CN215913142U - Multifunctional meat cutter - Google Patents

Abstract

The utility model relates to the technical field of food cutting, and discloses a multifunctional meat cutting machine which comprises a rack, a conveying mechanism, a first cutting mechanism, a second cutting mechanism, an output mechanism and a driving mechanism, wherein the conveying mechanism is detachably arranged on one side of the rack and is used for being intermittently driven and conveying meat to be cut; compared with the prior art, the multifunctional meat cutting machine has the advantages that the conveying mechanism intermittently conveys meat to the first cutting mechanism, so that meat blocks required by a user can be cut, the multifunctional meat cutting machine is flexible and convenient, and waste materials can be reduced.

Description

Multifunctional meat cutter

Technical Field

The utility model relates to the technical field of food cutting, in particular to a multifunctional meat cutting machine.

Background

When the existing meat is processed, a stirring and cutting process is generally used, namely, the meat is extruded and cut in a spiral extrusion mode, when the meat is cut by adopting the cutting process, the meat is easily cut into pieces, a lot of waste materials are generated, and the size of the cut meat is random and uneven.

SUMMERY OF THE UTILITY MODEL

The object of the present invention is to provide a multifunctional meat cutter for solving the above technical problems.

A multi-function meat slicer, comprising:

a frame;

the conveying mechanism is detachably arranged on one side of the rack and is used for being intermittently driven and conveying meat to be cut;

the first cutting mechanism is arranged at the discharge end of the conveying mechanism and is used for being driven and transversely cutting the meat conveyed to the first cutting mechanism by the conveying mechanism;

the second cutting mechanism is arranged at the discharge end of the first cutting mechanism and is used for being driven and longitudinally cutting the meat cut by the first cutting mechanism;

the output mechanism is arranged at the discharge end of the second cutting mechanism and is used for being driven and outputting the meat cut by the second cutting mechanism;

and the driving mechanism comprises a first driving assembly and a second driving assembly, the first driving assembly is used for driving the conveying mechanism, the first cutting mechanism and the second cutting mechanism, and the second driving assembly is used for driving the output mechanism.

According to an embodiment of the utility model, the conveying mechanism comprises a conveying belt assembly, a pressing assembly, a conveying transmission assembly, a pressing transmission assembly and a quick-release rod, the conveying belt assembly is detachably arranged on the rack through the quick-release rod, the conveying transmission assembly is in transmission connection with the conveying belt assembly and is used for being intermittently driven by the first driving assembly to drive the conveying belt assembly to intermittently operate, the pressing assembly is arranged on the conveying belt assembly and located above the conveying belt assembly, and the pressing transmission assembly is in transmission connection with the conveying transmission assembly and is used for being driven by the conveying transmission assembly to drive the pressing assembly to operate.

According to one embodiment of the utility model, the conveying belt assembly comprises a first conveying belt, a driving conveying roller, a driven conveying roller and a conveying support, wherein the driving conveying roller and the driven conveying roller are rotatably connected to the conveying support, the driving conveying roller is in transmission connection with the conveying transmission assembly, the first conveying belt rolls along the driving conveying roller and the driven conveying roller, a quick release rod penetrates through the driving conveying roller and is rotatably connected to the rack, one end, close to the driven conveying roller, of the conveying support is supported on the rack, and the quick release rod is pulled out of the driving conveying roller, so that the conveying belt assembly can be separated from the rack.

According to one embodiment of the utility model, the pressing assembly comprises a pressing support, a plurality of pressing conveyor belts, a pressing driving shaft, a plurality of belt supports, a plurality of gas springs, a spring shaft and a support shaft, the pressing support is arranged on the frame, the pressing driving shaft is rotatably connected to the pressing support and is in transmission connection with the pressing transmission assembly, the spring shaft and the support shaft are arranged on the pressing support, the upper ends of the plurality of belt supports are connected with the support shaft, the other ends of the plurality of belt supports are provided with the belt shafts and spring seats, each pressing conveyor belt rolls on the pressing driving shaft and the corresponding belt shaft, the upper ends of the plurality of gas springs are connected with the spring shaft, and the other ends of the plurality of gas springs are connected with the spring seats.

According to one embodiment of the utility model, the conveying transmission assembly comprises a transmission connecting plate, a transmission rod, a conveying driving shaft, a conveying driving wheel and a conveying driving wheel, one end of the transmission connecting plate is rotatably connected with the rack, the other end of the transmission connecting plate is connected with the first driving assembly and is used for being driven by the first driving assembly and rotating, the transmission connecting plate is arranged on the transmission connecting plate, the lower end of the transmission rod is rotatably connected with the transmission connecting plate, the upper end of the transmission rod is connected with the conveying driving shaft through a one-way bearing and is used for driving the conveying driving shaft to rotate when the end, connected with the first driving assembly, of the transmission connecting plate is pushed downwards, the conveying driving shaft is rotatably connected with the rack, the other end of the conveying driving shaft is connected with the conveying driving wheel, and the conveying driving wheel is arranged on the conveying belt assembly and is in transmission connection with the conveying driving wheel.

