CN105234974A - Double-knife continuous chopping machine - Google Patents
Double-knife continuous chopping machine Download PDFInfo
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- CN105234974A CN105234974A CN201510734398.6A CN201510734398A CN105234974A CN 105234974 A CN105234974 A CN 105234974A CN 201510734398 A CN201510734398 A CN 201510734398A CN 105234974 A CN105234974 A CN 105234974A
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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, particularly relate to the continuous mincing machine of a kind of double-pole, manual operations can be replaced automatically to complete and chop filling operation.
Background technology
In daily life, people often need to use cutter on chopping board, meat or vegetables to be chopped into filling, to make dish.The manual cutter that uses carries out chopping filling operation on chopping board, and not only labour intensity is large, inefficiency, and processing capacity is limited, and the quality of filling is also uncontrollable; If use meat grinder to make, rely on the squeeze and destroy structure of meat or vegetables, particle is little, lose meat or the original taste of vegetables, and affect mouthfeel, and there is rotten, excessively sticky and grease squeeze-out phenomenon in meat stuffing or dish filling, the various nutritional labelings be wherein rich in also can run off along with juice; Secondly, processing mode also has certain limitation, and spininess is processed meat stuffing, and meat grinder mechanism is comparatively complicated, and cleaning is inconvenient, is easy to breed bacteria.Therefore, most people is still ready that the mode using original craft to chop makes meat stuffing or dish filling.
In known technology, existing cutting the dish cuts meat machinery mainly by motor, motor housing, tool rest, cutting knife, cutter shaft with cut thing cylinder and connect to form, what have cuts thing cylinder to prevent machining object from dishing out, and also top cover is housed, the cover clamp connected by spiral shell axle that top cover is contacted cutting thing cylinder upper oral part.But its structure limit, its structure is complicated, especially cutting knife used is horizontal with the tool rest of institute load, repeat during use to cut the same edge of a knife, the dish cut, meat become pureed, heavy damage food texture, and work efficiency is low, be cut thing cylinder to be connected with motor by holding screw again, often cause and cut thing cylinder and shake with motor, make troubles to use.
The continuous mincing machine of a kind of double-pole that the present invention relates to, can realize two panels marking knife and hocket and back and forth chop operation continuously, significantly improves and chops filling operating efficiency and filling quality processed, can overcome the technological deficiency of existing mincing machine existence, be more suitable for popularization; Effectively can avoid the loss of various nutritional labeling and the generation of filling foam splash phenomena.In addition, the present invention can also realize chopping the frequency of filling to mincing machine, the stroke of marking knife motion regulates, and regulative mode is simple, has strong adaptability, regulates simple, easy to operate feature.
Summary of the invention
The object of the invention is for the deficiencies in the prior art, provide a kind of can laborsaving, save time, replace the continuous mincing machine of manual double-pole, double-pole operation can be realized, improve and chop filling efficiency and quality.
Technical problem to be solved by this invention realizes by the following technical solutions.
The continuous mincing machine of a kind of double-pole, comprises base, dynamical system, main drive, anvil dish transmission device, executive system, anvil dish device and safty shield.Wherein, described dynamical system, executive system, anvil dish device and safty shield are all fixedly mounted on base, and described safty shield is enclosed within the outside of anvil dish device, for preventing meat stuffing or vegatable stuffing from splashing chopping in process, also play safety protection function simultaneously; Described dynamical system is connected with executive system by main drive, for executive system provides power; Described dynamical system is connected with anvil dish device by anvil dish transmission device, for anvil dish device provides the power of rotation.
Described dynamical system comprises motor, main reducing gear and secondary decelerator.Wherein, described main reducing gear, secondary decelerator are secondary conic reducer, and are all fixedly mounted on base by screw; Described motor is arranged on the input of main reducing gear, and described main reducing gear is double output shaft structure, and the double output shaft of main reducing gear is horizontally disposed; The double output shaft of described main reducing gear is connected by case butt coupling with the power shaft of time decelerator, and the output shaft of described secondary decelerator is arranged in vertical direction.
