CN105234974B - Double-knife continuous chopping machine - Google Patents
Double-knife continuous chopping machine Download PDFInfo
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- CN105234974B CN105234974B CN201510734398.6A CN201510734398A CN105234974B CN 105234974 B CN105234974 B CN 105234974B CN 201510734398 A CN201510734398 A CN 201510734398A CN 105234974 B CN105234974 B CN 105234974B
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- anvil disk
- anvil
- hinge
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- actuator
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Abstract
The invention discloses a double-knife continuous chopping machine which comprises a base, a power system, a primary transmission system, an anvil plate transmission device, an executing system, an anvil plate device and a safety protective cover. The power system, the executing system, the anvil plate device and the safety protective cover are all fixedly mounted on the base, and the safety protective cover is arranged on the anvil plate device in a sleeving mode; the power system is connected with the executing system through the primary transmission device to drive a left chopping knife and a right chopping knife to move up and down in a reciprocating mode; and the power system is connected with the anvil plate device through the anvil plate transmission device to drive an anvil plate to rotate. According to the double-knife continuous chopping machine, the two chopping knives can alternatively carry out continuous and reciprocating chopping operation, so that chopping efficiency and stuffing preparing quality are greatly improved, and the phenomena of loss of various nutrient ingredients and stuffing foam splashing can be effectively avoided. Besides, the double-knife continuous chopping machine further can regulate the chopping efficiency of the chopping machine and the stroke of chopping knife motion, is simple in regulating mode, and has the characteristics of high adaptation, simple regulation and convenient operation.
Description
Technical field
The present invention relates to food mechanical equipment field, more particularly to a kind of continuous mincing machine of double-pole, manual operations can be replaced
It is automatically performed and chops filling operation.
Background technology
In daily life, people are frequently necessary to meat or vegetable are chopped into filling on chopping board using knife, to make dish.Handss
Work carries out chopping filling operation on chopping board using knife, not only high labor intensive, inefficiency, and processing capacity is limited, and the matter of filling
Amount is also uncontrollable;If being made using meat grinder, the structure of meat or vegetable is destroyed by extruding, granule is little, loses meat
Or the original taste of vegetable, and affect mouthfeel, and meat stuffing or dish filling existed it is rotten, excessively glue and oils and fatss squeeze-out phenomenon, wherein being rich in
Various nutritional labelings also can be lost in juice;Secondly, processing mode also has certain limitation, processes for meat stuffing more,
And meat grinder mechanism is complex, cleaning is inconvenient, it is easy to breed bacteria.Therefore, most people is still ready using original handss
The mode that work is chopped makes meat stuffing or dish filling.
In known technology, it is existing cut the dish cut meat machinery mainly by motor, motor housing, tool rest, cutting knife, cutter shaft and
Thing cylinder connection composition is cut, what is had cuts thing cylinder to prevent machining object from dishing out, also thing cylinder upper oral part is being cut equipped with top cover, gone here and there on top cover
The cover clamp that company is connected by spiral shell axle.But its construction is limited, and its structure is complicated, especially cutting knife used is to be in the tool rest of institute load
Horizontal, the same edge of a knife is cut in repetition during use, the dish cut, meat into pureed, heavy damage food texture, and work efficiency is low,
It is to cut thing cylinder to be connected with motor by fastening screw again, often results in and cut thing cylinder and shake with motor, to using making troubles.
A kind of continuous mincing machine of double-pole according to the present invention, is capable of achieving two panels marking knife and alternately continuously back and forth chops work
Industry, greatly improves and chops filling working performance and filling quality processed, and the technological deficiency that existing mincing machine can be overcome to exist is more suitable for pushing away
Extensively;The loss of various nutritional labelings and the generation of filling foam splash phenomena can be effectively prevented from.It is also possible to realize it is right
Mincing machine chops the frequency of filling, the stroke of marking knife motion and is adjusted, and regulative mode is simple, with strong adaptability, adjusts simple,
Easy to operate the characteristics of.