According to an embodiment of the present invention, the conveying transmission assembly further includes a screw assembly, the screw assembly is disposed on the transmission connecting plate, the transmission connecting plate is adjustably disposed on the screw assembly, and adjusting the position of the transmission connecting plate on the screw assembly can adjust the distance of each movement of the conveying mechanism when the conveying mechanism is intermittently driven.

According to an embodiment of the utility model, the pressing transmission assembly comprises a pressing driving shaft, a pressing transmission shaft, a pressing driving chain wheel, a pressing transmission gear, a pressing follow-up gear, a pressing output chain wheel, a pressing input chain wheel and a conveying output chain wheel, the pressing driving shaft and the pressing transmission shaft are rotatably connected to the frame, the pressing driving chain wheel and the pressing transmission gear are arranged on the pressing driving shaft, the pressing follow-up gear and the pressing output chain wheel are respectively arranged at two ends of the pressing transmission shaft, the pressing input chain wheel is arranged on the pressing assembly, the conveying output chain wheel is arranged on the conveying belt assembly, the pressing driving chain wheel is in transmission connection with the conveying output chain wheel, the pressing transmission gear is in transmission connection with the pressing follow-up gear, and the pressing output chain wheel is in transmission connection with the pressing input chain wheel.

According to one embodiment of the present invention, the first driving assembly comprises a first driving motor, a driving swing rod, a driving connecting plate, two lifting shafts and two driving racks, the first driving motor is disposed on the frame, the driving end of the driving connecting rod is connected with one end of the driving swing rod and can drive the driving swing rod to rotate, the lower end of the driving connecting rod is connected with the other end of the driving swing rod, and is driven and swings up and down when the driving swing rod rotates, the driving connecting plate is connected with the driving swing rod, the two lifting shafts are connected with the two sides of the driving connecting plate, the first cutting mechanism is connected with the upper end of the lifting shaft and moves up and down along with the lifting shaft, the two driving racks are connected with the first cutting mechanism, the conveying mechanism is connected with the lower end of the lifting shaft and driven when the lifting shaft moves downwards, and the second cutting mechanism is in transmission connection with the driving rack and operates under the driving of the driving rack.

According to an embodiment of the present invention, the second cutting mechanism includes a cutter shaft, a plurality of second cutters, a comb and a one-way bearing, the cutter shaft is rotatably connected to the frame through the one-way bearing, the one-way bearing is connected to the driving mechanism and is configured to be driven by the driving mechanism and always rotate clockwise, the plurality of second cutters are disposed on the cutter shaft, the comb is disposed on the frame and has a plurality of limiting grooves, and each second cutter corresponds to one limiting groove and rotates in the limiting groove when rotating along with the cutter shaft.

According to one embodiment of the present invention, one end of the cutter shaft is provided with a cutting driving gear, the other end is provided with a cutting follow-up gear, the frame is provided with a shaft gear and a synchronizing gear, the cutting driving gear is engaged with the driving rack and reciprocally rotates when the driving rack moves up and down along with the first cutting mechanism, the shaft gear is engaged with the driving rack, and the synchronizing gear is provided on a shaft of the shaft gear and engaged with the cutting follow-up gear.

Compared with the prior art, the multifunctional meat cutting machine has the advantages that the conveying mechanism intermittently conveys meat to the first cutting mechanism, so that meat blocks required by a user can be cut, the multifunctional meat cutting machine is flexible and convenient, and waste materials can be reduced.

Drawings

FIG. 1 is a schematic structural view of the multifunctional meat cutter of the present invention;

FIG. 2 is a cross-sectional view of FIG. 1;

FIG. 3 is a schematic view of the structure of FIG. 1 in another direction;

FIG. 4 is a schematic view of the structure of the belt support of FIG. 2;

FIG. 5 is a schematic view of the first conveyor belt of FIG. 1 with the first conveyor belt removed;

FIG. 6 is a schematic view of the structure of FIG. 1 in another direction;

FIG. 7 is a schematic view of the second cutting mechanism of FIG. 6 with the guards removed from opposite sides of the second cutting mechanism in another orientation;

