Fresh konjak pulping machine
Technical Field
The utility model relates to a fiberizer especially relates to a bright konjaku fiberizer.
Background
Konjak, ancient konjak, Araceae herbaceous plant, is widely distributed in China. The whole plant is toxic, the tuber is the most toxic, the whole plant cannot be eaten raw, and the whole plant needs to be eaten after being processed, so that the health-care tea has various effects of reducing blood pressure, reducing blood sugar, reducing blood fat, balancing salt, cleaning stomach, regulating intestines, expelling toxin and the like.
At present, konjak becomes a healthy food, and is used for making various foods after being crushed. The manufacturing process is complex and consumes a large amount of manpower and energy, the konjac slices are full in toughness after being dried, the crushing process is very energy-consuming, and many nutritional ingredients of konjac can be lost in the crushing process, so that the manufacturing difficulty of konjac products is high.
SUMMERY OF THE UTILITY MODEL
The utility model discloses the technical problem that will solve is: the fresh konjak pulping machine can automatically grind fresh konjak, so that konjak products can be manufactured conveniently at the later stage, and the problems that the process of drying and then grinding the fresh konjak is complex, and a large amount of labor and energy consumption are required to be consumed in the past are solved.
In order to solve the technical problem, the technical scheme of the utility model is that: the utility model provides a bright konjaku fiberizer, includes the frame, be fixed with the shell on the frame, the mill is installed to the shell internal rotation, be fixed with the drive on the frame the rotatory driving motor of mill, the feeder hopper is installed at the top of shell, the feeder hopper lower extreme stretches into the shell inside until the top of mill, the space has formed the mill thick liquid space between feeder hopper and the mill, the top of feeder hopper is provided with the feed inlet, the clearance of arranging the thick liquid has been formed between the lower terminal surface of feeder hopper and the mill, the lower extreme of the inside cavity of shell is provided with row's thick liquid mouth, it arranges the thick liquid pipe to be connected with on the thick liquid mouth to arrange.
Preferably, an adjusting mechanism for adjusting the slurry discharge gap is arranged between the feed hopper and the top of the shell.
As a preferred scheme, adjustment mechanism includes adjusting bolt and puller bolt, the periphery of feeder hopper is fixed with adjusting flange, the last flange screw that is provided with of adjusting flange, the equal threaded mounting in the top of shell of adjusting bolt and puller bolt, adjusting bolt's lower extreme screw thread is installed in the flange screw, the lower extreme puller of puller bolt the last face of adjusting flange.
As a preferable scheme, the upper opening of the feeding hopper is in a closed trumpet shape, and the lower opening of the feeding hopper is in a flared trumpet shape.
As a preferred scheme, the frame includes that the installation is dull and stereotyped and set up in the supporting legs of installation dull and stereotyped bottom, the shell is fixed in the dull and stereotyped top of installation, is fixed with the bearing frame on the installation dull and stereotyped, the last main shaft that rotates of bearing frame is installed, the mill is fixed in on the main shaft, be provided with on the installation dull and stereotyped with the manger plate circle of bearing frame parcel, arrange the thick liquid mouth and set up between manger plate circle and shell.
As a preferred scheme, a diversion bottom plate is arranged between the water retaining ring and the shell, and the slurry discharge port is arranged on the lowest side of the diversion bottom plate.
Preferably, the housing includes a housing body and a top cover, and the top cover and the housing body are detachably fixed by a latch.
After the technical scheme is adopted, the utility model discloses an effect is: because the fresh konjak pulping machine comprises a machine base, a shell is fixed on the machine base, a grinding disc is rotatably installed in the shell, a driving motor for driving the grinding disc to rotate is fixed on the machine base, a feed hopper is installed at the top of the shell, the lower end of the feed hopper extends into the shell to the upper part of the grinding disc, a pulping space is formed between the feed hopper and the grinding disc, a feed inlet for feeding fresh konjak is arranged above the feed hopper, a pulping gap is formed between the lower end surface of the feed hopper and the grinding disc, a pulping port is arranged at the lower end of a cavity in the shell, and a pulping pipe is connected on the pulping port, when the pulping machine is used, fresh konjak is directly put in from the feed inlet of the feed hopper, then the konjak enters the pulping space to be pulped by the rotating grinding disc, and the pulped pulp can flow out from the pulping gap, the fresh konjak pulping machine can directly pulp fresh konjak through the pulp discharging pipe from the pulp discharging port, so that the subsequent centrifugal drying of konjak pulp is facilitated, konjak products are conveniently made, and the fresh konjak pulping machine can be used for making konjak tofu by adding clear water from the feeding port in the pulp grinding process.
