CN108858346B

CN108858346B - Vertical slicer

Info

Publication number: CN108858346B
Application number: CN201810833186.7A
Authority: CN
Inventors: 刘云江; 王挺; 阮向朋
Original assignee: Binzhou Hongruixiang Industry And Trade Co ltd; Hai Di Lao Holdings Pte Ltd
Current assignee: Binzhou Hongruixiang Industry And Trade Co ltd; Hai Di Lao Holdings Pte Ltd
Priority date: 2018-07-25
Filing date: 2018-07-25
Publication date: 2020-12-11
Anticipated expiration: 2038-07-25
Also published as: CN108858346A

Abstract

The embodiment of the invention provides a vertical slicing machine, and relates to the field of machine manufacturing. Wherein, through right the ingenious design of the section system in the vertical slicer, can realize the section operation to the material of the different passageways of multilayer simultaneously, effectively improve section efficiency, ensure the section quality.

Description

Vertical slicer

Technical Field

The embodiment of the invention relates to the technical field of machine manufacturing, in particular to a vertical slicing machine.

Background

The existing slicing machine, particularly the slicing machine for a hot pot shop, mainly slices through a disc machine, and although the disc machine is simple in structure, the disc machine is low in working efficiency, high in requirement on the external environment and serious in waste.

Disclosure of Invention

In view of this, the present invention provides a vertical slicer to effectively solve the above problems and improve slicing efficiency.

In order to achieve the above object, an embodiment of the present invention provides a vertical slicer, which includes a frame assembly, a slicing system, and at least one pressing device, where the slicing system includes a motor assembly, a first rocker arm, a second rocker arm, a first connecting rod, a second connecting rod, a first pull rod, a second pull rod, and a slicing mechanism including multiple layers of slicing assemblies, the motor assembly includes a slicing motor, and a first motor shaft and a second motor shaft disposed on two sides of the slicing motor, and the pressing devices correspond to the slicing assemblies in number one by one;

one end of the first rocker arm is connected with the first motor shaft, the other end of the first rocker arm is connected with the first connecting rod, one end of the second rocker arm is connected with the second motor shaft, the other end of the second rocker arm is connected with the second connecting rod, the free end of the first connecting rod is connected with one end of the first pull rod, the free end of the second connecting rod is connected with one end of the second pull rod, the free end of the first pull rod and the free end of the second pull rod are respectively connected with the slicing mechanism, and the slicing motor and the pressing device are installed on the rack assembly;

the first motor shaft and the second motor shaft are driven by the slicing motor to drive the first rocker arm and the second rocker arm to rotate, and drive the first connecting rod to do circular motion around the first motor shaft and the second connecting rod to do circular motion around the second motor shaft, so that the first pull rod, the second pull rod and the slicing mechanism are driven to do reciprocating motion relative to the rack assembly to achieve slicing operation of materials to be sliced.

In an option of the preferred embodiment of the present invention, the rack assembly includes a base assembly and a support assembly, the base assembly mounting a plurality of feet for leveling the vertical slicer and a plurality of casters for moving the vertical slicer; the motor component is arranged on the base component, and the pressing device is arranged on the supporting component.

In an option of a preferred embodiment of the present invention, each slicing assembly includes a tool rest and at least one blade mounted on the tool rest, the support assembly includes a support frame and at least one support plate, the support frame includes a first support portion, a second support portion and a cross beam, a tool rest seat is disposed at a position where the first support portion and the second support portion are opposite, and a through hole for the first connecting rod and the second connecting rod to pass through is formed in the tool rest seat;

the first supporting part with the second supporting part sets up in opposite directions, just the first supporting part with the both ends of second supporting part respectively with the crossbeam the base subassembly is connected, at least one the backup pad set up in first supporting part with the second supporting part, first connecting rod passes knife rest seat on the first supporting part with the knife rest is connected, the second connecting rod passes knife rest seat on the second supporting part with the knife rest is connected.