in the figure: 1. the automatic feeding device comprises a rack, 11 shaft gears, 12 synchronous gears, 2 conveying mechanisms, 21 conveyor belt assemblies, 211 first conveyor belts, 212 driving conveying rollers, 213 driven conveying rollers, 214 conveying supports, 22 material pressing assemblies, 221 material pressing supports, 222 material pressing conveying belts, 223 material pressing driving shafts, 224 belt supports, 225 gas springs, 226 spring shafts, 227 support shafts and 23 conveying transmission assemblies, 231 transmission connecting plates, 232 transmission connecting plates, 233 transmission rods and 234 conveying driving shafts, 235 conveying driving wheels, 236 conveying driving wheels, 237 screw rod assemblies, 2371 screw rods, 2372 screw rod seats, 2373 screw rod adjusting pieces, 24 material pressing transmission assemblies, 241 material pressing driving shafts, 242 material pressing transmission shafts, 243 material pressing driving chain wheels, 244 material pressing transmission gears, 245 material following gears, 246 material pressing output chain wheels, 244 material pressing output chain wheels, 247. The automatic cutting machine comprises a material pressing input chain wheel 248, a conveying output chain wheel 25, a quick release rod 3, a first cutting mechanism 31, a cutter connecting plate 32, a first cutter, a second cutting mechanism 4, a cutter shaft 41, a cutter driving gear 411, a cutting follow-up gear 412, a cutting follow-up gear 42, a second cutter 43, a cutter comb 44, a one-way bearing 5, an output mechanism 51, a second conveying belt 52, a driving output roller 53, a driven output roller 53, a driving mechanism 6, a first driving assembly 61, a first driving assembly 611, a first driving motor 612, a driving swing rod 613, a driving connecting rod 614, a driving connecting plate 615, a lifting shaft 616, a driving rack 62, a second driving assembly 621, a second driving motor 622, a chain gear 623, a chain gear follow-up wheel 623

The implementation and advantages of the functions of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

In the following description, for purposes of explanation, numerous implementation details are set forth in order to provide a thorough understanding of the various embodiments of the present invention. It should be understood, however, that these implementation details are not to be interpreted as limiting the utility model. That is, in some embodiments of the utility model, such implementation details are not necessary. In addition, some conventional structures and components are shown in simplified schematic form in the drawings.

It should be noted that all the directional indicators (such as up, down, left and right, front and back … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the figure), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to the first, the second, etc. in the present invention are only used for description purposes, do not particularly refer to an order or sequence, and do not limit the present invention, but only distinguish components or operations described in the same technical terms, and are not understood to indicate or imply relative importance or implicitly indicate the number of indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

For a further understanding of the contents, features and effects of the present invention, the following examples are illustrated in the accompanying drawings and described in the following detailed description:

referring to fig. 1 and 2, the multifunctional meat slicer of this embodiment includes a frame 1, a conveying mechanism 2, a first cutting mechanism 3, a second cutting mechanism 4, an output mechanism 5 and a driving mechanism 6, wherein the conveying mechanism 2 is detachably disposed at one side of the frame 1 for being intermittently driven and conveying meat to be sliced, the first cutting mechanism 3 is disposed at a discharge end of the conveying mechanism 2 for being driven and transversely cutting the meat conveyed thereto by the conveying mechanism 2, the second cutting mechanism 4 is disposed at a discharge end of the first cutting mechanism 3 for being intermittently driven and longitudinally cutting the meat sliced by the first cutting mechanism 3, the output mechanism 5 is disposed at a discharge end of the second cutting mechanism 4 for being driven and outputting the meat sliced by the second cutting mechanism 4, the driving mechanism 6 includes a first driving assembly 61 and a second driving assembly 62, the first driving assembly 61 is used for driving the conveying mechanism 2, and the second driving assembly 62 is used for driving the meat sliced by the conveying mechanism 2, A first cutting mechanism 3 and a second cutting mechanism 4, and a second drive assembly 62 for driving the output mechanism 5.

Referring to fig. 1, in the embodiment, the conveying mechanism 2 includes a conveyor belt assembly 21, a pressing assembly 22, a conveying transmission assembly 23, a pressing transmission assembly 24 and a quick release rod 25, the conveyor belt assembly 21 is detachably disposed on the frame 1 through the quick release rod 25, the conveying transmission assembly 23 is in transmission connection with the conveyor belt assembly 21 and is intermittently driven by a first driving assembly 61 to drive the conveyor belt assembly 21 to intermittently operate, the pressing assembly 22 is disposed on the conveyor belt assembly 21 and located above the conveyor belt assembly 21, and the pressing transmission assembly 24 is in transmission connection with the conveying transmission assembly 23 and is driven by the conveying transmission assembly 23 to drive the pressing assembly 22 to operate.

Referring to fig. 2, in a specific application, the conveyor belt assembly 21 includes a first conveyor belt 211, a driving conveyor roller 212, a driven conveyor roller 213 and a conveyor bracket 214, the driving conveyor roller 212 and the driven conveyor roller 213 are rotatably connected to the conveyor bracket 214, the driving conveyor roller 212 is in transmission connection with the conveyor transmission assembly 23, the first conveyor belt 211 rolls along the driving conveyor roller 212 and the driven conveyor roller 213, the quick release rod 25 passes through the driving conveyor roller 212 and is rotatably connected to the frame 1, one end of the conveyor bracket 214 close to the driven conveyor roller 213 is supported on the frame 1, and the quick release rod 25 is pulled out from the driving conveyor roller 212, so that the conveyor belt assembly 21 can be separated from the frame 1. The conveying transmission assembly 23 is intermittently driven by the first driving assembly 61, the conveying transmission assembly 23 drives the active conveying roller 212 to rotate when being driven, and the active conveying roller 212 drives the first conveying belt 211 to rotate, so that the first conveying belt 211 intermittently conveys the meat to be cut to the first cutting mechanism 3, and the meat is intermittently conveyed, so that a user can obtain the required length of the meat blocks.

