CN204295736U

CN204295736U - Multifunction thredding dicer

Info

Publication number: CN204295736U
Application number: CN201420771316.6U
Authority: CN
Inventors: 陈生国; 陈建林
Original assignee: Individual
Current assignee: Individual
Priority date: 2014-12-10
Filing date: 2014-12-10
Publication date: 2015-04-29
Anticipated expiration: 2024-12-10

Abstract

Multifunction thredding dicer, comprise frame, feed system and chopping dicing device, its beneficial effect is contained in frame by feed system together with chopping dicing device, and the stereochemical structure that the horizontal blade on chopping dicing device and longitudinal blade are formed can make the rhizome melon and fruit by cutting can not be subjected to displacement in the process of section; After cutterhead installs, the position of blade is fixing, the size of the dish slice thus cut out is fixing, speed and the trend of charging and discharging during chopping are fixing, the dish slice cut out like this is neat, and then under the effect of blade of dicing, continues dish slice to be cut into dish fourth, greatly can improve efficiency of dicing, replace method of manually dicing; This device structure is simple, and cut the dish effective, efficiency is high, is applicable to food factory and catering trade use.

Description

Multifunction thredding dicer

Technical field

The utility model relates to technical field of agricultural product process, particularly a kind of Multifunction thredding dicer that can automatically cut into inch strips thread by rhizome melon and fruit.

Background technology

Root crop is as hot pickled mustard tube, Ipomoea batatas, garlic, taro, potato, radish etc., and melon or fruit type crops is as cucumber, pumpkin, wax gourd, eggplant etc., and carrying out cutting into slices or chopping processing after gathering, is all generally adopt manual cutting.So not only time-consuming, and a large amount of cost of labor can be wasted.Qualification particularly due to everyone is different, the dish sheet cut out or dish slice irregular, have a strong impact on product quality.

In order to accelerate chopping speed, people have invented filament cutter, and existing filament cutter, mainly comprise knife formula vegetable-chopper and swivel moves the rotary type vegetable-cutter of cutting the dish, most function ratio is more single, and it is large to install the space taken, structure is not compact, and vegetables easily train off, poor stability, cut uneven, effect of cutting the dish and of low quality, mostly also need manual pouring into, and with hand, operation inconvenience, production efficiency improves limited, cannot large-scale popularization application.

For this reason, the research and development of inventor team have applied for that the patent No. is " the multiplex vegetable-choppers of stepless time adjustment of 2013203245957 ", and the patented product can improve chopping speed and efficiency greatly.But through long-term practical application, the dish slice that discovery uses the patented product to cut out is also irregular, and the edge of the dish slice sometimes cut out is not even straight line, but the random curve of milli.Through carefully studying, applicant finds that its curved blade easily makes the rhizome by cutting be subjected to displacement in the process of section, offset, so that it is irregular to cut into slices from centre to both sides.Simultaneously owing to regulating the rotary speed of motor to regulate the transfer rate of conveying device easily to make product of being cut the dish occur dislocation by means of only frequency converter, so that the dish slice cut out does not have rule.The most important thing is to cut out dish fourth.

Utility model content

Technical problem to be solved in the utility model is for above-mentioned technical problem, a kind of comprehensive chopping dicing device be made up of with the chopping cutterhead be arranged in cover plate cover plate of dicing is provided, and directly raw material are sent into by feeding material pressing device, to cut out uniform dish slice or dish fourth, improve the quality of crops converted products.

For solving the problems of the technologies described above, the technical scheme that the utility model adopts is a kind of Multifunction thredding dicer, comprises frame, feed system and chopping dicing device, and it is characterized in that frame comprises added and undercarriage, added side is also provided with charging aperture.