Described anvil dish device comprises concave surface anvil dish, anvil dish axle and anvil dish seat.Wherein, the top of anvil dish axle is fixed at described concave surface anvil dish, and the concave work surface plate of plastic material is provided with at the top surface of concave surface anvil dish, be the anvil disk in pallet of metal material in the below of concave work surface plate, described concave work surface plate is connected by cementing mode with anvil disk in pallet; Described anvil dish axle is connected with anvil dish seat by journal bearing, thrust bearing; Described anvil dish seat is fixedly mounted on base by screw, for providing supporting for anvil dish axle.
Described executive system comprises execution support, driving shaft, left executing agency, right executing agency, left marking knife and right marking knife.Wherein, described execution support is for installing driving shaft, left executing agency and right executing agency, the lower end performing support is fixedly mounted on base by screw, its upper end is positioned at the top of safty shield, moved cross beam is provided with at the middle part performing support, two tie-beams are provided with in the upper end performing support, the left fairlead of two axis being parallel is provided with in the top left side performing support, the right fairlead of two axis being parallel is provided with in the top right side performing support, described moved cross beam is connected with execution support by screw, described tie-beam is connected with execution support mutually by the mode of welding, described driving shaft is positioned at the top of moved cross beam, and the two ends of driving shaft are all connected by journal bearing with execution support, for driving the left executing agency of left marking knife and the left and right sides for driving the right executing agency of right marking knife to be fixedly mounted on execution cradle top respectively, described left marking knife to be positioned at immediately below left executing agency and to be connected by hinge with left executing agency, described right marking knife is positioned at immediately below right executing agency, and is connected by hinge with right executing agency.
Described left executing agency is identical with the structure of right executing agency.Described left executing agency comprises 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 the left end of driving shaft, and is connected by flat key with driving shaft; One end of described left connecting rod 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, and 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 is connected with execution bracket by hinges, and left support bar upper end is connected by hinge with the middle part of left swing bar; Described left guide rod has two, and described left guide rod is placed in the left fairlead of execution cradle top, and keeps matched in clearance with left fairlead, and the upper end of left guide rod is connected mutually with left doubly-linked plate, and the lower end of left guide rod is connected by hinge with left marking knife.
Described right executing agency comprises 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 driving shaft, and is connected by flat key with driving shaft; One end of described right connecting rod 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, and the front end of described right fork is connected by hinge with right doubly-linked plate; The lower end of described right support bar is connected with execution bracket by hinges, and 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 placed in the right fairlead of execution cradle top, and keeps matched in clearance with right fairlead, and the upper end of right guide rod is connected mutually with right doubly-linked plate, and the lower end of right guide rod is connected by hinge with right marking knife.In order to ensure that left marking knife and right marking knife oppositely chop operation in turn, need during assembling to make right connecting rod differ 180 ° at the setting angle of right crankwheel with the setting angle of left connecting rod on left crankwheel.
Described main drive comprises the first driving pulley, the first driving-belt and the first driven pulley, for by the power transmission of motor, main reducing gear to driving shaft, and then drive left marking knife, right marking knife to perform the straight reciprocating motion of vertical direction by left executing agency, right executing agency.The first described driving pulley 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; The first described driven pulley is arranged on the driving shaft of executive system, and is connected by flat key with driving shaft; The first described driving pulley is connected with the first driven pulley by the first driving-belt.
Described anvil dish transmission device comprises the second driving pulley, the second driving-belt and the second driven pulley.The second described driving 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; The second described driven pulley is arranged on the anvil dish axle of anvil dish device, and is connected by flat key with anvil dish axle; The second described driving pulley is connected with the second driven pulley by the second driving-belt.
Described safty shield comprises protection post, protection grizzly bar and anvil dish protection cylinder.Wherein, the bottom of described protection post is fixed by screws on base, described protection grizzly bar passes through mode and the protection post Joint of welding, described anvil dish protection cylinder is positioned at the top of protection post, and be connected mutually by the mode of welding with protection post, described security protection covers on and is provided with breach, for installing the second driving-belt near the side of dynamical system.Described left marking knife, gap between the rear and front end of right marking knife and anvil dish protection cylinder are 3-8mm.