The content of the invention
The purpose of the present invention is for the deficiencies in the prior art, there is provided it is a kind of can it is laborsaving, save time, replace manual double
The continuous mincing machine of knife, can realize that double-pole is operated, and raising chops filling efficiency and quality.
The technical problem to be solved employs the following technical solutions to realize.
A kind of continuous mincing machine of double-pole, including base, dynamical system, main drive, anvil disk actuating device, perform system
System, anvil disk device and safty shield.Wherein, described dynamical system, execution system, anvil disk device and safty shield are solid
Dingan County is mounted on base, and described safty shield is enclosed within the outside of anvil disk device, for preventing meat stuffing or vegatable stuffing from chopping
Splash during cutting, while also acting as safety protection function;Described dynamical system passes through main drive and execution system phase
Connection, provides power for execution system;Described dynamical system is connected with anvil disk device by anvil disk actuating device, is anvil disk
Device provides the power of rotation.
Described dynamical system includes motor, main reducing gear and secondary decelerator.Wherein, described main reducing gear, secondary deceleration
Device is two grades of conic reducers, and is fixedly mounted on base by screw;Described motor is arranged on main reducing gear
Input, described main reducing gear is double output shaft structure, and the double output shaft of main reducing gear is in horizontally disposed;Described master
The double output shaft of decelerator is connected by case butt coupling with the input shaft of secondary decelerator, the output of described secondary decelerator
Axle is arranged in vertical direction.
Described anvil disk device includes concave surface anvil disk, anvil disk axle and anvil disk seat.Wherein, it is fixed in described concave surface anvil disk
The top of anvil disk axle, and the top surface in concave surface anvil disk is provided with the concave work surface plate of plastic material, under concave work surface plate
Anvil disk pallet of the side for metal material, described concave work surface plate are connected by cementing mode with anvil disk pallet;Described
Anvil disk axle is connected with anvil disk seat by journal bearing, thrust bearing;Described anvil disk seat is fixedly mounted on base by screw
On, for providing supporting for anvil disk axle.
Described execution system includes that performing support, drive shaft, left actuator, right actuator, left marking knife and the right side chops
Knife.Wherein, described execution support is used to install drive shaft, left actuator and right actuator, and the lower end for performing support leads to
Cross screw to be fixedly mounted on base, its upper end is located at the top of safty shield, be provided with movable transverse in the middle part of support performing
Beam, is provided with two tie-beams in the upper end for performing support, and the left side for being provided with two diameter parallels in the top left side for performing support is led
To set, be provided with the right fairlead of two diameter parallels in the top right side for performing support, described moved cross beam by screw with
Perform support to be connected, described tie-beam is fixedly connected with execution support by way of welding;Described drive shaft is located at lives
The top of dynamic crossbeam, and the two ends of drive shaft with perform support be connected by journal bearing;For driving a left side for left marking knife
Actuator and for drive the right actuator of right marking knife be respectively and fixedly installed to perform cradle top the left and right sides;It is described
Left marking knife be located at left actuator underface and be connected by hinge with left actuator;Described right marking knife is located at the right side
The underface of actuator, and be connected by hinge with right actuator.
Described left actuator is identical with the structure of right actuator.Described left actuator include left crankwheel,
Left connecting rod, left swing bar, left support bar, left doubly-linked plate and left guide rod.Wherein, described left crankwheel is arranged on a left side for drive shaft
End, and be connected by flat key with drive shaft;One end of described left connecting rod is connected by hinge with left crankwheel, left connecting rod
The other end be connected by hinge with the rear end of left swing bar, the front end of described left swing bar is connected by hinge with left doubly-linked plate
Connect;The lower end of described left support bar is connected with bracket by hinges is performed, and left support bar upper end is led to the middle part of left swing bar
Cross hinge to be connected;Described left guide rod has two, and described left guide rod is placed in the left fairlead for performing cradle top, and with
Left fairlead keeps gap to coordinate, and the upper end of left guide rod is fixedly connected with left doubly-linked plate, and the lower end of left guide rod is with left marking knife by hinge
Chain is connected.