Referring to fig. 2, in the present embodiment, the pressing assembly 22 includes a pressing support 221, a plurality of pressing conveyor belts 222, a pressing driving shaft 223, a plurality of belt supports 224, a plurality of gas springs 225, a spring shaft 226, and a support shaft 227, the pressing support 221 is disposed on the frame 1, the pressing driving shaft 223 is rotatably connected to the pressing support 221 and is in transmission connection with the pressing transmission assembly 24, the spring shaft 226 and the support shaft 227 are disposed on the pressing support 221, the upper ends of the plurality of belt supports 224 are connected to the support shaft 227, the other ends of the plurality of belt supports are provided with the belt shaft and a spring seat, each pressing conveyor belt 222 rolls on the pressing driving shaft 223 and the corresponding belt shaft, the upper ends of the plurality of gas springs 225 are connected to the spring shaft 226, and the other ends of the plurality of gas springs 225 are connected to the spring seat. When the pressing driving shaft 223 is driven by the pressing transmission assembly 24, the plurality of pressing conveyer belts 222 roll on the pressing driving shaft 223 and the corresponding belt shafts, due to the existence of the pressing support 221, the height of the pressing driving shaft 223 is higher than that of the upper surface of the first conveyer belt 211, the upper ends of the plurality of pressing conveyer belts 222 are higher than that of the upper surface of the first conveyer belt 211, the lower ends of the plurality of pressing conveyer belts 222 are abutted against the upper surface of the first conveyer belt 211, and when the first conveyer belt 211 and the plurality of pressing conveyer belts 222 are driven simultaneously, the meat to be cut passes through between the first conveyer belt 211 and the plurality of pressing conveyer belts 222 and is conveyed to the first cutting mechanism 3; due to the existence of the gas spring 225, the lower ends of the plurality of pressing conveyer belts 222 are abutted to the upper surface of the first conveyer belt 211, and when meat to be cut passes through, the extrusion force of the meat to be cut on the pressing conveyer belts 222 is buffered, so that the meat to be cut can pass between the first conveyer belt 211 and the plurality of pressing conveyer belts 222 without being extruded and deformed.

Referring to fig. 3 and 4, in the present embodiment, the conveying transmission assembly 23 includes a transmission connection plate 231, a transmission connection plate 232, a transmission rod 233, a conveying driving shaft 234, a conveying driving wheel 235 and a conveying driving wheel 236, one end of the transmission connection plate 231 is rotatably connected to the frame 1, the other end is connected to the first driving assembly 61, used for being driven by the first driving component 61 and rotating, a transmission connecting plate 232 is arranged on the transmission connecting plate 231, the lower end of a transmission rod 233 is rotationally connected with the transmission connecting plate 232, the upper end of the transmission rod 233 is connected with a conveying driving shaft 234 through a one-way bearing, for driving the conveying driving shaft 234 to rotate when the end of the transmission connecting plate 231 connected with the first driving assembly 61 is pushed downward, the conveying driving shaft 234 is rotatably connected to the housing 1, the other end of the driving roller is connected with a conveying driving wheel 235, and a conveying driving wheel 236 is arranged on the driving conveying roller 212 of the conveying belt component 21 and is in transmission connection with the conveying driving wheel 235. In the initial state, the transmission connecting plate 231 is in the horizontal position, the action end of the first cutting mechanism 3 is at the lowest end, when the first driving assembly 61 is started, the first cutting mechanism 3 needs to be lifted upwards, the end of the transmission connecting plate 231 connected with the first driving assembly 61 is lifted upwards, since the conveying mechanism 2 does not need to convey the meat to be cut to the first cutting mechanism 3 in the process of lifting the first cutting mechanism 3 upwards, the transmission rod 233 rotates under the action of the transmission connecting plate 232 in the process of lifting the first cutting mechanism 3 upwards, but the transmission driving shaft 234 cannot be driven by the transmission rod 233 due to the one-way bearing between the transmission rod 233 and the transmission driving shaft 234, and in the process of driving the first cutting mechanism 3 to move downwards by the first driving assembly 61, the end of the transmission connecting plate 231 connected with the first driving assembly 61 is pushed downwards and rotates around the end of the transmission connecting plate connected with the first driving assembly 1, the transmission connecting plate 232 rotates along with the transmission connecting plate 231, the transmission rod 233 rotates, at this time, the transmission rod 233 can drive the transmission driving shaft 234 to rotate through the one-way bearing, the transmission driving shaft 234 rotates and drives the transmission driving wheel 235 to rotate, the transmission driving wheel 235 drives the transmission driving wheel 236 to rotate through a chain, the transmission driving wheel 236 is arranged on the driving transmission roller 212, the transmission driving wheel 236 drives the driving transmission roller 212 to rotate, the first transmission belt 211 rolls along the driving transmission roller 212 and the driven transmission roller 213 and transmits meat to the first cutting mechanism 3, and when the first cutting mechanism 3 moves to the lowest end, the action end of the first transmission belt acts on the meat and cuts the meat. Since the conveying drive shaft 234 is driven and rotated only when the first cutting mechanism 3 moves downward, the rotation of the conveying drive shaft 234 is intermittent, the driving of the conveying mechanism 2 is also intermittent, and the conveying of meat by the conveying mechanism 2 to the first cutting mechanism 3 is also intermittent.