Gap between described anvil dish protection cylinder and concave surface anvil dish is 0.5-1.0mm.Left marking knife keeps identical with the contour curve of the knife edge part of right marking knife with the parameter of the top cross-section curve of concave work surface plate on concave surface anvil dish.
During use, can first according to the actual needs chopping filling operation, regulate the two ends of left connecting rod, right connecting rod in the position of left crankwheel, right crankwheel and left swing bar, right fork upper hinge tie point successively, thus adjust the stroke chopping frequency and straight reciprocating motion in vertical direction of left marking knife, right marking knife.After the meat or vegetables that need processing are put into the concave surface anvil dish of anvil dish device, restart motor.The rotation of motor passes to driving shaft by main drive after main reducing gear first time slows down, and the rotary motion of driving shaft converts left marking knife and the straight reciprocating motion in the vertical direction of right marking knife successively to after left executing agency, the conversion of right executing agency.Because right connecting rod during assembling differs 180 ° at the setting angle of right crankwheel with the setting angle of left connecting rod on left crankwheel, the i.e. motion phase angular difference 180 ° of left crankwheel and right crankwheel, thus ensure that left marking knife and right marking knife in vertical direction oppositely chop operation in turn.The rotation of motor passes to anvil dish device by anvil dish transmission device after main reducing gear, twice deceleration of secondary decelerator, and then is converted to the rotation at a slow speed of concave surface anvil dish, realizes left marking knife and right marking knife and evenly chops operation at concave surface anvil dish.Because left marking knife and right marking knife only keep in touch with the concave work surface plate be made up of plastic material in concave surface anvil dish, while completing and chopping filling operation, the blade of left marking knife and right marking knife effectively can be protected.The anvil dish protection cylinder be enclosed within outside concave surface anvil dish also can be avoided chopping the dispersion and splashing that produce meat foam or vegetables foam in filling operation process.
The invention has the beneficial effects as follows, compared with prior art, the present invention can realize two panels marking knife and hocket and back and forth chop operation continuously, the concave surface anvil dish of automatic rotation can ensure to chop evenly, significantly improve and chop filling operating efficiency and filling quality processed, the technological deficiency that existing mincing machine exists can be overcome, be more suitable for popularization; Also be provided with anvil dish protection cylinder outward at the concave surface anvil dish of anvil dish device, effectively can avoid the loss of various nutritional labeling and the generation of filling foam splash phenomena.In addition, the present invention can also realize chopping the frequency of filling to mincing machine, the stroke of marking knife motion regulates, and regulative mode is simple, has strong adaptability, regulates simple, easy to operate feature.
Accompanying drawing explanation
Fig. 1 is general structure schematic diagram of the present invention;
Fig. 2 is the position relationship schematic diagram between executive system of the present invention and anvil dish device;
Fig. 3 is the structural representation of executive system of the present invention;
Fig. 4 is the structural representation of concave surface anvil dish of the present invention;
Fig. 5 is the structural representation of safty shield of the present invention.
Detailed description of the invention
The technological means realized to make the present invention, creation characteristic, reaching object and effect is easy to understand, below in conjunction with specific embodiment and diagram, setting forth the present invention further.
As depicted in figs. 1 and 2, the continuous mincing machine of a kind of double-pole, comprises base 1, dynamical system 2, main drive 3, anvil dish transmission device 4, executive system 5, anvil dish device 6 and safty shield 7.Wherein, described dynamical system 2, executive system 5, anvil dish device 6 and safty shield 7 are all fixedly mounted on base 1, and the described security protection enclosure 7 is in the outside of anvil dish device 6, for preventing meat stuffing or vegatable stuffing from splashing chopping in process, also play safety protection function simultaneously; Described dynamical system 2 is connected with executive system 5 by main drive 3, for executive system 5 provides power; Described dynamical system 2 is connected with anvil dish device 6 by anvil dish transmission device 4, for anvil dish device 6 provides the power of rotation.