Described right actuator includes right crankwheel, right connecting rod, right fork, right support bar, right doubly-linked plate and right guide rod.
Wherein, described right crankwheel is arranged on the right-hand member of drive shaft, and is connected by flat key with drive shaft;Described right connecting rod
One end is connected by hinge with right crankwheel, and the other end of right connecting rod is connected by hinge with the rear end of right fork, described
The front end of right fork be connected by hinge with right doubly-linked plate;The lower end of described right support bar and execution bracket by hinges
It is connected, the upper end of right support bar is connected by hinge with the middle part of right fork;Described right guide rod has two, the described right side
Guide rod is placed in the right fairlead for performing cradle top, and keeps gap to coordinate with right fairlead, and the upper end of right guide rod is double with the right side
Connecting plate is fixedly connected with, and the lower end of right guide rod is connected by hinge with right marking knife.In order to ensure left marking knife and right marking knife reversely in turn
Operation is chopped, needs to make during assembling right connecting rod in the setting angle and setting angle of the left connecting rod on left crankwheel of right crankwheel
180 ° of difference.
Described main drive includes the first driving pulley, the first transmission belt and the first driven pulley, for by motor,
The power of main reducing gear passes to drive shaft, and then drives left marking knife, right marking knife to perform by left actuator, right actuator
The straight reciprocating motion of vertical direction.The first described driving pulley is arranged on the right-hand end of the double output shaft of main reducing gear, and
It is connected by flat key with the double output shaft of main reducing gear;The first described driven pulley is arranged on the drive shaft of execution system
On, and be connected by flat key with drive shaft;The first described driving pulley passes through the first transmission belt and the first driven pulley phase
Connection.
Described anvil disk actuating device includes the second driving pulley, the second transmission belt and the second driven pulley.Described
Two driving pulleys are arranged on the top of the output shaft of time decelerator, and are connected by flat key with the output shaft of secondary decelerator;Institute
The second driven pulley stated is arranged on the anvil disk axle of anvil disk device, and is connected by flat key with anvil disk axle;Described second
Driving pulley is connected with the second driven pulley by the second transmission belt.
Described safty shield includes protection post, protection grizzly bar and anvil disk protection cylinder.Wherein, the bottom of described protection post
Portion is fixed by screws on base, and described protects grizzly bar by way of welding and protection post Joint, described anvil disk
Protection cylinder is located at the top of protection post, and is fixedly connected with by way of welding with protection post, and described security protection covers on close
The side of dynamical system is provided with breach, for installing the second transmission belt.Described left marking knife, the rear and front end of right marking knife and anvil disk
Gap between protection cylinder is 3-8mm.
Gap between described anvil disk protection cylinder and concave surface anvil disk is 0.5-1.0mm.The blade of left marking knife and right marking knife
Partial contour curve is identical with the parameter holding of the top cross-section curve of concave work surface plate in concave surface anvil disk.
During use, left connecting rod, the two ends of right connecting rod can be adjusted successively in left crank first according to being actually needed for filling operation is chopped
Wheel, right crankwheel and left swing bar, the position of right fork upper hinge junction point, chop frequency so as to adjust left marking knife, right marking knife
Rate and the stroke of straight reciprocating motion in vertical direction.The meat or vegetable that need processing are put into into the concave surface anvil of anvil disk device
After in disk, restart motor.Rotating through after main reducing gear slows down for the first time for motor passes to drive shaft by main drive,
The rotary motion of drive shaft is converted into left marking knife and right marking knife successively vertical after left actuator, right actuator conversion
The straight reciprocating motion in direction.Due to during assembling right connecting rod right crankwheel setting angle and left connecting rod on left crankwheel
Setting angle differs 180 °, i.e., 180 ° of the motion phase angular difference of left crankwheel and right crankwheel, so as to ensure that left marking knife and the right side
Marking knife in vertical direction reversely chop operation in turn.Motor is rotated through after main reducing gear, secondary decelerator slow down twice
Anvil disk device is passed to by anvil disk actuating device, and then is converted to the rotation at a slow speed of concave surface anvil disk, realize left marking knife and right marking knife
Operation is chopped uniformly in concave surface anvil disk.Due to left marking knife and right marking knife only with work by made by plastic material in concave surface anvil disk
Concave face plate keeps contact, while completing to chop filling operation, can effectively protect the blade of left marking knife and right marking knife.It is enclosed within concave surface
Anvil disk protection cylinder outside anvil disk can also avoid the dispersion and splashing that chopped meat or vegetable foam are produced in filling operation process is chopped.
