the cutting speeds of the horizontal tool 83, the vertical tool 84, and the rotary tool 85 can be changed by adjusting the rotation speed of the cross tool driving motor 701, thereby controlling the machining efficiency.

A guide chute is further arranged on one side of the crossed knife fixing plate 81, which is far away from the receiving chute 13, and the guide chute is positioned below the rotary knife 85.

The weighing module can be arranged below the guide chute and is electrically connected with the PLC, and the bearing module is used for weighing materials falling from the guide chute, so that quantitative processing can be realized, and when the processing weight reaches required data, the machine automatically stops processing.

Human body infrared induction detectors are further arranged around the cutter module 80, when a human body approaches the cutter module 80, the human body infrared induction detectors feed detected information back to the PLC, an emergency stop button is triggered, and the machine is forced to stop running, so that personal safety is guaranteed.

One side of the conveying mechanism 20 is also provided with an infrared sensor electrically connected with the PLC controller, and the infrared sensor is used for identifying the advancing speed of the material to be processed on the conveying belt 201 so as to be better matched with the processing cutter.

The utility model is not limited to the above-described alternative embodiments, and any person who may derive other various forms of products in the light of the present utility model, however, any changes in shape or structure thereof, all falling within the technical solutions defined in the scope of the claims of the present utility model, fall within the scope of protection of the present utility model.

Claims (10)

1. A multi-functional modular food processing device, characterized in that: including support body, hopper, connect silo, conveying mechanism, pushing equipment, first actuating mechanism, cutter module and second actuating mechanism, the hopper with conveying mechanism all set up in the top of support body, conveying mechanism's one end is the feed end, and the other end is the discharge end, conveying mechanism's feed end with the discharge gate of hopper corresponds, connect the silo set up in on the support body and be located conveying mechanism's discharge end downside, pushing equipment set up in on the support body and be located conveying mechanism's below, pushing equipment's one end stretches into connect in the silo, first actuating mechanism set up in on the support body and be used for the drive conveying mechanism with pushing equipment work, connect the front end of silo to be the discharge end, cutter module set up in on the support body and be located connect the discharge end of silo, second actuating mechanism set up in on the support body and be used for driving cutter module work.

2. The multi-functional modular food processing device of claim 1, wherein: the conveying mechanism comprises a conveying belt, a driving roller and a driven roller, the driving roller and the driven roller are both rotatably supported at the top of the frame body, the conveying belt is wound on the driving roller and the driven roller, and the first driving mechanism is in transmission connection with one end of the driving roller.

3. The multi-functional modular food processing device of claim 2, wherein: the pushing mechanism comprises a pushing plate and a pushing rod, the pushing plate is slidably arranged in the receiving groove, one end of the pushing rod is connected with the pushing plate, and the other end of the pushing rod is in transmission connection with the first driving mechanism.

4. A multi-functional modular food processing device according to claim 3, characterized in that: the first driving mechanism comprises a first driving motor, a first belt wheel, a second belt wheel, a third belt wheel, a first transmission belt, a second transmission belt, a first connecting rod and a first crank, wherein the first driving motor is arranged on the frame body, the first belt wheel is arranged on an output shaft of the first driving motor, the second belt wheel is supported on the frame body through a first rotating shaft, the third belt wheel is arranged at one end of the driving roller, and the first transmission is carried out

The belt bypasses the first belt pulley and the second belt pulley, the second belt pulley and the third belt pulley, one end of the first crank is connected with one end of the first rotating shaft, the other end of the first crank is hinged with one end of the first connecting rod, and the other end of the first connecting rod is hinged with one end, far away from the push plate, of the pushing rod.

5. The multi-functional modular food processing device of claim 1, wherein: the cutter module comprises a roller cutter frame, roller blades, roller anti-falling cutter cover plates and a roller transmission rod, wherein the roller blades are arranged on the roller cutter frame, the number of the roller blades is multiple and distributed along the circumference of the roller cutter frame, the roller anti-falling cutter cover plates are arranged at the upper end of the roller cutter frame, one end of the roller transmission rod is connected with the roller anti-falling cutter cover plates, the lower end of the roller cutter frame is supported on the frame body through a first roller cutter support, the lower end of the roller cutter frame is in running fit with the first roller cutter support, blanking holes are formed in the first roller cutter support, and the roller transmission rod is supported on the frame body through a second roller cutter support, and the second driving mechanism is in transmission connection with the roller transmission rod.

6. The multi-functional modular food processing device of claim 5, wherein: the second driving mechanism comprises a roller cutter driving motor, a first roller cutter chain wheel, a second roller cutter chain wheel and a roller cutter chain, wherein the roller cutter driving motor is arranged on the frame body, the first roller cutter chain wheel is arranged on an output shaft of the roller cutter driving motor, the second roller cutter chain wheel is arranged on the roller transmission rod, and the roller cutter chain is wound on the first roller cutter chain wheel and the second roller cutter chain wheel.