As depicted in figs. 1 and 2, described dynamical system 2 comprises motor 21, main reducing gear 22 and secondary decelerator 23.Wherein, described main reducing gear 22, secondary decelerator 23 are secondary conic reducer, and are all fixedly mounted on base 1 by screw; 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 the double output shaft 221 of main reducing gear 22 is in horizontally disposed; The double output shaft 221 of described main reducing gear 22 is connected by case butt coupling with the power shaft of time decelerator 23, 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 dish device 6 comprises concave surface anvil dish 61, anvil dish axle 62 and anvil dish seat 63.Wherein, the top of anvil dish axle 62 is fixed at described concave surface anvil dish 61, and the concave work surface plate 611 of plastic material is provided with at the top surface of concave surface anvil dish 61, be the anvil disk in pallet 612 of metal material in the below of concave work surface plate 611, described concave work surface plate 611 is connected by cementing mode with anvil disk in pallet 612; Described anvil dish axle 62 is connected with anvil dish seat 63 by journal bearing, thrust bearing; Described anvil dish seat 63 is fixedly mounted on base 1 by screw, for providing supporting for anvil dish axle 62.
As shown in Figure 1, Figure 2 and Figure 3, described executive system 5 comprises execution support 51, driving shaft 52, left executing agency 53, right executing agency 54, left marking knife 55 and right marking knife 56.Wherein, described execution support 51 is for installing driving shaft 52, left executing agency 53 and right executing agency 54, the lower end performing support 51 is fixedly mounted on base 1 by screw, its upper end is positioned at the top of safty shield 7, moved cross beam 511 is provided with at the middle part performing support 51, two tie-beams 512 are provided with in the upper end performing support 51, the left fairlead 513 of two axis being parallel is provided with in the top left side performing support 51, the right fairlead 514 of two axis being parallel is provided with in the top right side performing support 51, described moved cross beam 511 is connected with execution support 51 by screw, described tie-beam 512 is connected with execution support 51 mutually by the mode of welding, described driving shaft 52 is positioned at the top of moved cross beam 511, and the two ends of driving shaft 52 are all connected by journal bearing with execution support 51, for driving the left executing agency 53 of left marking knife 55 and the left and right sides for driving the right executing agency 54 of right marking knife 56 to be fixedly mounted on execution support 51 top respectively, described left marking knife 55 to be positioned at immediately below left executing agency 53 and to be connected by hinge with left executing agency 53, described right marking knife 56 is positioned at immediately below right executing agency 54, and is connected by hinge with right executing agency 54.
As shown in Figure 1, Figure 2 and Figure 3, described left executing agency 53 is identical with the structure of right executing agency 54.Described left executing agency 53 comprises left crankwheel 531, left connecting rod 532, left swing bar 533, left support bar 534, left doubly-linked plate 535 and left guide rod 536.Wherein, described left crankwheel 531 is arranged on the left end of driving shaft 52, and is connected by flat key with driving shaft 52; One end of described left connecting rod 532 is connected by hinge with left crankwheel 531, and the other end of left connecting rod 532 is connected by hinge with the rear end of left swing bar 533, and the front end of described left swing bar 533 is connected by hinge with left doubly-linked plate 535; The lower end of described left support bar 534 is connected by hinge with execution support 51, and left support bar 534 upper end is connected by hinge with the middle part of left swing bar 533; Described left guide rod 536 has two, described left guide rod 536 is placed in the left fairlead 513 at execution support 51 top, and keeping matched in clearance with left fairlead 513, the upper end of left guide rod 536 is connected mutually with left doubly-linked plate 535, and the lower end of left guide rod 536 is connected by hinge with left marking knife 55.
As shown in Figure 1, Figure 2 and Figure 3, described right executing agency 54 comprises right crankwheel 541, right connecting rod 542, right fork 543, right support bar 544, right doubly-linked plate 545 and right guide rod 546.Wherein, described right crankwheel 541 is arranged on the right-hand member of driving shaft 52, and is connected by flat key with driving shaft 52; One end of described right connecting rod 542 is connected by hinge with right crankwheel 541, and the other end of right connecting rod 542 is connected by hinge with the rear end of right fork 543, and the front end of described right fork 543 is connected by hinge with right doubly-linked plate 545; The lower end of described right support bar 544 is connected by hinge with execution support 51, and 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 at execution support 51 top, and keeping matched in clearance with right fairlead 514, the upper end of right guide rod 546 is connected mutually 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 that left marking knife 55 and right marking knife 56 oppositely chop operation in turn, need during assembling to make right connecting rod 542 differ 180 ° at the setting angle of right crankwheel 541 with the setting angle of left connecting rod 532 on left crankwheel 531.