Referring to fig. 3, in the embodiment, the conveying transmission assembly 23 further includes a screw assembly 237, the screw assembly 237 is disposed on the transmission connecting plate 231, the transmission link 232 is adjustably disposed on the screw assembly 237, and the distance moved each time the conveying mechanism 2 is intermittently driven can be adjusted by adjusting the position of the transmission link 232 on the screw assembly 237.

Referring to fig. 3, in a specific application, the screw assembly 237 includes a screw 2371, two screw seats 2372 and a screw adjustor 2373, the two screw seats 2372 are respectively disposed at two ends of the transmission connecting plate 231, the screw 2371 is rotatably connected to the screw seats 2372, the screw adjustor 2373 is disposed on one of the screw seats 2372 and acts on the screw 2371, the screw adjustor 2373 is rotated to separate the lower end of the screw adjustor 2373 from the screw 2371, and then the screw 2371 is rotated to slide the transmission connecting plate 232 on the screw 2371, so that the position of the transmission connecting plate 232 on the screw 2371 is changed, when the transmission connecting plate 231 is driven by the first driving assembly 61 and rotates around one end thereof pivotally connected to the frame 1, the transmission connecting plate 232 rotates along with the transmission connecting plate 231, because the transmission connecting plate 232 is differently positioned on the transmission connecting plate 231, when the transmission connecting plate 232 rotates along with the transmission connecting plate 231, the distance moving in the height direction thereof is changed, since the amplitude of the swing of the driving link 233 is also changed, the angle of the driving link 233 driving the conveying driving shaft 234 to rotate is changed, and thus the moving distance of the conveying mechanism 2 is also changed when it is driven intermittently.

Referring to fig. 5, in the present embodiment, the pressing transmission assembly 24 includes a pressing driving shaft 241, a pressing transmission shaft 242, a pressing driving sprocket 243, and a pressing transmission gear 244, the pressing device comprises a pressing follow-up gear 245, a pressing output chain wheel 246, a pressing input chain wheel 247 and a conveying output chain wheel 248, wherein a pressing driving shaft 241 and a pressing transmission shaft 242 are rotatably connected to the frame 1, a pressing driving chain wheel 243 and a pressing transmission gear 244 are arranged on the pressing driving shaft 241, the pressing follow-up gear 245 and the pressing output chain wheel 246 are respectively arranged at two ends of the pressing transmission shaft 242, the pressing input chain wheel 247 is arranged on a pressing driving shaft 223 of the pressing assembly 22, the conveying output chain wheel 248 is arranged on a driving conveying roller 212 of the conveying belt assembly 21, the pressing driving chain wheel 243 is in transmission connection with the conveying output chain wheel 248, the pressing transmission gear 244 is in transmission connection with the pressing follow-up gear 245, and the pressing output chain wheel 246 is in transmission connection with the pressing input chain wheel 247. When the drive conveyor roller 212 is driven and rotated by the conveyor drive assembly 23, the conveyor output sprocket 248 rotates with the drive conveyor roller 212, the chain drives the material pressing driving chain wheel 243 to rotate, the material pressing driving chain wheel 243 drives the material pressing driving shaft 241 to rotate, the pressing transmission gear 244 rotates along with the pressing driving shaft 241, the pressing transmission gear 244 drives the pressing follow-up gear 245 meshed with the pressing transmission gear to rotate, the pressing follow-up gear 245 rotates and drives the pressing transmission shaft 242 to rotate, a pressing output chain wheel 246 on the pressing transmission shaft 242 rotates along with the pressing transmission shaft 242, meanwhile, the pressing output chain wheel 246 drives the pressing input chain wheel 247 to rotate through a chain, the pressing input chain wheel 247 rotates and drives the pressing driving shaft 223 of the pressing assembly 22 to rotate, each pressing conveying belt 222 rolls on the pressing driving shaft 223 and the corresponding belt shaft, and cooperates with the first conveyor belt 211 to convey the meat passing therebetween toward the first cutting mechanism 3.

Referring to fig. 1 and 3, in the present embodiment, the first cutting mechanism 3 includes a cutter connecting plate 31 and a first cutter 32, the first cutter 32 is disposed on the cutter connecting plate 31, the cutter connecting plate 31 is connected to a first driving assembly 61, and when the first driving assembly 61 is activated, the first driving assembly 61 drives the cutter to move up and down to cut the meat conveyed thereto.