And because the adjusting mechanism for adjusting the size of the opening of the pulp discharging gap is arranged between the feed hopper and the top of the shell, the size of the opening of the pulp discharging gap can be adjusted by the adjusting mechanism, so that the pulp discharging speed is controlled, and the fineness of pulp grinding is adjusted.
And because the adjusting mechanism comprises an adjusting bolt and a puller bolt, an adjusting flange is fixed at the periphery of the feed hopper, a flange screw hole is formed in the adjusting flange, the adjusting bolt and the puller bolt are installed at the top of the shell in a threaded manner, the lower end of the adjusting bolt is installed in the flange screw hole in a threaded manner, the lower end of the puller bolt is pulled against the upper plate surface of the adjusting flange, the adjusting mechanism is simple in structure and convenient to operate, the adjusting flange can be driven to move upwards or downwards by rotating the adjusting bolt, the puller bolt can be screwed to pull the adjusting flange after the adjusting is in place, the up-and-down adjustment of the feed hopper is realized, the size of the gap opening of the slurry discharge and the slurry discharge can be changed by adjusting the feed hopper up-and-down adjustment, the whole operation is very convenient, and the feed hopper is also reliable in fixation.
The upper opening of the feeding hopper is in a closed horn shape, the lower opening of the feeding hopper is in a flared horn shape, the upper opening of the feeding hopper is in the horn shape, feeding of fresh konjak can be facilitated, the lower opening of the feeding hopper is in the flared horn shape, so that grinding materials are contacted with the grinding disks by the fresh konjak through gravity of the fresh konjak in the process of rotating the grinding materials by the grinding disks, downward pressure is generated through the lower opening of the horn shape of the feeding hopper, and grinding of the fresh konjak is facilitated.
And because the flow guide bottom plate is arranged between the water retaining ring and the shell, and the pulp discharge port is arranged at the lowest side of the flow guide bottom plate, the pulp grinding of the fresh konjak can be quickly and thoroughly guided out to the pulp discharge port through the flow guide plate, so that the pulp grinding of the fresh konjak is prevented from being retained in the shell to cause deterioration.
Drawings
The present invention will be further explained with reference to the drawings and examples.
Fig. 1 is a schematic structural diagram of an embodiment of the present invention;
FIG. 2 is a schematic structural view of the upper half of a feed hopper according to an embodiment of the present invention;
FIG. 3 is a schematic structural view of the lower half part of the feed hopper of the embodiment of the present invention;
FIG. 4 is a front view of an adjustment mechanism according to an embodiment of the present invention;
FIG. 5 is a front view of a grinding disc according to an embodiment of the present invention;
FIG. 6 is an enlarged view of the structure at A in FIG. 1;
in the drawings: 1. a machine base; 11. installing a flat plate; 12. supporting legs; 2. a housing; 21. a housing; 22. a top cover; 23. locking; 3. a grinding disc; 4. a drive motor; 5. a feed hopper; 51. the upper half part of the feed hopper; 52. the lower half part of the feed hopper; 6. a pulping space; 7. a pulp discharge gap; 8. a pulp discharge port; 9. a slurry discharge pipe; 10. an adjustment mechanism; 101. adjusting the bolt; 102. jacking the bolt; 13. adjusting the flange; 14. a bearing seat; 15. a main shaft; 16. a water retaining ring; 17. a diversion bottom plate.
Detailed Description
The present invention will be described in further detail with reference to the following examples.
As shown in fig. 1-6, a bright konjaku fiberizer, including frame 1, be fixed with shell 2 on the frame 1, the mill 3 is installed to the internal rotation of shell 2, is provided with a plurality of gerar grinding on the mill 3, is fixed with the rotatory driving motor 4 of drive mill 3 on the frame 1, and feeder hopper 5 is installed at the top of shell 2, and feeder hopper 5 lower extreme stretches into shell 2 inside until mill 3's top, the space has formed the defibrination space 6 between feeder hopper 5 and the mill 3, and feeder hopper 5's top is provided with the feed inlet, has formed row's thick liquid clearance 7 between feeder hopper 5's lower terminal surface and the mill 3, and the lower extreme of the inside cavity of shell 2 is provided with row's thick liquid mouth 8, is connected with row's thick liquid pipe 9 on row's thick liquid mouth 8.