As depicted in figs. 1 and 2, described main drive 3 comprises the first driving pulley 31, first driving-belt 32 and the first driven pulley 33, for by the power transmission of motor 21, main reducing gear 22 to driving shaft 52, and then by left executing agency 53, right executing agency 54 drives left marking knife 55, right marking knife 56 performs vertical direction straight reciprocating motion.The first described driving pulley 31 is arranged on the right-hand end of the double output shaft 221 of main reducing gear 22, and is connected by flat key with the double output shaft 221 of main reducing gear 22; The first described driven pulley 33 is arranged on the driving shaft 52 of executive system 5, and is connected by flat key with driving shaft 52; The first described driving pulley 31 is connected with the first driven pulley 33 by the first driving-belt 32.
As depicted in figs. 1 and 2, described anvil dish transmission device 4 comprises the second driving pulley 41, second driving-belt 42 and the second driven pulley 43.The second described driving pulley 43 is arranged on the top of the output shaft 231 of time decelerator 23, and is connected by flat key with the output shaft 231 of secondary decelerator 23; The second described driven pulley 43 is arranged on the anvil dish axle 62 of anvil dish device 6, and is connected by flat key with anvil dish axle 62; The second described driving pulley 41 is connected with the second driven pulley 43 by the second driving-belt 42.
As shown in Figure 1, Figure 2 with shown in Fig. 5, described safty shield 7 comprises protection post 71, protection grizzly bar 72 and anvil dish protection cylinder 73.Wherein, the bottom of described protection post 71 is fixed by screws on base 1, described protection grizzly bar 72 passes through mode and protection post 71 Joint of welding, described anvil dish protection cylinder 73 is positioned at the top of protection post 71, and be connected mutually by the mode of welding with protection post 71, described safty shield 73 is provided with breach, for installing the second driving-belt 42 in the side near dynamical system 2.Described left marking knife 55, gap between the rear and front end of right marking knife 56 and anvil dish protection cylinder 73 are 3-8mm.
As shown in Figure 2 and Figure 4, the gap between described anvil dish protection cylinder 73 and concave surface anvil dish 611 is 0.5-1.0mm.
During use, can first according to the actual needs chopping filling operation, regulate the two ends of left connecting rod 532, right connecting rod 542 in the position of left crankwheel 531, right crankwheel 541 and left swing bar 533, right fork 543 upper hinge tie point successively, thus adjust the stroke chopping frequency and straight reciprocating motion in vertical direction of left marking knife 55, right marking knife 56.After the meat or vegetables that need processing are put into the concave surface anvil dish 61 of anvil dish device 6, restart motor 21.The rotation of motor 21 passes to driving shaft 52 by main drive 3 after main reducing gear 22 first time slows down, and the rotary motion of driving shaft 52 converts left marking knife 55 and right marking knife 56 straight reciprocating motion in the vertical direction through left executing agency 53, right executing agency 54 to after changing successively.Because right connecting rod 542 during assembling differs 180 ° at the setting angle of right crankwheel 541 with the setting angle of left connecting rod 532 on left crankwheel 531, the i.e. motion phase angular difference 180 ° of left crankwheel 531 and right crankwheel 541, thus ensure that left marking knife 55 and right marking knife 56 in vertical direction oppositely chop operation in turn.The rotation of motor 21 passes to anvil dish device 6 by anvil dish transmission device 4 after main reducing gear 22, secondary decelerator 23 twice deceleration, and then be converted to the rotation at a slow speed of concave surface anvil dish 61, realize left marking knife 55 and right marking knife 56 and evenly chop operation at concave surface anvil dish 61.Because left marking knife 55 and right marking knife 56 only keep in touch with the concave work surface plate 611 be made up of plastic material in concave surface anvil dish 61, while completing and chopping filling operation, the blade of left marking knife 55 and right marking knife 56 effectively can be protected.The anvil dish protection cylinder 73 be enclosed within outside concave surface anvil dish 61 also can be avoided chopping the dispersion and splashing that produce meat foam or vegetables foam in filling operation process.