Described feed system is combined by feeding drive system, conveying device and material pressing device and is formed, wherein feeding drive system is formed by connecting by feeding frequency converter and threephase asynchronous, wherein feeding frequency converter is arranged on added top, and threephase asynchronous is arranged on undercarriage inside; Conveying device is made up of charging hopper, material transfer groove, material transfer band, material transfer driving wheel, material transfer drive and material transfer pressure wheel, be arranged on added inside and added upper surface, material transfer driving wheel, material transfer band, material transfer drive and material transfer pressure wheel are connected to each other triangularity circulation material transfer structure and are arranged in material transfer groove, and wherein material transfer pressure wheel is close to charging aperture; Material pressing device is made up of binder driving wheel, material pressing belt, binder drive and pressure wheel, and binder driving wheel, material pressing belt, binder drive and pressure wheel are connected to each other triangularity circulation press material structure and are arranged in material transfer groove, and wherein pressure wheel is close to charging aperture; Pressure wheel and material transfer pressure wheel are combined and are formed binder charging aperture and towards side and correspondence is arranged on the gating location of added side in material transfer groove; Threephase asynchronous is connected with binder driving wheel with material transfer driving wheel respectively by drive chain.

Described chopping dicing device is made up of chopping drive system and chopping dish of dicing, wherein chopping drive system is formed by chopping frequency converter, monopole asynchronous motor, drive and rotating shaft attaching, chopping frequency converter is arranged on added top, monopole asynchronous motor is arranged on undercarriage inside, drive is arranged on added inside, and rotation axis horizontal is arranged on added inside and extends to the outside of added side; Chopping dish of dicing is combined by dish frame, chopping cutterhead, blade of dicing and is formed; Its mid-game frame is disc framework, comprise try to get to the heart of a matter, sidewall and disk cover, dish frame is vertically mounted on added lateral surface, and position corresponding with the charging aperture of added side on trying to get to the heart of a matter has dug charging aperture, and rotating shaft passes from the center of trying to get to the heart of a matter; Chopping cutterhead is combined by substrate, horizontal blade and longitudinal blade and is formed, wherein substrate is circular, and the one side of substrate is charging tangent plane, and another side is discharging tangent plane, the home position of substrate has dug axis hole, and the surrounding of axis hole is provided with three equally distributed rectangle edges of a knife; Horizontal blade is the horizontal blade of rectangle, and horizontal blade is close to the rectangle edge of a knife and is arranged on charging tangent plane; Longitudinal blade is made up of knife rest and longitudinal blade, and knife rest is provided with blade socket, fixing ear-lobe, spacer; Longitudinal blade is inserted in blade socket, again spacer be pressed in the side of longitudinal blade and fix, namely become longitudinal knife sheet, namely longitudinal blade is become shredding knife dish towards charging tangent plane through the rectangle edge of a knife by the discharging tangent plane fixing ear-lobe on longitudinal blade being arranged on substrate; The charging tangent plane of chopping cutterhead is close to and is tried to get to the heart of a matter and installed on the rotary shaft and make the rectangle edge of a knife align charging aperture by axis hole; Blade of dicing is a slice or two panels strip blade, and the two ends of every sheet blade are all fixedly mounted on the sidewall of dish frame, and are positioned at the outside of the discharging tangent plane of substrate.

Preferably, the side of substrate upper shaft hole and discharging tangent plane are also equiped with axle sleeve.

Preferably, the rectangle edge of a knife side and the side being positioned at discharging tangent plane has also dug discharging angle.

During use, machine, charging hopper will be put into by the product of cutting the dish, by the transmission of material transfer groove, under the synergy of conveying device and material pressing device, vegetable is sent into charging aperture, and then enters the rectangle edge of a knife on chopping dicing device, because chopping cutterhead is in fast rotational, under the synergy of horizontal blade and longitudinal blade, cut out neat dish slice, then under the effect of blade of dicing, cut out dish fourth.

The beneficial effects of the utility model are contained in frame by feed system together with chopping dicing device, and the stereochemical structure that the horizontal blade on chopping dicing device and longitudinal blade are formed can make the rhizome melon and fruit by cutting can not be subjected to displacement in the process of section; After cutterhead installs, the position of blade is fixing, the size of the dish slice thus cut out is fixing, speed and the trend of charging and discharging during chopping are fixing, the dish slice cut out like this is neat, and then under the effect of blade of dicing, continues dish slice to be cut into dish fourth, greatly can improve efficiency of dicing, replace method of manually dicing; This device structure is simple, and cut the dish effective, efficiency is high, is applicable to food factory and catering trade use.