In an option of the preferred embodiment of the present invention, each of the pressing devices includes a pressing plate, an elastic device, and a connecting rod; the one end of connecting rod with the one end of spring exerciser connect respectively in the crossbeam the other end of connecting rod with the other end of spring exerciser connect respectively in press the flitch, just the connecting rod with the spring exerciser is located press the same one side of flitch, press the flitch with there is the clearance that is used for placing the material of waiting to cut the piece between the backup pad, wherein, press the flitch can wind under the effect of external force the connecting rod with the junction of pressing the flitch rotates.

In an option of the preferred embodiment of the present invention, the spring device includes a spring hook piece and a spring, two ends of the spring hook piece are respectively connected to the pressure plate and the spring, and the spring is connected to the cross beam.

In an option of a preferred embodiment of the present invention, the vertical slicer further includes at least one pushing device for pushing the material to be sliced to the pressing device, the pushing device includes a pushing motor, a connecting shaft and a pusher, two ends of the connecting shaft are respectively connected to the pushing motor and the pusher, and the pushing motor is mounted on the base assembly;

the connecting shaft is used for driving the material pushing device to move towards the pressing device under the driving of the material pushing motor so as to push the material to be sliced to the pressing device for slicing preparation.

In the selection of the preferred embodiment of the invention, the vertical slicer further comprises a weighing device for weighing the materials sliced by the slicing system, wherein the weighing device comprises a gravity detection device, a bearing frame, a supporting nylon sleeve, a taper nylon cover, a weighing taper pin, a weighing base and a receiving shovel;

the bearing frame install in the frame subassembly, gravity detection device install in the bearing frame just is located the bearing frame with between the frame subassembly, the pedestal mounting of weighing in the bearing frame is kept away from one side of gravity detection device, connect the material shovel install in the base of weighing is kept away from one side of bearing frame, wherein, support nylon cover, tapering nylon cover and weigh the toper round pin and stack in proper order in the base of weighing with between the bearing frame.

In an option of the preferred embodiment of the present invention, the vertical slicer further includes an electrical control system, the electrical control system is connected to the gravity detection device and the slicing motor, respectively, and the electrical control system is configured to control an operation state of the slicing motor according to the gravity signal sent by the gravity detection device.

In an option of a preferred embodiment of the present invention, the electrical control system includes a control cabinet, a controller, a switch, and a display screen, the controller is connected to the slicing motor, the switch, and the display screen, respectively, and the controller is disposed inside the control hole, and the switch and the display screen are respectively located on an outer surface of the display screen.

In an option of a preferred embodiment of the present invention, the vertical slicer further includes a refrigeration system, the refrigeration system includes a refrigeration box, a discharge refrigeration door, and at least one compressor unit, the refrigeration box is disposed on the rack assembly, the material pressing device, the slicing system, the material pushing device, the weighing device, and the at least one compressor unit are all located in the refrigeration box, the discharge refrigeration door and the discharge refrigeration door are mounted in the refrigeration box, and the at least one compressor unit is connected to the electrical control system.

Compared with the prior art, the invention provides the vertical slicing machine, wherein the slicing operation of materials in different channels in multiple layers can be simultaneously realized through the ingenious design of the slicing system, the slicing efficiency is effectively improved, and the slicing quality is ensured. In addition, the weighing device and the refrigerating system are arranged in the vertical slicing machine, so that the intelligent control of the slicing process and the cutting quality can be further improved.

Furthermore, the vertical slicing machine provided by the invention is simple to operate, low in failure rate, capable of realizing stable propulsion and efficient slicing.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram of a vertical slicer according to an embodiment of the present invention.

Fig. 2 is another schematic structural diagram of a vertical slicer according to an embodiment of the present invention.

Fig. 3 is a schematic structural view of the slicing system shown in fig. 1.

Fig. 4 is a schematic structural view of the pressing device shown in fig. 1.

Fig. 5 is another schematic structural view of the pressing device shown in fig. 1.

Fig. 6 is a schematic view of the pressing effect of the pressing device shown in fig. 5.

Fig. 7 is a schematic view of the weighing apparatus shown in fig. 1.

Fig. 8 is a schematic block diagram of an electrical control system according to an embodiment of the present invention.

Fig. 9 is a schematic view of another structure of the vertical slicer according to the embodiment of the present invention.