More than show and describe general principle of the present invention, principal character and advantage.The technical staff of the industry should understand; the present invention is not restricted to the described embodiments; what describe in above-described embodiment and description just illustrates principle of the present invention; without departing from the spirit and scope of the present invention; the present invention also has various changes and modifications, and these changes and improvements all fall in the scope of protection of present invention.Application claims protection domain is defined by appending claims and equivalent thereof.
Claims (3)
1. the continuous mincing machine of double-pole, comprise base, dynamical system, main drive, anvil dish transmission device, executive system, anvil dish device and safty shield, it is characterized in that: described dynamical system, executive system, anvil dish device and safty shield are all fixedly mounted on base, and described safty shield is enclosed within the outside of anvil dish device; Described dynamical system is connected with executive system by main drive, and described dynamical system is connected with anvil dish device by anvil dish transmission device;
Described dynamical system comprises motor, main reducing gear and secondary decelerator, described main reducing gear, secondary decelerator are secondary conic reducer, and be all fixedly mounted on base by screw, described motor is arranged on the input of main reducing gear, described main reducing gear is double output shaft structure, and the double output shaft of main reducing gear is horizontally disposed, the double output shaft of described main reducing gear is connected by case butt coupling with the power shaft of time decelerator, and the output shaft of described secondary decelerator is arranged in vertical direction;
Described anvil dish device comprises concave surface anvil dish, anvil dish axle and anvil dish seat, the top of anvil dish axle is fixed at described concave surface anvil dish, and the concave work surface plate of plastic material is provided with at the top surface of concave surface anvil dish, be the anvil disk in pallet of metal material in the below of concave work surface plate, described concave work surface plate is connected by cementing mode with anvil disk in pallet; Described anvil dish axle is connected with anvil dish seat by journal bearing, thrust bearing; Described anvil dish seat is fixedly mounted on base by screw;
Described executive system comprises execution support, driving shaft, left executing agency, right executing agency, left marking knife and right marking knife, the lower end of described execution support is fixedly mounted on base by screw, the upper end of described execution support is positioned at the top of safty shield, moved cross beam is provided with at the middle part performing support, two tie-beams are provided with in the upper end performing support, the left fairlead of two axis being parallel is provided with in the top left side performing support, the right fairlead of two axis being parallel is provided with in the top right side performing support, described moved cross beam is connected with execution support by screw, described tie-beam is connected with execution support mutually by the mode of welding, described driving shaft is positioned at the top of moved cross beam, and the two ends of driving shaft are all connected by journal bearing with execution support, described left executing agency, right executing agency are fixedly mounted on the left and right sides performing cradle top respectively, described left marking knife to be positioned at immediately below left executing agency and to be connected by hinge with left executing agency, described right marking knife is positioned at immediately below right executing agency, and is connected by hinge with right executing agency,
Described main drive comprises the first driving pulley, the first driving-belt and the first driven pulley, and the first described driving pulley 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; The first described driven pulley is arranged on the driving shaft of executive system, and is connected by flat key with driving shaft; The first described driving pulley is connected with the first driven pulley by the first driving-belt;
Described anvil dish transmission device comprises the second driving pulley, the second driving-belt and the second driven pulley, and the second described driving 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; The second described driven pulley is arranged on the anvil dish axle of anvil dish device, and is connected by flat key with anvil dish axle; The second described driving pulley is connected with the first driven pulley by the second driving-belt;
Described safty shield comprises protection post, protection grizzly bar and anvil dish protection cylinder, the bottom of described protection post is fixed by screws on base, described protection grizzly bar passes through mode and the protection post Joint of welding, described anvil dish protection cylinder is positioned at the top of protection post, and be connected mutually by the mode of welding with protection post, described security protection covers on and is provided with breach near the side of dynamical system; Described left marking knife, gap between the rear and front end of right marking knife and anvil dish protection cylinder are 3-8mm.