Accompanying drawing explanation

Fig. 1 is integral perspective structural representation of the present utility model.

Fig. 2 is the structural representation of the utility model mid-game frame.

Fig. 3 is the structural representation of the dish frame having installed chopping cutterhead in the utility model.

Fig. 4 is the structural representation of the dish frame having installed blade of dicing in the utility model outside chopping cutterhead.

Fig. 5 is the structural representation of chopping cutterhead in the utility model.

Fig. 6 is the structural representation of each parts of longitudinal blade in the utility model.

Fig. 7 is the positional structure schematic diagram of conveying device, material pressing device and chasing-attachment of dicing in the utility model.

In figure: 1. frame, 2. feed system, 3. chopping dicing device, 11. is added, 12. undercarriages, 13. charging apertures, 4. feeding drive system, 5. conveying device, 6. material pressing device, 41. feeding frequency converters, 42. threephase asynchronouses, 51. charging hoppers, 52. material transfer grooves, 53. material transfer bands, 54. material transfer driving wheels, 55. material transfer drives, 56. material transfer pressure wheels, 61. binder driving wheels, 62. material pressing belts, 63. binder drives, 64. pressure wheels, 65. binder charging apertures, 7. chopping drive system, 8. chopping is diced dish, 71. chopping frequency converters, 72. monopole asynchronous motors, 73. drives, 74. rotating shafts, 81. dish frames, 82. chopping cutterheads, 83. dice blade, 811. try to get to the heart of a matter, 812. sidewall, 813. disk cover, 84. substrates, 85. horizontal blades, 86. longitudinal blades, 841. charging tangent planes, 842. discharging tangent planes, 843. axis hole, the 844. rectangle edges of a knife, 861. knife rest, 862. longitudinal blades, 863. blade sockets, 864. fixing ear-lobes, 865. spacer, 831. strip blades, 131. charging aperture.

Detailed description of the invention

Below in conjunction with embodiment, the invention will be further described.

Embodiment 1.