Referring to fig. 2, in the present embodiment, the first driving assembly 61 includes a first driving motor 611, a driving swing rod 612, a driving link 613, a driving connection plate 614, two lifting shafts 615 and two driving racks 616, the first driving motor 611 is disposed on the frame 1, a driving end of the first driving motor 611 is connected to one end of the driving swing rod 612 and can drive the driving swing rod 612 to rotate, a lower end of the driving link 613 is connected to the other end of the driving swing rod 612 and is driven to swing up and down when the driving swing rod 612 rotates, the driving connection plate 614 is connected to the driving swing rod 612, the two lifting shafts 615 are connected to two sides of the driving connection plate 614, the first cutting mechanism 3 is connected to an upper end of the lifting shaft 615 and moves up and down along with the lifting shaft 615, the two driving racks 616 are connected to the first cutting mechanism 3 and move up and down along with the first cutting mechanism 3, the conveying mechanism 2 is connected to a lower end of the lifting shaft 615, and is driven when the lifting shaft 615 moves downwards, and the second cutting mechanism 4 is in transmission connection with the driving rack 616 and operates under the driving of the driving rack 616. In a specific application, the cutter connecting plate 31 is connected with two lifting shafts 615, two driving racks 616 are arranged at two sides of the cutter connecting plate 31, the transmission connecting plate 231 is connected with the lower end of one of the lifting shafts 615, when the first driving motor 611 is started, the driving swing rod 612 is driven and rotates, because the connection part of the driving connecting rod 613 and the driving swing rod 612 deviates from the driving shaft of the first driving motor 611, the driving connecting rod 613 moves up and down in the process of driving the swing rod 612 to rotate, when the end of the driving swing rod 612 connected with the driving connecting rod 613 rotates to the top, the lower end of the driving connecting rod 613 moves to the top, when the end of the driving swing rod 612 connected with the driving connecting rod 613 starts to swing from the bottom to the bottom, the lower end of the driving connecting rod 613 starts to move down, the driving swing rod 612 rotates along with the first driving motor 611, and the driving connecting rod 613 reciprocates, and in the process of the driving connecting rod 613 reciprocates, the driving connecting plate 614 moves up and down along with the driving connecting rod 613, and drives the two lifting shafts 615 to move up and down, so that the first cutting mechanism 3 connected with the two lifting shafts 615 moves up and down, and simultaneously the transmission connecting plate 231 connected to the lower ends of the two lifting shafts 615 swings and the two driving racks 616 connected to the two sides of the cutter connecting plate 31 move up and down, when the end of the transmission connecting plate 231 connected with the lifting shafts 615 swings down, the transmission driving shaft 234 rotates and drives the active transmission roller 212 to rotate, the active transmission roller 212 drives the pressing driving shaft 223 to rotate, so that the transmission mechanism 2 intermittently transmits meat to the first cutting mechanism 3, and the two driving racks 616 move up and down and drive the second cutting mechanism 4 to operate, and perform secondary cutting on the meat.

Referring to fig. 2, in the present embodiment, the second cutting mechanism 4 includes a cutter shaft 41, a plurality of second cutters 42, a comb 43 and a one-way bearing 44, the cutter shaft 41 is rotatably connected to the frame 1 through the one-way bearing 44, the one-way bearing 44 is connected to the driving mechanism 6 and is configured to be driven by the driving mechanism 6 and always rotate clockwise, the plurality of second cutters 42 are disposed on the cutter shaft 41, the comb 43 is disposed on the frame 1 and is provided with a plurality of limiting grooves, and each second cutter 42 corresponds to one limiting groove and rotates in the limiting groove when rotating along with the cutter shaft 41. Referring to fig. 7, in a specific application, the number of the one-way bearings 44 is two, one end of the cutter shaft 41 is provided with a cutting driving gear 411, the other end of the cutter shaft is provided with a cutting follow-up gear 412, the cutting driving gear 411 and the cutting follow-up gear 412 are both connected with the one-way bearings 44, the frame 1 is provided with a shaft gear 11 and a synchronizing gear 12, the cutting driving gear 411 is engaged with the driving rack 616 and rotates back and forth when the driving rack 616 moves up and down along with the first cutting mechanism 3, the shaft gear 11 is engaged with the driving rack 616, and the synchronizing gear 12 is arranged on a shaft of the shaft gear 11 and engaged with the cutting follow-up gear 412. When the two driving racks 616 move downward, the cutting pinion gear 411 is driven by the driving racks 616 and rotates clockwise, thereby rotating the cutter shaft 41 clockwise, the upper plurality of second cutters 42 of the cutter shaft 41 rotate with the cutter shaft 41 and cut meat, when the two driving racks 616 move upward, the shaft gear 11 is driven and rotates counterclockwise, the synchronizing gear 12 rotates counterclockwise with the shaft gear 11 and drives the cutting follower gear 412 to rotate clockwise, the cutter shaft 41 rotates with the cutting follower gear 412 and cuts meat, that is, the driving racks 616 move up and down without stopping the first cutting mechanism 3, when the driving racks 616 move downward, the cutting pinion gear 411 is driven by the driving racks 616 and rotates clockwise, when the driving racks 616 move upward, the cutting follower gear 412 is driven by the synchronizing gear 12 and rotates clockwise, regardless of whether the driving racks 616 move upward or downward, due to the one-way bearing 44, the cutter shaft 41 always keeps rotating clockwise, and drives the second cutter 42 thereon to rotate clockwise and cut the meat.