Icon: 10-vertical slicer; 20-a rack assembly; 21-a base assembly; 22-a support assembly; 220-a first support part; 221-a second support; 222-a beam; 23-footing; 24-a caster wheel; 30-a pressing device; 31-a material pressing plate; 32-a spring exerciser; 33-a connecting rod; 34-pressing an aluminum seat; 35-a linear rod; 36-a first compression spring; 37-a second compression spring; 38-pressing and inserting plate; 40-a slicing system; 41-a motor assembly; 410-a slicing motor; 411-a first motor shaft; 412-a second motor shaft; 43-a second rocker arm; 44-a first link; 45-a second link; 46-a first pull rod; 47-a second pull rod; 48-a slicing assembly; 481-tool rest; 50-a material pushing device; 51-a pushing motor; 52-pusher; 60-a weighing device; 61-gravity detection means; 62-a bearing frame; 63-supporting a nylon sleeve; a 64-taper nylon cover; 65-weighing conical pins; 66-weighing base; 67-material receiving shovel; 70-an electrical control system; 71-a control cabinet; 72-a controller; 73-a switch; 74-display screen; 80-a refrigeration system; 81-refrigeration box body; 82-discharge refrigeration door; 83-discharge refrigeration door; 84-compressor train; 90-material to be sliced.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. The components of embodiments of the present invention 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 present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, unless otherwise expressly specified or limited, the terms "disposed," "connected," and "connected" are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1, 2 and 3, an embodiment of the invention provides a vertical slicer 10 for slicing a material 90 to be sliced, wherein the material 90 to be sliced may be, but is not limited to, beef and mutton. The vertical slicing machine 10 comprises a rack assembly 20, a slicing system 40 and at least one pressing device 30, wherein the slicing system 40 comprises a motor assembly 41, a first rocker arm, a second rocker arm 43, a first connecting rod 44, a second connecting rod 45, a first pull rod 46, a second pull rod 47 and a slicing mechanism comprising a plurality of layers of slicing assemblies 48, the motor assembly 41 comprises a slicing motor 410 and a first motor shaft 411 and a second motor shaft 412 which are arranged on two sides of the slicing motor 410, and the pressing devices 30 correspond to the slicing assemblies 48 in number one to one.

One end of the first rocker arm is connected with the first motor shaft 411, the other end of the first rocker arm is connected with the first connecting rod 44, one end of the second rocker arm 43 is connected with the second motor shaft 412, the other end of the second rocker arm is connected with the second connecting rod 45, the free end of the first connecting rod 44 is connected with one end of the first pull rod 46, the free end of the second connecting rod 45 is connected with one end of the second pull rod 47, the free end of the first pull rod 46 and the free end of the second pull rod 47 are respectively connected with the slicing mechanism, and the slicing motor 410 and the pressing device 30 are mounted on the rack assembly 20;

in this embodiment, the first motor shaft 411 and the second motor shaft 412 are driven by the slicing motor 410 to drive the first rocker arm and the second rocker arm 43 to rotate, and drive the first connecting rod 44 to make a circular motion around the first motor shaft 411 and the second connecting rod 45 to make a circular motion around the second motor shaft 412, so as to drive the first pull rod 46, the second pull rod 47 and the slicing mechanism to make a reciprocating motion relative to the frame assembly 20 to slice the material 90 to be sliced. Compared with the prior art, the vertical slicer 10 provided in the embodiment realizes simultaneous slicing operation of the materials to be sliced 90 by arranging the plurality of pressing devices 30 and the slicing mechanism comprising the multilayer slicing assembly 48, so that slicing efficiency can be greatly improved, and slicing quality is ensured.

In detail, referring again to fig. 1, the frame assembly 20 includes a base assembly 21 and a support assembly 22, the base assembly 21 being mounted with a plurality of feet 23 for leveling the slicer and a plurality of casters 24 for moving the slicer; the motor assembly 41 is mounted on the base assembly 21, and the slicing mechanism of the pressing device 30 is mounted on the supporting assembly 22. Alternatively, the caster wheel 24 may be, but is not limited to, a universal wheel or the like.