The invention has the beneficial effects as follows, compared with prior art, the present invention can realize that two panels marking knife alternately connects
Continuous back and forth to chop operation, the concave surface anvil disk of rotation can ensure to chop uniformly automatically, greatly improved and chop filling working performance and filling processed
Quality, the technological deficiency that existing mincing machine can be overcome to exist are more suitable for promoting;Also set up outside the concave surface anvil disk of anvil disk device
Anvil disk protection cylinder, can be effectively prevented from the loss of various nutritional labelings and the generation of filling foam splash phenomena.Additionally, the present invention is also
Can realize that chopping the frequency of filling, the stroke of marking knife motion to mincing machine is adjusted, and regulative mode is simple, with adaptability
By force, adjust simple, the characteristics of easy to operate.
Description of the drawings
Fig. 1 is the general structure schematic diagram of the present invention;
Fig. 2 is the position relationship schematic diagram between the execution system and anvil disk device of the present invention;
Fig. 3 is the structural representation of the execution system of the present invention;
Fig. 4 is the structural representation of the concave surface anvil disk of the present invention;
Fig. 5 is the structural representation of the safty shield of the present invention.
Specific embodiment
In order that technological means, creation characteristic, reached purpose and effect that the present invention is realized are easy to understand, below
In conjunction with specific embodiments and diagram, the present invention is expanded on further.
As depicted in figs. 1 and 2, the continuous mincing machine of a kind of double-pole, including base 1, dynamical system 2, main drive 3, anvil
Disk actuating device 4, execution system 5, anvil disk device 6 and safty shield 7.Wherein, described dynamical system 2, execution system 5,
Anvil disk device 6 and safty shield 7 are fixedly mounted on base 1, and the described security protection enclosure 7 is in anvil disk device 6
Outside, for preventing meat stuffing or vegatable stuffing from splashing during chopping, while also acting as safety protection function;Described dynamical system
System 2 is connected with execution system 5 by main drive 3, is that execution system 5 provides power;Described dynamical system 2 passes through anvil
Disk actuating device 4 is connected with anvil disk device 6, is the power that anvil disk device 6 provides rotation.
As depicted in figs. 1 and 2, described dynamical system 2 includes motor 21, main reducing gear 22 and secondary decelerator 23.Wherein,
Described main reducing gear 22, secondary decelerator 23 are two grades of conic reducers, and are fixedly mounted on base 1 by screw
On;Described motor 21 is arranged on the input of main reducing gear 22, and described main reducing gear 22 is double output shaft structure, and master subtracts
The double output shaft 221 of fast device 22 is in horizontally disposed;The double output shaft 221 of described main reducing gear 22 and the input of secondary decelerator 23
Axle is connected by case butt coupling, and the output shaft 231 of described secondary decelerator 23 is arranged in vertical direction.
As shown in Figure 1, Figure 2 and Figure 4, described anvil disk device 6 includes concave surface anvil disk 61, anvil disk axle 62 and anvil disk seat 63.
Wherein, the top of anvil disk axle 62 is fixed in described concave surface anvil disk 61, and the top surface in concave surface anvil disk 61 is provided with plastics
The concave work surface plate 611 of material, in the anvil disk pallet 612 that the lower section of concave work surface plate 611 is metal material, described work is recessed
Panel 611 is connected by cementing mode with anvil disk pallet 612;Described anvil disk axle 62 passes through journal bearing, thrust bearing
It is connected with anvil disk seat 63;Described anvil disk seat 63 is fixedly mounted on base 1 by screw, is propped up for providing for anvil disk axle 62
Hold.
