CN205409527U - Konjaku silk knotter - Google Patents

Abstract

This patent application belongs to agricultural product processing machinery technical field, discloses a konjaku silk knotter, including fixing the mount table on the base, including being located the mount table below and rotating the roating seat of being connected with the mount table, arranges the rotating electrical machines of this revolving stage of drive on the base, the left side distaff of terminal surface fixed connection, right distaff under the roating seat, still including running through the lifter of mount table and roating seat, the upper end welding horizontally diaphragm of this lifter rotates on the base and is connected with this diaphragm complex cam, and the lower extreme level of lifter is extended to form and is colluded the claw, terminal surface and should collude the rigidity that the claw is relative and have the blade under the roating seat, left side distaff and right distaff coplane, left distaff, lifter, right distaff antarafacial. The utility model discloses need not artifical the participation, having reduced the human cost, the efficiency of knoing is higher.

Description

Rhizoma amorphophalli silk knot tying machine

Technical field

This utility model belongs to agricultural product processing machinery technology field.

Background technology

Rhizoma amorphophalli is perennation herbaceous plant, and its main component is glucomannoglycan, and containing the mineral such as the multiple aminoacid that can not synthesize human body and calcium, zinc, copper, is a kind of low fat, low sugar, low grade fever, high-quality dietary fiber without cholesterol.Rhizoma amorphophalli glucomannan has the multifrequency natures such as hydrophilic, gelation, antibiotic property, edibility, low heat value, can be as gel, emulsifying agent, thickening agent, stabilizer and filler, not only in food processing, application prospect is quite varied, also has development prospect widely in medicine, health care and other industry.

Rhizoma amorphophalli silk utilizes the filament that konjak starch is made exactly, for the ease of edible (being primarily to facilitate chopsticks clamping), it usually needs carried out tie a knot (usually breaking into fast knot) by Rhizoma amorphophalli silk, the most current, the knotting of Rhizoma amorphophalli silk relies primarily on the most free-hand completing, and knotting efficiency is low, and recruitment cost is high.

Utility model content

This utility model is intended to the Rhizoma amorphophalli silk knot tying machine providing a kind of automatization, efficiency high.

Rhizoma amorphophalli silk knot tying machine in this programme, including the erecting bed being fixed on pedestal, including being positioned at the rotating seat being rotationally connected below erecting bed and with erecting bed, pedestal being disposed with the electric rotating machine driving this turntable, described rotating seat lower surface is fixing connects a left side around bar, the right side around bar；Also include the elevating lever running through erecting bed and rotating seat, the transverse slat of the upper end weld horizontal of this elevating lever, being rotatably connected to the cam that this transverse slat coordinates on pedestal, the horizontal-extending formation in the lower end of elevating lever hooks pawl, and the position relative with this hook pawl, rotating seat lower surface is fixed with blade；A described left side is coplanar around bar with the right side around bar, left around bar, elevating lever, right around bar antarafacial.

Beneficial effect: this utility model is by arranging rotating seat, and it is fixing left around bar and right around bar on rotating seat, when rotating seat rotates 180 °, a left side makes Rhizoma amorphophalli filament winding become circle with the right side around bar around bar, then transverse slat is promoted by cam rotation, make to move on elevating lever, the pawl that hooks making elevating lever catches on the following of Rhizoma amorphophalli silk circle, Rhizoma amorphophalli silk is made to break into slip-knot, elevating lever continues upper mobile, drive Rhizoma amorphophalli silk slip-knot and blade contact, Rhizoma amorphophalli silk slip-knot is cut off by blade by hooking the position that pawl catches on, unnecessary Rhizoma amorphophalli silk skids off Rhizoma amorphophalli silk slip-knot, Rhizoma amorphophalli silk slip-knot becomes Rhizoma amorphophalli silk fast knot, i.e. complete the knotting of Rhizoma amorphophalli silk.This utility model participates in without artificial, decreases human cost, ties a knot in hgher efficiency.

Further, a described left side is L-shaped bar around bar, the right side around bar, and the arm portion of L-shaped bar is connected with erecting bed lower surface by bolt, connects more firm.

Further, between described elevating lever outer wall and erecting bed, rotating seat, sliding bearing is installed, rubs when elevating lever moves less.

Further, the output shaft of described electric rotating machine runs through erecting bed, more bonded with rotating seat, is used for transmitting torque.

Further, described pedestal being disposed with actuated by cams motor, the output shaft of this actuated by cams motor is bonded with cam flat, is used for transmitting torque.