In this embodiment, in order to ensure that the slicing assemblies 48 in the slicing system 40 can perform a smooth and uniform up-and-down reciprocating motion relative to the rack assembly 20, each slicing assembly 48 includes a knife rest 481 and at least one blade mounted on the knife rest 481, the support assembly 22 includes a support frame and at least one support plate, the support frame includes a first support portion 220, a second support portion 221 and a cross beam 222, a knife rest seat is disposed at a position where the first support portion 220 and the second support portion 221 are opposite, and a through hole for the first connecting rod 44 and the second connecting rod 45 to pass through is formed in the knife rest seat; the first supporting portion 220 and the second supporting portion 221 are disposed opposite to each other, both ends of the first supporting portion 220 and the second supporting portion 221 are respectively connected to the beam 222 and the base assembly 21, at least one of the supporting plates is disposed on the first supporting portion 220 and the second supporting portion 221, the first link 44 passes through a tool rest seat on the first supporting portion 220 to be connected to the tool rest 481, and the second link 45 passes through a tool rest seat on the second supporting portion 221 to be connected to the tool rest 481.

In practical implementation, the through hole on the tool rest base can be used for limiting the movement track of the first pull rod 46 and the second pull rod 47 during up-and-down reciprocating movement, so as to ensure the smoothness of the slicing system 40 during slicing. It will be appreciated that the tool holder mounts on the first support portion 220 and the second support portion 221 may also be multi-layered to match a multi-layered slicing assembly 48, for example, in this embodiment, the tool holder mounts are two-layered, and the slicing assembly 48 is two-layered corresponding to the tool holder mounts, so as to achieve simultaneous slicing of materials to be sliced 90 located on different layers.

Optionally, referring to fig. 3 again, according to different actual requirements, the tool holders 481 in each slicing assembly 48 may be a plurality of tool holders arranged side by side for slicing the materials to be sliced 90 on the same layer but on different channels.

Further, for the compression fixation of materials to be sliced 90 with different shapes, in the present embodiment, the specific structure of the pressing device 30 has various forms. For example, referring to fig. 4, each of the pressing devices 30 may include a pressing plate 31, an elastic device 32, and a connecting rod 33; one end of the connecting rod 33 and one end of the spring device 32 are respectively connected to the cross beam 222, the other end of the connecting rod 33 and the other end of the spring device 32 are respectively connected to the pressure plate 31, the connecting rod 33 and the spring device 32 are located on the same side of the pressure plate 31, a gap for placing a material 90 to be sliced exists between the pressure plate 31 and the supporting plate, wherein the pressure plate 31 can rotate around the connecting rod 33 and the connecting part of the pressure plate 31 under the action of external force.

When the connecting rod 33 and the pressure plate 31 are connected, the connecting rod and the pressure plate can be rotationally connected through a connecting pin shaft. In addition, the connecting rod 33 may be formed by connecting a plurality of connecting sub-rods by a locking bolt, and the embodiment is not particularly limited herein.

Further, the practical implementation of the spring device 32 may be varied according to different practical requirements, for example, in this embodiment, the spring device 32 may include a spring hook piece and a spring, both ends of the spring hook piece are respectively connected to the pressing plate 31 and the spring, and the spring is connected to the cross beam 222. In practical application, the spring hook piece, the spring and the pressure plate 31 may be connected by, but not limited to, welding.

For another example, as shown in fig. 5 and 6, each of the pressing devices 30 may further include a pressing aluminum seat 34, a linear rod 35, a first compression spring 36, a second compression spring 37, a pressing insert plate 38, a pressing linear bearing, a connecting piece, a connecting seat, a connecting insert plate, and a cap nut. The connecting seat is mounted on the underframe assembly and/or the support assembly 22, the swaging aluminum seat 34 is provided with a swaging linear bearing and a swaging inserting plate 38, and the swaging inserting plate 38 is provided with a second compression spring 37 and a cap nut; the linear rod 35 is installed in the linear bearing, and the first compression spring 36 and the connection piece are installed at the upper part.

In this embodiment, according to different actual requirements, the two pressing devices 30 may be simultaneously disposed in different slicing channels of the same layer in the vertical slicer 10, or may be simultaneously disposed in the slicing channels of different layers, or only one pressing device 30 is installed in one vertical slicer 10, and in this embodiment, the actual arrangement manner of the pressing devices 30 in the vertical slicer 10 is not limited.