Referring to fig. 5, in the embodiment, the second driving assembly 62 includes a second driving motor 621, a sprocket 622, and a sprocket follower wheel 623, the second driving motor 621 is disposed on the frame 1, a driving end of the second driving motor 621 is connected to the sprocket 622, the sprocket follower wheel 623 is disposed on the output mechanism 5 and is connected to the sprocket 622 through a chain, and when the second driving motor 621 is started, the sprocket 622 rotates along with an output end of the second driving motor 621 and drives the sprocket follower wheel 623 to rotate, so as to drive the output mechanism 5 to operate.

Referring to fig. 2 and fig. 6, in the present embodiment, the output mechanism 5 includes a second conveyor belt 51, a driving output roller 52 and a driven output roller 53, the driving output roller 52 and the driven output roller 53 are rotatably connected to the frame 1, the second conveyor belt 51 rolls along the driving output roller 52 and the driven output roller 53, a sprocket follower wheel 623 is disposed on the driving output roller 52, and when the second driving motor 621 drives the sprocket follower wheel 623 to rotate through a sprocket 622, the driving output roller 52 rotates, and the second conveyor belt 51 rolls along the driving output roller 52 and the driven output roller 53, so as to output the cut meat.

The present invention is not limited to the above preferred embodiments, and any modification, equivalent replacement or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A multifunctional meat slicer, comprising:

a frame (1);

the conveying mechanism (2) is detachably arranged on one side of the rack (1) and is used for being intermittently driven and conveying meat to be cut;

the first cutting mechanism (3) is arranged at the discharge end of the conveying mechanism (2) and is used for driving and transversely cutting the meat conveyed to the first cutting mechanism by the conveying mechanism (2);

the second cutting mechanism (4) is arranged at the discharge end of the first cutting mechanism (3) and is used for being driven and longitudinally cutting the meat cut by the first cutting mechanism (3);

the output mechanism (5) is arranged at the discharge end of the second cutting mechanism (4) and is used for being driven and outputting the meat cut by the second cutting mechanism (4);

a drive mechanism (6) comprising a first drive assembly (61) and a second drive assembly (62), the first drive assembly (61) being for driving the conveyor mechanism (2), the first cutting mechanism (3) and the second cutting mechanism (4), the second drive assembly (62) being for driving the output mechanism (5).

2. The multifunctional meat cutting machine according to claim 1, wherein the conveying mechanism (2) comprises a conveying belt assembly (21), a pressing assembly (22), a conveying transmission assembly (23), a pressing transmission assembly (24) and a quick release rod (25), the conveying belt assembly (21) is detachably arranged on the rack (1) through the quick release rod (25), the conveying transmission assembly (23) is in transmission connection with the conveying belt assembly (21) and is used for being intermittently driven by the first driving assembly (61) to drive the conveying belt assembly (21) to intermittently operate, the pressing assembly (22) is arranged on the conveying belt assembly (21) and is positioned above the conveying belt assembly (21), the pressing transmission assembly (24) is in transmission connection with the conveying transmission assembly (23) and is used for being driven by the conveying transmission assembly (23), so as to drive the pressing component (22) to operate.

3. The multifunctional meat cutting machine according to claim 2, wherein the conveyor belt assembly (21) comprises a first conveyor belt (211), a driving conveyor roller (212), a driven conveyor roller (213) and a conveyor bracket (214), the driving conveyor roller (212) and the driven conveyor roller (213) are rotatably connected to the conveyor bracket (214), the driving conveyor roller (212) is in transmission connection with the conveyor transmission assembly (23), the first conveyor belt (211) rolls along the driving conveyor roller (212) and the driven conveyor roller (213), the quick release rod (25) passes through the driving conveyor roller (212) and is rotatably connected to the frame (1), one end of the conveyor bracket (214) close to the driven conveyor roller (213) is supported on the frame (1) to draw the quick release rod (25) out of the driving conveyor roller (212), the conveyor belt assembly (21) can be detached from the frame (1).

4. The multifunctional meat cutting machine according to claim 2, wherein the pressing assembly (22) comprises a pressing support (221), a plurality of pressing conveyor belts (222), a pressing driving shaft (223), a plurality of belt supports (224), a plurality of gas springs (225), a spring shaft (226) and a support shaft (227), the pressing support (221) is arranged on the machine frame (1), the pressing driving shaft (223) is rotatably connected to the pressing support (221) and is in transmission connection with the pressing transmission assembly (24), the spring shaft (226) and the support shaft (227) are arranged on the pressing support (221), the upper ends of the plurality of belt supports (224) are connected with the support shaft (227), the other end of each belt support is provided with a belt shaft and a spring seat, each pressing conveyor belt (222) rolls on the driving shaft (223) and the corresponding belt shaft, the upper ends of the plurality of gas springs (225) are connected with the spring shafts (226), and the other ends of the plurality of gas springs are connected with the spring seats.