As shown in the figure, make a kind of Multifunction thredding dicer, comprise Multifunction thredding dicer, comprise frame 1, feed system 2 and chopping dicing device 3.First make frame 1, carry out added 11 and undercarriage 12, and dig charging aperture 13 in added side.Then feed system 2 is made, feed system 2 is combined by feeding drive system 4, conveying device 5 and material pressing device 6 and is formed, wherein feeding drive system 4 is formed by connecting by feeding frequency converter 41 and threephase asynchronous 42, wherein feeding frequency converter 41 is arranged on the top of added 11, and it is inner that threephase asynchronous 42 is arranged on undercarriage 12; Conveying device 5 is made up of charging hopper 51, material transfer groove 52, material transfer band 53, material transfer driving wheel 54, material transfer drive 55 and material transfer pressure wheel 56, be arranged on added 11 inner and added 11 upper surface on, material transfer driving wheel 54, material transfer band 53, material transfer drive 55 and material transfer pressure wheel 56 are connected to each other triangularity circulation material transfer structure and are arranged in material transfer groove 52, and wherein material transfer pressure wheel 56 is close to charging aperture 13; Material pressing device 6 is made up of binder driving wheel 61, material pressing belt 62, binder drive 63 and pressure wheel 64, binder driving wheel 61, material pressing belt 62, binder drive 63 and pressure wheel 64 are connected to each other triangularity circulation press material structure and are arranged in material transfer groove 52, and wherein pressure wheel 64 is close to charging aperture 13; Pressure wheel 64 and material transfer pressure wheel 56 are combined formation binder charging aperture 65 and are arranged on charging aperture 13 position of added 11 sides towards side correspondence in material transfer groove 52; Threephase asynchronous 42 is connected with binder driving wheel 61 with material transfer driving wheel 54 respectively by drive chain.Make chopping dicing device 3 again, chopping dicing device 3 is made up of chopping drive system 7 and chopping dish 8 of dicing, wherein chopping drive system 7 is formed by chopping frequency converter 71, monopole asynchronous motor 72, drive 73 and rotating shaft 74 attaching, chopping frequency converter 71 is arranged on the top of added 11, it is inner that monopole asynchronous motor 72 is arranged on undercarriage 12, drive 73 is arranged on added 11 inside, and rotating shaft 74 level is arranged on added 11 inside and extends to the outside of added 11 sides; Chopping dish 8 of dicing is combined by dish frame 81, chopping cutterhead 82, blade 83 of dicing and is formed; Its mid-game frame 81 is disc framework, comprise try to get to the heart of a matter 811, sidewall 812 and disk cover 813, dish frame 81 is vertically mounted on added 11 lateral surfaces, and has dug charging aperture 131 in the position corresponding with the charging aperture 13 of added 11 sides on 811 of trying to get to the heart of a matter, rotating shaft 74 from try to get to the heart of a matter 811 center pass; Chopping cutterhead 82 is combined by substrate 84, horizontal blade 85 and longitudinal blade 86 and is formed, wherein substrate 84 is circular, the one side of substrate 84 is charging tangent plane 841, another side is discharging tangent plane 842, the home position of substrate has dug axis hole 843, the surrounding of axis hole 843 is provided with three equally distributed rectangle edges of a knife 844; Horizontal blade 85 is the horizontal blade of rectangle, and horizontal blade 85 is close to the rectangle edge of a knife 844 and is arranged on charging tangent plane 841; Longitudinal blade 86 is made up of knife rest 861 and longitudinal blade 862, and knife rest 861 is provided with blade socket 863, fixing ear-lobe 864, spacer 865; Longitudinal blade 862 is inserted in blade socket 863, again spacer 865 be pressed in the side of longitudinal blade 862 and fix, namely become longitudinal knife sheet 86, namely longitudinal blade 862 is become shredding knife dish 82 through the rectangle edge of a knife 844 towards charging tangent plane 841 by the discharging tangent plane 842 fixing ear-lobe 864 on longitudinal blade 86 being arranged on substrate 84; The charging tangent plane 841 of chopping cutterhead 82 is close to and is tried to get to the heart of a matter 811 and to be arranged on by axis hole 843 on rotating shaft 74 and to make the rectangle edge of a knife 844 align charging aperture 131; Dice blade 83 for a slice or two panels strip blade 831, and the two ends of every length of a film bar blade 831 are all fixedly mounted on the sidewall 812 of dish frame 81, and are positioned at the outside of the discharging tangent plane 842 of substrate 84.So just make the utility model Multifunction thredding dicer.

Embodiment 2.

On the basis of embodiment 1, by installing axle sleeve fixing on the side of substrate 84 upper shaft hole 843 and discharging tangent plane 842.

Embodiment 3.

On the basis of embodiment 1, by the side of the rectangle edge of a knife 844 and the side being positioned at discharging tangent plane 842 digs discharging angle.

Claims

1. Multifunction thredding dicer, comprises frame (1), feed system (2) and chopping dicing device (3), it is characterized in that:

Described frame (1) comprises added (11) and undercarriage (12), and the side of added (11) is also provided with charging aperture (13);