Further, in order to realize automation in the material cutting process, please refer to fig. 1 again, the vertical slicer 10 further includes at least one pushing device 50 for pushing the material 90 to be sliced to the pressing device 30, the pushing device 50 includes a pushing motor 51, a connecting shaft and a pusher 52, two ends of the connecting shaft are respectively connected to the pushing motor 51 and the pusher 52, and the pushing motor 51 is mounted on the base assembly 21; the connecting shaft is used for driving the material pusher 52 to move towards the pressing device 30 under the driving of the material pushing motor 51, so as to push the material to be sliced 90 towards the pressing device 30 for preparation of slicing.

The pusher 52 is provided with a plurality of inserts for piercing the material to be sliced 90 as shown in fig. 1, so as to avoid the problems of poor slicing effect caused by movement, deflection and the like of the material to be sliced 90 in the process of pushing the material to be sliced to the pressing device 30.

In addition, the material pushing motor 51 can select different types according to actual requirements, for example, in this embodiment, the material pushing motor 51 can be, but is not limited to, a double-screw stepping motor and the like, and the double-screw stepping motor can be used for realizing simultaneous propulsion of two channels, so that the problem of a middle seam is effectively avoided, and can also be used for realizing single propulsion of a single channel. Specifically, as shown in fig. 1, a screw seat in the dual-screw stepping motor is installed on the bottom frame assembly, a screw bearing is arranged in the screw seat, two ends of a pushing screw in the dual-screw stepping motor are installed in the screw bearing in the screw seat, a pushing screw nut is installed on the pushing screw, the pushing screw nut is installed in the pusher 52, a transmission chain wheel and a motor connecting sleeve are installed at one end of the pushing screw, the pushing screw is connected with the stepping motor through the motor connecting sleeve, and the stepping motor is installed on the bottom frame assembly.

Further, referring to fig. 7, the vertical slicer 10 further includes a weighing device 60 for weighing the sliced material in the slicing system 40, wherein the weighing device 60 includes a gravity detecting device 61, a bearing frame 62, a supporting nylon sleeve 63, a tapered nylon cover 64, a weighing tapered pin 65, a weighing base 66 and a receiving shovel 67; bearing frame 62 install in frame subassembly 20, gravity detection device 61 install in bearing frame 62 just is located bearing frame 62 with between the frame subassembly 20, the base 66 of weighing install in bearing frame 62 is kept away from one side of gravity detection device 61, connect the material shovel 67 install in the base 66 of weighing is kept away from one side of bearing frame 62, wherein, support nylon cover 63, tapering nylon cover 64 and the toper round pin 65 of weighing stack in proper order weigh base 66 with between the bearing frame 62.

In this embodiment, by setting the weighing device 60 in the vertical slicer 10, the slicing amount in each slicing channel can be accurately controlled according to the actual demand, and the waste of materials is avoided. The gravity detecting device 61 may be, but not limited to, a gravity sensor. The receiving shovel 67 is used for directly bearing the materials after slicing, so that the receiving shovel 67 can be directly placed on the weighing base 66 for the convenience of taking the materials.

Further, in order to effectively control the slicing motor 410 during the slicing process, in this embodiment, the vertical slicer 10 further includes an electrical control system 70, the electrical control system 70 is connected to the gravity detection device 61 and the slicing motor 410, respectively, and the electrical control system 70 is configured to control an operation state of the slicing motor 410 according to the gravity signal sent by the gravity detection device 61. For example, when the electrical control system 70 determines that the sliced material reaches the preset weight according to the gravity signal sent by the gravity detection device 61, the slicing motor 410 is controlled to stop operating.

Optionally, as shown in fig. 8, the electrical control system 70 includes a control cabinet 71, a controller 72, a switch 73, and a display 74, the controller 72 is connected to the slicing motor 410, the switch 73, and the display 74, respectively, and the controller 72 is disposed inside the control hole, and the switch 73 and the display 74 are located on an outer surface of the display 74, respectively.

The controller 72 is configured to implement processing on a received control signal, a gravity signal, and the like, the switch 73 may be a power switch, a slice motor 410 on/off switch, and the like, and the display 74 may be used to implement information display and instruction input, in this embodiment, the display 74 may be, but is not limited to, a touch liquid crystal display 74.