As shown in Figure 1, Figure 2 and Figure 3, described execution system 5 includes performing support 51, drive shaft 52, left actuator
53rd, right actuator 54, left marking knife 55 and right marking knife 56.Wherein, described execution support 51 is held for installing a drive shaft 52, left side
Row mechanism 53 and right actuator 54, the lower end for performing support 51 are fixedly mounted on base 1 by screw, and its upper end is located at peace
The top of full protection cover 7, is provided with moved cross beam 511 at the middle part for performing support 51, is provided with two in the upper end for performing support 51
Tie-beam 512, is provided with the left fairlead 513 of two diameter parallels in the top left side for performing support 51, is performing support 51
Top right side is provided with the right fairlead 514 of two diameter parallels, and described moved cross beam 511 is by screw and execution 51 phase of support
Connection, described tie-beam 512 are fixedly connected with execution support 51 by way of welding;Described drive shaft 52 is located at movable transverse
The top of beam 511, and the two ends of drive shaft 52 with perform support 51 be connected by journal bearing;For driving left marking knife 55
Left actuator 53 and for drive the right actuator 54 of right marking knife 56 be respectively and fixedly installed to perform support 51 at the top of
The left and right sides;Described left marking knife 55 is located at the underface of left actuator 53 and is connected by hinge with left actuator 53
Connect;Described right marking knife 56 is located at the underface of right actuator 54, and is connected by hinge with right actuator 54.
As shown in Figure 1, Figure 2 and Figure 3, described left actuator 53 is identical with the structure of right actuator 54.Described
Left actuator 53 includes that left crankwheel 531, left connecting rod 532, left swing bar 533, left support bar 534, left doubly-linked plate 535 and a left side are led
Bar 536.Wherein, described left crankwheel 531 is arranged on the left end of drive shaft 52, and is connected by flat key with drive shaft 52;
One end of described left connecting rod 532 is connected by hinge with left crankwheel 531, the other end and the left swing bar 533 of left connecting rod 532
Rear end be connected by hinge, the front end of described left swing bar 533 is connected by hinge with left doubly-linked plate 535;Described
The lower end of left support bar 534 is connected by hinge with support 51 is performed, the middle part of 534 upper end of left support bar and left swing bar 533
It is connected by hinge;Described left guide rod 536 has two, and described left guide rod 536 is placed in the left side performed at the top of support 51 and leads
Into set 513, and gap is kept to coordinate with left fairlead 513, the upper end of left guide rod 536 is fixedly connected with left doubly-linked plate 535, and a left side is led
The lower end of bar 536 is connected by hinge with left marking knife 55.
As shown in Figure 1, Figure 2 and Figure 3, described right actuator 54 includes right crankwheel 541, right connecting rod 542, right fork
543rd, right support bar 544, right doubly-linked plate 545 and right guide rod 546.Wherein, described right crankwheel 541 is arranged on drive shaft 52
Right-hand member, and be connected by flat key with drive shaft 52;One end of described right connecting rod 542 passes through hinge phase with right crankwheel 541
Connection, the other end of right connecting rod 542 is connected by hinge with the rear end of right fork 543, the front end of described right fork 543 with
Right doubly-linked plate 545 is connected by hinge;The lower end of described right support bar 544 is connected by hinge with support 51 is performed,
The upper end of right support bar 544 is connected by hinge with the middle part of right fork 543;Described right guide rod 546 has two, described
Right guide rod 546 is placed in the right fairlead 514 performed at the top of support 51, and keeps gap to coordinate with right fairlead 514, right guide rod
546 upper end is fixedly connected with right doubly-linked plate 545, and the lower end of right guide rod 546 is connected by hinge with right marking knife 56.In order to ensure
Left marking knife 55 and right marking knife 56 reversely chop operation in turn, need to make during assembling right connecting rod 542 in the established angle of right crankwheel 541
Setting angle of the degree with left connecting rod 532 on left crankwheel 531 differs 180 °.