Described feed system (2) is combined by feeding drive system (4), conveying device (5) and material pressing device (6) and is formed, wherein feeding drive system (4) is formed by connecting by feeding frequency converter (41) and threephase asynchronous (42), wherein feeding frequency converter (41) is arranged on the top of added (11), and it is inner that threephase asynchronous (42) is arranged on undercarriage (12); Conveying device (5) is made up of charging hopper (51), material transfer groove (52), material transfer band (53), material transfer driving wheel (54), material transfer drive (55) and material transfer pressure wheel (56), be arranged on the upper surface of added (11) inside and added (11), material transfer driving wheel (54), material transfer band (53), material transfer drive (55) and material transfer pressure wheel (56) are connected to each other triangularity circulation material transfer structure and are arranged in material transfer groove (52), and wherein material transfer pressure wheel (56) is close to charging aperture (13); Material pressing device (6) is made up of binder driving wheel (61), material pressing belt (62), binder drive (63) and pressure wheel (64), binder driving wheel (61), material pressing belt (62), binder drive (63) and pressure wheel (64) are connected to each other triangularity circulation press material structure and are arranged in material transfer groove (52), and wherein pressure wheel (64) is close to charging aperture (13); Pressure wheel (64) and material transfer pressure wheel (56) are combined and are formed binder charging aperture (65) and towards side and correspondence is arranged on charging aperture (13) position of added (11) side in material transfer groove (52); Threephase asynchronous (42) is connected with binder driving wheel (61) with material transfer driving wheel (54) respectively by drive chain;

Described chopping dicing device (3) is made up of chopping drive system (7) and chopping dish (8) of dicing, wherein chopping drive system (7) is formed by chopping frequency converter (71), monopole asynchronous motor (72), drive (73) and rotating shaft (74) attaching, chopping frequency converter (71) is arranged on the top of added (11), it is inner that monopole asynchronous motor (72) is arranged on undercarriage (12), it is inner that drive (73) is arranged on added (11), and rotating shaft (74) level is arranged on added (11) inside and extends to the outside of added (11) side; Chopping dish (8) of dicing is combined by dish frame (81), chopping cutterhead (82), blade of dicing (83) and is formed; Its mid-game frame (81) is disc framework, comprise try to get to the heart of a matter (811), sidewall (812) and disk cover (813), dish frame (81) is vertically mounted on added (11) lateral surface, and having dug charging aperture (131) in try to get to the heart of a matter (811) upper position corresponding with the charging aperture (13) of added (11) side, rotating shaft (74) passes from the center of try to get to the heart of a matter (811); Chopping cutterhead (82) is combined by substrate (84), horizontal blade (85) and longitudinal blade (86) and is formed, wherein substrate (84) is circular, the one side of substrate (84) is charging tangent plane (841), another side is discharging tangent plane (842), the home position of substrate (84) has dug axis hole (843), the surrounding of axis hole (843) is provided with three equally distributed rectangle edges of a knife (844); Horizontal blade (85) is the horizontal blade of rectangle, and horizontal blade (85) is close to the rectangle edge of a knife (844) and is arranged on charging tangent plane (841); Longitudinal blade (86) is made up of knife rest (861) and longitudinal blade (862), and knife rest (861) is provided with blade socket (863), fixing ear-lobe (864), spacer (865); Longitudinal blade (862) is inserted in blade socket (863), again spacer (865) be pressed in the side of longitudinal blade (862) and fix, namely become longitudinal knife sheet (86), the discharging tangent plane (842) that the fixing ear-lobe (864) on longitudinal blade (86) is arranged on substrate (84) is upper and longitudinal blade (862) is namely become shredding knife dish (82) through the rectangle edge of a knife (844) towards charging tangent plane (841); The charging tangent plane (841) of chopping cutterhead (82) is close to and is tried to get to the heart of a matter (811) and axis hole (843) to be arranged on rotating shaft (74) upper and make the rectangle edge of a knife (844) align charging aperture (131); Dice blade (83) for a slice or two panels strip blade (831), and the two ends of every sheet blade are all fixedly mounted on the sidewall (812) of dish frame (81), and are positioned at the outside of the discharging tangent plane (842) of substrate (84).

2. Multifunction thredding dicer according to claim 1, is characterized in that the side of substrate (84) upper shaft hole (843) and discharging tangent plane (842) are also equiped with axle sleeve.

3. Multifunction thredding dicer according to claim 1, is characterized in that the side of the rectangle edge of a knife (844) and the side being positioned at discharging tangent plane (842) has also dug discharging angle.