Further, in order to ensure the quality of the material, especially for meat materials such as beef and mutton, as shown in fig. 9, the vertical slicer 10 further includes a refrigeration system 80, the refrigeration system 80 includes a refrigeration box 81, an emptying refrigeration door 82, an emptying refrigeration door 83 and at least one compressor unit 84, the refrigeration box 81 is disposed in the rack assembly 20, and the pressing device 30, the slicing system 40, the pushing device 50, the weighing device 60 and the at least one compressor unit 84 are all located in the refrigeration box 81, the emptying refrigeration door 82 and the emptying refrigeration door 83 are installed in the refrigeration box 81, and at least one compressor unit 84 is connected with the electrical control system 70.

In this embodiment, the closed refrigeration space formed by the refrigeration box 81 enables the pressing device 30, the slicing system 40, the pushing device 50 and the weighing device 60 to be continuously located in the low-temperature space, so as to ensure the quality of the sliced materials.

The number of the compressor units 84 may be multiple, for example, two compressor units 84 in this embodiment are provided, and the actual arrangement positions of the compressor units 84 on the rack assembly 20 may be flexibly designed according to actual requirements.

In practical implementation, in order to realize intelligent control of the refrigeration system 80, the electrical control system 70 may further include a refrigeration switch, a defrost switch, and the like, which may be respectively connected to the controller 72 in the electrical control system 70, and the controller 72 is connected to the compressor unit 84.

It is understood that each switch 73 is disposed on the outer surface of the refrigeration cabinet 81 or the rack assembly 20, such as a power switch, a refrigeration switch, a defrost switch, etc.

Based on the design and description of the vertical slicer 10, the following description will briefly describe the actual operation of the vertical slicer 10 by taking the material to be sliced 90 as mutton as an example.

(1) And starting switches such as a refrigeration switch and a meat cutting system switch, adjusting the refrigeration system 80 to the required set temperature, controlling the compressor unit 84 to start working, and slicing the formed meat after the temperature reaches the set temperature.

(2) Operating the display screen 74 and setting relevant parameters, cutting meat in a certain channel or cutting meat in a plurality of channels, placing the formed meat in a specified channel, operating the pushing device 50 through the display screen 74 to start feeding, if the stepping motor starts to work, driving the pushing lead screw to rotate through the motor connecting sleeve to drive the pushing lead screw to rotate so as to realize linear motion, and pushing the pusher 52 to advance forwards so as to push the formed mutton to the pressing device 30 to feed;

(3) after the feeding is completed, the slicing motor 410 in the slicing system 40 starts to drive the first motor shaft 411 and the second motor shaft 412 to rotate, so as to realize the circular motion of the first rocker arm, the second rocker arm 43, the first pull rod 46 and the second pull rod 47, and further realize the slicing process by converting the circular motion of the rocker arm and the pull rod into the up-and-down reciprocating motion of the upper slicing mechanism on the shaft of the knife rest 481.

(4) After the formed meat rolls out, the meat rolls on the material receiving shovel 67 of the weighing device 60, a signal is output to the electrical control system 70 through the gravity sensor, the electrical control system 70 controls the slicing motor 410 driving system to cut the meat according to the gravity signal, and when a certain weight is reached, the motor assembly 41 is controlled to stop working, so that the automatic weighing process is realized.

In summary, the present invention provides a vertical slicer 10, wherein the slicing operation for multiple layers of materials in different channels can be simultaneously realized through the ingenious design of the slicing system 40, so as to effectively improve the slicing efficiency and ensure the slicing quality. In addition, the intelligent control of the slicing process can be further improved and the material cutting quality can be improved through the design of the weighing device 60 and the refrigerating system 80.