As depicted in figs. 1 and 2, described main drive 3 includes the first driving pulley 31, the first transmission belt 32 and first
Driven pulley 33, for the power of motor 21, main reducing gear 22 passed to drive shaft 52, and then by left actuator 53,
Right actuator 54 drives left marking knife 55, right marking knife 56 to perform the straight reciprocating motion of vertical direction.The first described main belt
Wheel 31 is arranged on the right-hand end of the double output shaft 221 of main reducing gear 22, and passes through flat key with the double output shaft 221 of main reducing gear 22
It is connected;The first described driven pulley 33 is arranged in the drive shaft 52 of execution system 5, and passes through flat key phase with drive shaft 52
Connection;The first described driving pulley 31 is connected with the first driven pulley 33 by the first transmission belt 32.
As depicted in figs. 1 and 2, described anvil disk actuating device 4 includes the second driving pulley 41, the second transmission belt 42 and
Two driven pulleys 43.Described second driving pulley 43 is arranged on the top of the output shaft 231 of time decelerator 23, and with secondary deceleration
The output shaft 231 of device 23 is connected by flat key;The second described driven pulley 43 is arranged on the anvil disk axle 62 of anvil disk device 6
On, and be connected by flat key with anvil disk axle 62;The second described driving pulley 41 is driven with second by the second transmission belt 42
Belt wheel 43 is connected.
As shown in Figure 1, Figure 2 with shown in Fig. 5, described safty shield 7 includes protection post 71, protection grizzly bar 72 and anvil disk protection
Cylinder 73.Wherein, the bottom of described protection post 71 is fixed by screws on base 1, and described protection grizzly bar 72 is by welding
Mode and 71 Joint of protection post, described anvil disk protection cylinder 73 is located at the top of protection post 71, and passes through with protection post 71
The mode of welding is fixedly connected with, and described safty shield 73 is provided with breach in the side near dynamical system 2, for installing second
Transmission belt 42.Described left marking knife 55, the gap between the rear and front end of right marking knife 56 and anvil disk protection cylinder 73 are 3-8mm.
As shown in Figure 2 and Figure 4, the gap between described anvil disk protection cylinder 73 and concave surface anvil disk 611 is 0.5-1.0mm.
During use, first according to being actually needed for filling operation is chopped can adjust left connecting rod 532, the two ends of right connecting rod 542 successively and exist
The position of left crankwheel 531, right crankwheel 541 and left swing bar 533,543 upper hinge junction point of right fork, chops so as to adjust a left side
The stroke for chopping frequency and straight reciprocating motion in vertical direction of knife 55, right marking knife 56.Meat or the vegetable of processing will be needed
After dish is put in the concave surface anvil disk 61 of anvil disk device 6, restart motor 21.Motor 21 rotates through main reducing gear 22 for the first time
Drive shaft 52 is passed to by main drive 3 after deceleration, the rotary motion of drive shaft 52 is through left actuator 53, right execution machine
Structure 54 is converted into the straight reciprocating motion of left marking knife 55 and right marking knife 56 in vertical direction after changing successively.Due to right company during assembling
Bar 542 differs 180 ° in the setting angle of the setting angle with left connecting rod 532 on left crankwheel 531 of right crankwheel 541, i.e., left
180 ° of the motion phase angular difference of crankwheel 531 and right crankwheel 541, so as to ensure that left marking knife 55 and right marking knife 56 in Vertical Square
Upwards reversely chop operation in turn.Motor 21 is rotated through after main reducing gear 22, secondary decelerator 23 slow down twice by anvil disk
Actuating device 4 passes to anvil disk device 6, and then is converted to the rotation at a slow speed of concave surface anvil disk 61, realizes left marking knife 55 and right marking knife
56 uniformly chop operation in concave surface anvil disk 61.Due to left marking knife 55 and right marking knife 56 only with concave surface anvil disk 61 in by plastic material
Made by concave work surface plate 611 keep contact, while completing to chop filling operation, can effectively protect left marking knife 55 and right marking knife
56 blade.The anvil disk protection cylinder 73 being enclosed within outside concave surface anvil disk 61 can also avoid chopped meat or vegetable are produced in filling operation process is chopped
The dispersion and splashing of foam.