5. The multifunctional meat cutting machine according to claim 2, wherein the conveying transmission assembly (23) comprises a transmission connecting plate (231), a transmission connecting plate (232), a transmission rod (233), a conveying driving shaft (234), a conveying driving wheel (235) and a conveying driving wheel (236), one end of the transmission connecting plate (231) is rotatably connected with the frame (1), the other end of the transmission connecting plate is connected with the first driving assembly (61) and is used for being driven by the first driving assembly (61) and rotating, the transmission connecting plate (232) is arranged on the transmission connecting plate (231), the lower end of the transmission rod (233) is rotatably connected with the transmission connecting plate (232), the upper end of the transmission rod (233) is connected with the conveying driving shaft (234) through a one-way bearing and is used for driving the conveying driving shaft (234) to rotate when the end of the transmission connecting plate (231) connected with the first driving assembly (61) is pushed downwards, the conveying driving shaft (234) is rotatably connected to the rack (1), the other end of the conveying driving shaft is connected with the conveying driving wheel (235), and the conveying driving wheel (236) is arranged on the conveying belt assembly (21) and is in transmission connection with the conveying driving wheel (235).

6. A multi-purpose meat slicer according to claim 5, wherein the conveying drive assembly (23) further comprises a screw assembly (237), the screw assembly (237) being provided on the drive link plate (231), the drive link plate (232) being adjustably provided on the screw assembly (237), adjusting the position of the drive link plate (232) on the screw assembly (237) adjusting the distance each time the conveyor mechanism (2) is intermittently driven.

7. The multifunctional meat cutting machine according to claim 2, wherein the pressing transmission assembly (24) comprises a pressing driving shaft (241), a pressing transmission shaft (242), a pressing driving sprocket (243), a pressing transmission gear (244), a pressing follower gear (245), a pressing output sprocket (246), a pressing input sprocket (247) and a conveying output sprocket (248), the pressing driving shaft (241) and the pressing transmission shaft (242) are rotatably connected to the frame (1), the pressing driving sprocket (243) and the pressing transmission gear (244) are arranged on the pressing driving shaft (241), the pressing follower gear (245) and the pressing output sprocket (246) are respectively arranged at two ends of the pressing transmission shaft (242), the pressing input sprocket (247) is arranged on the pressing assembly (22), and the conveying output sprocket (248) is arranged on the conveying belt assembly (21), the pressing driving chain wheel (243) is in transmission connection with the conveying output chain wheel (248), the pressing transmission gear (244) is in transmission connection with the pressing follow-up gear (245), and the pressing output chain wheel (246) is in transmission connection with the pressing input chain wheel (247).

8. The multifunctional meat cutting machine according to claim 1, wherein the first driving assembly (61) comprises a first driving motor (611), a driving swing rod (612), a driving connecting rod (613), a driving connecting plate (614), two lifting shafts (615) and two driving racks (616), the first driving motor (611) is arranged on the frame (1), the driving end of the first driving motor is connected with one end of the driving swing rod (612) and can drive the driving swing rod (612) to rotate, the lower end of the driving connecting rod (613) is connected with the other end of the driving swing rod (612) and is driven by the driving swing rod (612) to swing up and down when the driving swing rod (612) rotates, the driving connecting plate (614) is connected with the driving swing rod (612), the two lifting shafts (615) are connected to two sides of the driving connecting plate (614), and the first cutting mechanism (3) is connected to the upper end of the lifting shafts (615) and moves up and down along with the lifting shafts (615) And the two driving racks (616) are connected with the first cutting mechanism (3) and move up and down along with the first cutting mechanism (3), the conveying mechanism (2) is connected with the lower end of the lifting shaft (615) and is driven when the lifting shaft (615) moves down, and the second cutting mechanism (4) is in transmission connection with the driving racks (616) and operates under the driving of the driving racks (616).

9. The multifunctional meat cutter according to claim 8, wherein the second cutting mechanism (4) comprises a cutter shaft (41), a plurality of second cutters (42), a comb (43) and a one-way bearing (44), the cutter shaft (41) is rotatably connected to the frame (1) through the one-way bearing (44), the one-way bearing (44) is connected to the driving mechanism (6) and is driven by the driving mechanism (6) and always keeps rotating clockwise, the plurality of second cutters (42) are arranged on the cutter shaft (41), the comb (43) is arranged on the frame (1) and is provided with a plurality of limiting grooves, and each second cutter (42) corresponds to one limiting groove and rotates in the limiting groove when rotating along with the cutter shaft (41).

10. The multifunctional meat cutter according to claim 9, wherein one end of the cutter shaft (41) is provided with a cutting driving gear (411) and the other end is provided with a cutting follow-up gear (412), the frame (1) is provided with a shaft gear (11) and a synchronizing gear (12), the cutting driving gear (411) is engaged with the driving rack (616) and rotates back and forth when the driving rack (616) moves up and down along with the first cutting mechanism (3), the shaft gear (11) is engaged with the driving rack (616), and the synchronizing gear (12) is arranged on the shaft of the shaft gear (11) and engaged with the cutting follow-up gear (412).

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