Furthermore, the vertical slicing machine 10 provided by the invention is simple to operate, low in failure rate, capable of realizing stable propulsion and efficient slicing.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. 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

1. A vertical slicing machine is characterized by comprising a rack assembly, a slicing system and at least one pressing device, wherein the slicing system comprises a motor assembly, a first rocker arm, a second rocker arm, a first connecting rod, a second connecting rod, a first pull rod, a second pull rod and a slicing mechanism formed by multiple layers of slicing assemblies;

the first motor shaft and the second motor shaft drive the first rocker arm and the second rocker arm to rotate under the driving of the slicing motor, and drive one end of the first connecting rod to do circular motion around the first motor shaft and one end of the second connecting rod to do circular motion around the second motor shaft, so as to drive the first pull rod, the second pull rod and the slicing mechanism to do reciprocating motion relative to the rack assembly to realize slicing operation of materials to be sliced;

the rack assembly comprises a base assembly and a support assembly, the base assembly is provided with a plurality of feet for leveling the vertical slicing machine and a plurality of casters for moving the vertical slicing machine; the motor assembly is arranged on the base assembly, and the pressing device is arranged on the supporting assembly;

the vertical slicing machine further comprises at least one material pushing device used for pushing materials to be sliced to the material pressing device, the material pushing device comprises a material pushing motor, a connecting shaft and a material pusher, two ends of the connecting shaft are respectively connected with the material pushing motor and the material pusher, and the material pushing motor is installed on the base assembly;

the connecting shaft is used for driving the material pusher to move towards the pressing device under the driving of the material pushing motor so as to push the material to be sliced to the pressing device for slicing preparation;

the material pusher is provided with a plurality of plug-in units for pricking materials to be sliced;

each slicing assembly comprises a tool rest and at least one blade arranged on the tool rest, each supporting assembly comprises a supporting frame and at least one supporting plate, each supporting frame comprises a first supporting part, a second supporting part and a cross beam, a tool rest seat is arranged at the position where the first supporting part and the second supporting part are opposite, and a through hole for the first pull rod and the second pull rod to pass through is formed in each tool rest seat;

the first supporting part and the second supporting part are arranged in opposite directions, two ends of the first supporting part and two ends of the second supporting part are respectively connected with the cross beam and the base assembly, at least one supporting plate is arranged on the first supporting part and the second supporting part, the first connecting rod penetrates through a tool rest seat on the first supporting part to be connected with the tool rest, and the second connecting rod penetrates through the tool rest seat on the second supporting part to be connected with the tool rest;

the through hole on the tool rest base can be used for limiting the motion tracks of the first pull rod and the second pull rod when the first pull rod and the second pull rod reciprocate up and down;

each material pressing device comprises a material pressing plate, an elastic device and a connecting rod; one end of the connecting rod and one end of the elastic device are respectively connected to the cross beam, the other end of the connecting rod and the other end of the elastic device are respectively connected to the pressure plate, the connecting rod and the elastic device are positioned on the same side of the pressure plate, a gap for placing a material to be sliced exists between the pressure plate and the supporting plate, and the pressure plate can rotate around the connecting position of the connecting rod and the pressure plate under the action of external force;

the spring device comprises a spring hook piece and a spring, two ends of the spring hook piece are respectively connected with the pressure plate and the spring, and the spring is connected with the cross beam.

2. The vertical slicer according to claim 1, further comprising a weighing device for weighing the sliced material of the slicing system, wherein the weighing device comprises a gravity detection device, a bearing frame, a supporting nylon sleeve, a taper nylon cover, a weighing taper pin, a weighing base and a receiving shovel;

3. The vertical slicer according to claim 2, further comprising an electrical control system, wherein the electrical control system is connected to the gravity detection device and the slicing motor respectively, and the electrical control system is configured to control an operation state of the slicing motor according to the gravity signal sent by the gravity detection device.

4. The vertical slicer of claim 3, wherein the electrical control system comprises a control cabinet, a controller, a switch and a display screen, the controller is connected to the slicing motor, the switch and the display screen, respectively, and the controller is disposed inside the control cabinet, and the switch and the display screen are disposed on an outer surface of the control cabinet, respectively.

5. The vertical slicer according to claim 3, further comprising a refrigeration system, wherein the refrigeration system comprises a refrigeration box body, an emptying refrigeration door and at least one compressor unit, the refrigeration box body is arranged on the frame assembly, the pressing device, the slicing system, the pushing device, the weighing device and the at least one compressor unit are all located in the refrigeration box body, the emptying refrigeration door and the emptying refrigeration door are mounted on the refrigeration box body, and the at least one compressor unit is connected with the electrical control system.