The basic principles, principal features and advantages of the present invention have been shown and described above.The technical staff of the industry should
Understand, the present invention is not restricted to the described embodiments, the original for simply illustrating the present invention described in above-described embodiment and description
Reason, without departing from the spirit and scope of the present invention, the present invention also has various changes and modifications, these changes and improvements
Both fall within the scope of protection of present invention.The claimed scope of the invention is by appending claims and its equivalent circle.
It is fixed.
Claims (3)
1. a kind of continuous mincing machine of double-pole, including base, dynamical system, main drive, anvil disk actuating device, execution system,
Anvil disk device and safty shield, it is characterised in that:Described dynamical system, execution system, anvil disk device and safty shield
It is fixedly mounted on base, and described safty shield is enclosed within the outside of anvil disk device;Described dynamical system is by master
Actuating device is connected with execution system, and described dynamical system is connected with anvil disk device by anvil disk actuating device;
Described dynamical system includes motor, main reducing gear and secondary decelerator, and described main reducing gear, secondary decelerator are two grades
Conic reducer, and be fixedly mounted on base by screw, described motor is arranged on the input of main reducing gear, institute
The main reducing gear stated is double output shaft structure, and the double output shaft of main reducing gear is in the double of horizontally disposed, described main reducing gear
Output shaft is connected by case butt coupling with the input shaft of secondary decelerator, the perpendicular side of output shaft of described secondary decelerator
To arrangement;
Described anvil disk device includes concave surface anvil disk, anvil disk axle and anvil disk seat, is fixed on anvil disk axle in described concave surface anvil disk
Top, and the top surface in concave surface anvil disk is provided with the concave work surface plate of plastic material, is metal in the lower section of concave work surface plate
The anvil disk pallet of material, described concave work surface plate are connected by cementing mode with anvil disk pallet;Described anvil disk axle leads to
Cross journal bearing, thrust bearing to be connected with anvil disk seat;Described anvil disk seat is fixedly mounted on base by screw;
Described execution system includes performing support, drive shaft, left actuator, right actuator, left marking knife and right marking knife, institute
The lower end of the execution support stated is fixedly mounted on base by screw, and the upper end of described execution support is located at safty shield
Top, perform support in the middle part of be provided with moved cross beam, perform support upper end be provided with two tie-beams, perform support
Top left side be provided with the left fairlead of two diameter parallels, be provided with the right side of two diameter parallels in the top right side for performing support
Fairlead, described moved cross beam are connected with support is performed by screw, described tie-beam by way of welding with hold
Row support is fixedly connected with;Described drive shaft is located at the top of moved cross beam, and the two ends of drive shaft pass through footpath with execution support
It is connected to bearing;Described left actuator, right actuator are respectively and fixedly installed to the left and right sides for performing cradle top;
Described left marking knife is located at the underface of left actuator and is connected by hinge with left actuator;Described right marking knife position
In the underface of right actuator, and it is connected by hinge with right actuator;
Described main drive includes the first driving pulley, the first transmission belt and the first driven pulley, the first described active
Belt wheel is arranged on the right-hand end of the double output shaft of main reducing gear, and is connected by flat key with the double output shaft of main reducing gear;Institute
The first driven pulley stated is arranged in the drive shaft of execution system, and is connected by flat key with drive shaft;Described first
Driving pulley is connected with the first driven pulley by the first transmission belt;
Described anvil disk actuating device includes the second driving pulley, the second transmission belt and the second driven pulley, the second described master
Movable belt pulley is arranged on the top of the output shaft of time decelerator, and is connected by flat key with the output shaft of secondary decelerator;Described
Second driven pulley is arranged on the anvil disk axle of anvil disk device, and is connected by flat key with anvil disk axle;Described second is actively
Belt wheel is connected with the first driven pulley by the second transmission belt;
Described safty shield includes protection post, protection grizzly bar and anvil disk protection cylinder, and the bottom of described protection post passes through spiral shell
Nail is fixed on base, and described protects grizzly bar by way of welding and protection post Joint, described anvil disk protection cylinder position
In the top of protection post, and it is fixedly connected with by way of welding with protection post, described security protection is covered near dynamical system
Side be provided with breach;Described left marking knife, the gap between the rear and front end of right marking knife and anvil disk protection cylinder are 3-8mm.