In this embodiment, shell 2 includes casing 21 and top cap 22, top cap 22 and casing 21 can dismantle fixedly through hasp 23, install the adjustment mechanism 10 that is used for adjusting row thick liquid clearance 7 between the top cap 22 of feeder hopper 5 and shell 2, and adjustment mechanism 10 includes at least a set of adjusting bolt 101 and puller bolt 102, and adjusting bolt 101 and puller bolt 102 interval set up, and the periphery of feeder hopper 5 is fixed with adjusting flange 13, is provided with the flange screw on the adjusting flange 13, adjusting bolt 101 and the equal screw thread of puller bolt 102 are installed in top cap 22 of shell 2, and the lower extreme screw thread of adjusting bolt 101 is installed in the flange screw, and the lower extreme of puller bolt 102 is tight the last face of adjusting flange 13.
In this embodiment, feeder hopper 5 divide into two parts, feeder hopper upper half 51 and feeder hopper lower half 52, and the upper shed of feeder hopper 5 is the tubaeform of binding off, and the lower shed of feeder hopper 5 sets up the tubaeform of flaring, and feeder hopper upper half 51 is the tubaeform of binding off promptly, and feeder hopper lower half 52 sets up the tubaeform of flaring, and feeder hopper upper half 51 suit is in the inside of feeder hopper lower half 52.
In this embodiment, frame 1 includes that installation flat plate 11 and the supporting legs 12 that set up in installation flat plate 11 bottom, shell 2 is fixed in the top of installation flat plate 11, is fixed with bearing frame 14 on the installation flat plate 11, and the last rotation of bearing frame 14 installs main shaft 15, and mill 3 is fixed in on the main shaft 15, be provided with on the installation flat plate 11 with the water retaining ring 16 of bearing frame 14 parcel, arrange thick liquid mouth 8 and set up between water retaining ring 16 and shell 2, be provided with water conservancy diversion bottom plate 17 between water retaining ring 16 and the shell 2, arrange thick liquid mouth 8 and set up in the minimum side of water conservancy diversion bottom plate 17, can set up damping device in supporting legs 12.
When in use, fresh konjak is directly fed from a feed inlet of the upper half part 51 of the feed hopper, then the konjak enters the pulping space 6, the millstone 3 is driven by the driving motor 4 to rotate for pulping, the pulped pulp flows out from the pulp discharge gap 7 and finally flows out from the pulp discharge port 8 through the pulp discharge pipe 9 after being stopped by the lower half part 52 of the feed hopper, when the pulp discharge speed needs to be changed in production, the adjusting flange 13 can be driven to move upwards or downwards by rotating the adjusting bolt 101, when the pulp discharge speed is adjusted in place, the adjusting flange 13 can be tightly pressed by screwing the tightening bolt 102, thus the integral up-and-down adjustment of the feed hopper 5 is realized, the size of the pulp discharge gap 7 is adjusted conveniently, the pulping machine can directly pulp fresh konjak, the subsequent centrifugal drying of konjak pulp is facilitated, and the konjak product is conveniently manufactured, and clear water can be added from the feeding hole in the pulping process to prepare the konjak tofu, and the fresh konjak pulping machine has high automation degree.
The motor mentioned in the embodiment is the conventional technology at present, the detailed structure and principle and other designs of the cylinder, the motor and other transmission mechanisms are disclosed in detail in the fifth edition of mechanical design manual printed for twenty-eight times in the fifth edition of Beijing in 4.2008, belonging to the prior art, the structure is clear, the control and the travel switch of the motor are also described in detail in the book of Motor drive and speed regulation published by the chemical industry publisher in 07.01.2015, and therefore, the circuit connection is clear.
The above-mentioned embodiments are only descriptions of the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and all modifications and changes made by the technical solution of the present invention should fall within the protection scope defined by the claims of the present invention on the basis of not departing from the spirit of the present invention.