7. The multi-functional modular food processing device of claim 1, wherein: the cutter module comprises a cross cutter fixing plate, a cutter separating frame, a transverse cutter, a vertical cutter and a rotary cutter, wherein the cross cutter fixing plate is arranged on the frame body and is positioned at the front end of the material receiving groove, a mounting notch is formed in the position, corresponding to the material discharging end of the material receiving groove, of the cross cutter fixing plate, the cutter separating frame is arranged in the mounting notch, the transverse cutter is arranged on one side of the cutter separating frame in a sliding mode, the vertical cutter is arranged on the other side of the cutter separating frame in a sliding mode, the rotary cutter is supported on the cross cutter fixing plate through a rotating shaft and is positioned on one side, far away from the material receiving groove, of the cutter separating frame, and the second driving mechanism is used for driving the rotary cutter to rotate and is used for driving the transverse cutter to transversely slide and the vertical cutter to vertically slide.

8. The multi-functional modular food processing device of claim 7, wherein: the second driving mechanism comprises a cross cutter driving motor, a first cross cutter chain wheel, a second cross cutter chain wheel, a third cross cutter chain wheel, a fourth cross cutter chain wheel, a fifth cross cutter chain wheel, a sixth cross cutter chain wheel, a first cross cutter chain, a second cross cutter chain, a third cross cutter chain, a second crank, a second connecting rod, a vertical push rod, an L-shaped swinging piece, a cross cutter connecting shaft and a vertical cutter connecting shaft, wherein the cross cutter driving motor is arranged on the frame body, an output shaft of the cross cutter driving motor penetrates through the cross cutter fixing plate, the first cross cutter chain wheel and the second cross cutter chain wheel are arranged on the output shaft of the cross cutter driving motor, the first cross cutter chain wheel is positioned on one side of the cross cutter fixing plate far away from the material receiving groove, the second cross cutter chain wheel is positioned on one side of the cross cutter fixing plate, the third cross cutter chain wheel is supported on the cross cutter fixing plate through a rotating shaft and positioned on the same side of the cross cutter fixing plate, the first cross cutter chain wheel and the second cross cutter chain wheel and the fourth cross cutter chain wheel are positioned on the same side of the cross cutter fixing plate, the first cross cutter chain wheel and the fourth cross cutter chain wheel are positioned on the same side of the cross cutter fixing plate, the utility model provides a rotary cutter, including the first connecting rod, the second connecting rod, the fourth cross tool sprocket set up in the pivot of rotary cutter, the third cross tool sprocket bypass fifth cross tool sprocket with the fourth cross tool sprocket, the first crank one end with the pivot of third cross tool sprocket is connected, the first crank other end with the one end of second connecting rod articulates, vertical push rod pass through the direction slide support in on the cross tool fixed plate, the other end of second connecting rod with the lower extreme of vertical push rod articulates, the upper end of vertical push rod with the one end of perpendicular sword connecting axle is connected, the other end of perpendicular sword connecting axle with the lower extreme of perpendicular sword is connected, the right angle position of L type swinging member support in on the cross tool fixed plate through the pivot, the one end of L type swinging member with perpendicular sword connecting axle is connected, the other end of L type swinging member with the one end of horizontal sword connecting axle is connected, the other end of horizontal sword connecting axle with one end of horizontal sword is connected.

9. The multi-function modular food processing device of claim 8, wherein: the transverse cutter comprises two transverse cutter blade clamping seats, two transverse cutter blades and two transverse cutter slide bars, wherein the two transverse cutter blade clamping seats are symmetrically arranged at intervals, the two transverse cutter slide bars are arranged between the two transverse cutter blade clamping seats at intervals side by side, the number of the transverse cutter blades is multiple and arranged between the two transverse cutter blade clamping seats at intervals side by side, the multiple transverse cutter blades are all arranged between the two transverse cutter slide bars, and the two transverse cutter slide bars are in sliding connection with the cutter separating frame; the vertical cutter comprises vertical cutter blade clamping seats, vertical cutter blades and vertical cutter blade sliding rods, wherein the number of the vertical cutter blade clamping seats is two, the vertical cutter blade clamping seats are symmetrically arranged at intervals, the number of the vertical cutter blade sliding rods is two, the vertical cutter blade sliding rods are arranged between the vertical cutter blade clamping seats at intervals side by side, the number of the vertical cutter blades is multiple, the vertical cutter blade sliding rods are arranged between the vertical cutter blade clamping seats at intervals side by side, the vertical cutter blade sliding rods are all arranged between the vertical cutter blade sliding rods, and the vertical cutter blade sliding rods are connected with the cutter frame in a sliding mode.

10. The multi-functional modular food processing device of claim 9, wherein: and one side of the crossed knife fixing plate, which is far away from the receiving groove, is also provided with a guide groove, and the guide groove is positioned below the rotary knife.