2. the continuous mincing machine of a kind of double-pole according to claim 1, it is characterised in that:Described left actuator is held with the right side
The structure of row mechanism is identical, and described left actuator includes left crankwheel, left connecting rod, left swing bar, left support bar, left doubly-linked plate
With left guide rod, described left crankwheel is arranged on the left end of drive shaft, and is connected by flat key with drive shaft;Described left company
One end of bar is connected by hinge with left crankwheel, and the other end of left connecting rod is connected by hinge with the rear end of left swing bar,
The front end of described left swing bar is connected by hinge with left doubly-linked plate;The lower end of described left support bar passes through with support is performed
Hinge is connected, and the upper end of left support bar is connected by hinge with the middle part of left swing bar;Described left guide rod has two, described
Left guide rod be placed in perform cradle top left fairlead in, the upper end of left guide rod is fixedly connected with left doubly-linked plate, under left guide rod
End is connected by hinge with left marking knife;
Described right actuator includes right crankwheel, right connecting rod, right fork, right support bar, right doubly-linked plate and right guide rod, described
Right crankwheel be arranged on the right-hand member of drive shaft, and be connected by flat key with drive shaft;One end of described right connecting rod and the right side
Crankwheel is connected by hinge, and the other end of right connecting rod is connected by hinge with the rear end of right fork, described right fork
Front end be connected by hinge with right doubly-linked plate;The lower end of described right support bar is connected with bracket by hinges is performed,
The upper end of right support bar is connected by hinge with the middle part of right fork;Described right guide rod has two, and described right guide rod is put
In the right fairlead for performing cradle top, the upper end of right guide rod is fixedly connected with right doubly-linked plate, the lower end of right guide rod and right marking knife
It is connected by hinge.
3. the continuous mincing machine of a kind of double-pole according to claim 1, it is characterised in that:Described anvil disk protection cylinder and concave surface
Gap between anvil disk is 0.5-1.0mm.
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Families Citing this family (7)
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CN105494583A (en) * | 2016-01-14 | 2016-04-20 | 广西大学 | Beating machine |
CN106070505B (en) * | 2016-07-26 | 2018-07-06 | 北京工商大学 | A kind of automatic minicng machine and chop filling method automatically |
CN107027861B (en) * | 2017-05-12 | 2019-01-04 | 南京信息职业技术学院 | Hammering type meat gruel machine |
CN108378119A (en) * | 2018-05-14 | 2018-08-10 | 贵州务川金辉煌农牧科技有限公司 | A kind of edible meat processing unit (plant) |
CN109275691B (en) * | 2018-08-16 | 2020-11-13 | 湖北省崇湖生态农业有限公司 | Automatic meat chopping machine |
CN109497124B (en) * | 2018-11-13 | 2021-01-15 | 湖南童记三利和食品有限公司 | Automatic meat chopping machine |
CN113083456B (en) * | 2021-03-22 | 2022-12-13 | 菜篮子(肇庆)农副产品配送有限公司 | Intelligent automatic food cutting equipment |
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CN2616060Y (en) * | 2003-02-26 | 2004-05-19 | 刘长锁 | Automatic minicng machine |
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