2. the continuous mincing machine of a kind of double-pole according to claim 1, it is characterized in that: described left executing agency is identical with the structure of right executing agency, described left executing agency comprises left crankwheel, left connecting rod, left swing bar, left support bar, left doubly-linked plate and left guide rod, described left crankwheel is arranged on the left end of driving shaft, and is connected by flat key with driving shaft; One end of described left connecting rod 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, and 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 is connected with execution bracket by hinges, 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, and described left guide rod is placed in the left fairlead of execution cradle top, and the upper end of left guide rod is connected mutually with left doubly-linked plate, and the lower end of left guide rod is connected by hinge with left marking knife;
Described right executing agency comprises right crankwheel, right connecting rod, right fork, right support bar, right doubly-linked plate and right guide rod, and described right crankwheel is arranged on the right-hand member of driving shaft, and is connected by flat key with driving shaft; One end of described right connecting rod 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, and the front end of described right fork is connected by hinge with right doubly-linked plate; The lower end of described right support bar is connected with execution bracket by hinges, and 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 placed in the right fairlead of execution cradle top, and the upper end of right guide rod is connected mutually with right doubly-linked plate, and the lower end of right guide rod is connected by hinge with right marking knife.
3. the continuous mincing machine of a kind of double-pole according to claim 1, is characterized in that: the gap between described anvil dish protection cylinder and concave surface anvil dish is 0.5-1.0mm.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201510734398.6A CN105234974B (en) | 2015-10-29 | 2015-10-29 | Double-knife continuous chopping machine |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201510734398.6A CN105234974B (en) | 2015-10-29 | 2015-10-29 | Double-knife continuous chopping machine |
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| CN105234974A true CN105234974A (en) | 2016-01-13 |
| CN105234974B CN105234974B (en) | 2017-03-22 |
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| CN201510734398.6A Expired - Fee Related CN105234974B (en) | 2015-10-29 | 2015-10-29 | Double-knife continuous chopping machine |
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Cited By (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105494583A (en) * | 2016-01-14 | 2016-04-20 | 广西大学 | Beating machine |
| CN106070505A (en) * | 2016-07-26 | 2016-11-09 | 北京工商大学 | A kind of automatic minicng machine and automatically chop filling method |
| CN107027861A (en) * | 2017-05-12 | 2017-08-11 | 南京信息职业技术学院 | Beating type meat paste 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) |
| CN109275691A (en) * | 2018-08-16 | 2019-01-29 | 湖北省崇湖生态农业有限公司 | A kind of automatic Apparatus for producing chopped meat |
| CN109497124A (en) * | 2018-11-13 | 2019-03-22 | 赵田斌 | A kind of automatic Apparatus for producing chopped meat |
| CN113083456A (en) * | 2021-03-22 | 2021-07-09 | 胡晓颖 | Intelligent automatic food cutting equipment |
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| US20030121422A1 (en) * | 2001-12-31 | 2003-07-03 | Mendenhall George A. | Apparatus for cutting optimally sized fruit and vegetable pieces |
| CN2616060Y (en) * | 2003-02-26 | 2004-05-19 | 刘长锁 | Automatic minicng machine |
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Cited By (10)
| Publication number | Priority date | Publication date | Assignee | Title |
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| CN105494583A (en) * | 2016-01-14 | 2016-04-20 | 广西大学 | Beating machine |
| CN106070505A (en) * | 2016-07-26 | 2016-11-09 | 北京工商大学 | A kind of automatic minicng machine and automatically chop filling method |
| CN107027861A (en) * | 2017-05-12 | 2017-08-11 | 南京信息职业技术学院 | Beating type meat paste 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) |
| CN109275691A (en) * | 2018-08-16 | 2019-01-29 | 湖北省崇湖生态农业有限公司 | A kind of automatic Apparatus for producing chopped meat |
| 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 |
| CN109497124A (en) * | 2018-11-13 | 2019-03-22 | 赵田斌 | A kind of automatic Apparatus for producing chopped meat |
| 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 |
| CN113083456A (en) * | 2021-03-22 | 2021-07-09 | 胡晓颖 | Intelligent automatic food cutting equipment |
| 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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