Accompanying drawing explanation

Fig. 1 is the side view of this utility model embodiment Rhizoma amorphophalli silk knot tying machine；

Fig. 2 is the mounting structure schematic diagram of this utility model embodiment Rhizoma amorphophalli silk knot tying machine；

Fig. 3 is the schematic diagram that Rhizoma amorphophalli filament winding is become circle by this utility model embodiment Rhizoma amorphophalli silk knot tying machine；

Fig. 4 is that this utility model embodiment Rhizoma amorphophalli silk knot tying machine is by the schematic diagram of one-tenth slip-knot in dozen for Rhizoma amorphophalli filament winding；

Fig. 5 is the structural representation of Rhizoma amorphophalli silk slip-knot；

Fig. 6 is the structural representation of Rhizoma amorphophalli silk fast knot.

Detailed description of the invention

Below by detailed description of the invention, this utility model is described in further detail:

Reference in Figure of description includes: left belt wheel 1, right belt wheel 2, erecting bed 3, rotary shaft 4, electric rotating machine 5, rotating seat 6, left around bar 7, right around bar 8, elevating lever 9, hook pawl 10, sliding bearing 11, cam 12, transverse slat 13, blade 14.

Embodiment is substantially as shown in accompanying drawing 1, Fig. 2: Rhizoma amorphophalli silk knot tying machine is positioned on pedestal, Rhizoma amorphophalli silk tightening device it is additionally provided with on this pedestal, Rhizoma amorphophalli silk knot tying machine is positioned at above Rhizoma amorphophalli silk tightening device, this Rhizoma amorphophalli silk tightening device includes left belt wheel 1, right belt wheel 2, the two ends of Rhizoma amorphophalli silk are respectively by the clamp of homonymy, and Rhizoma amorphophalli silk stretches tight between left belt wheel 1, right belt wheel 2.

Rhizoma amorphophalli silk knot tying machine includes the erecting bed 3 being connected by bolt with pedestal, the center of this erecting bed 3 is provided through rotary shaft 4, vertical electric rotating machine 5 it is bolted on pedestal, the upper end of this rotary shaft 4 connects by being connected shaft coupling with the output shaft of electric rotating machine 5, rotary shaft 4 lower end is connected by flat key rotating seat 6, this rotating seat 6 is truncated cone-shaped, and rotary shaft 4 is positioned on the axial line of this rotating seat 6.

The lower surface of this rotating seat 6 is fixed with a left side around bar 7, the right side around bar 8, a described left side is L-shaped bar around bar 7, the right side around bar 8, the arm portion of L-shaped bar is connected with erecting bed 3 lower surface by bolt, and the galianconism portion of L-shaped bar is positioned at the downside of Rhizoma amorphophalli silk and for holding up Rhizoma amorphophalli silk.

Between bar 8, be disposed with elevating lever 9 on a left side around bar 7 and the right side, left around bar 7 with right in the same plane around bar 8, elevating lever 9 with left around bar 7 or the right side around bar 8 antarafacial.Being provided with cam 12 by rolling bearing on pedestal, this cam 12 is connected with the output shaft flat key of the actuated by cams motor arranged on pedestal.The upper side of elevating lever 9 is welded with the transverse slat 13 of level, and this transverse slat 13 bottom surface is relative with the wheel face of cam 12.Erecting bed 3 and rotating seat 6 are run through in the middle part of elevating lever 9, be disposed with between sliding bearing 11, elevating lever 9 and rotating seat 6 and be disposed with sliding bearing 11 between elevating lever 9 and erecting bed 3.Horizontal-extending formation hooks pawl 10 in the lower end of elevating lever 9, and rotating seat 6 lower surface is fixed with the blade 14 relative with this hook pawl 10, and the blade part of this blade 14 is down.

The work process of Rhizoma amorphophalli silk knot tying machine is as follows:

1. original state is as in figure 2 it is shown, transverse slat 13 is relative with the basal plane of cam 12, and transverse slat 13 does not contacts with cam 12.

2. electric rotating machine 5 is started, make rotary shaft 4 that seat 6 is rotated and rotate 180 °, a left side all rotates with rotating seat 6 around bar 8 around bar 7 and the right side, owing to a left side holds up Rhizoma amorphophalli silk around bar 7 and the right side around bar 8, Rhizoma amorphophalli silk around bar 7 with a left side and right rotate around bar 8 and is coiled into circle, the hook pawl 10 of elevating lever 9 is positioned at below circle, as shown in Figure 3；

3. starting cam drives motor, cam 12 is made to rotate 180 °, the convex surface of cam 12 contacts with transverse slat 13 and promotes and moves on transverse slat 13, move on transverse slat 13 and drive and move on elevating lever 9, the pawl 10 that hooks of elevating lever 9 catches on the following of Rhizoma amorphophalli silk circle, elevating lever 9 continues upper shifting so that Rhizoma amorphophalli silk forms slip-knot, as shown in Figure 4；

4. the upper shifting of elevating lever 9 continuation makes Rhizoma amorphophalli silk slip-knot contact with blade 14, and the blade part of blade 14 cuts off and hooks the Rhizoma amorphophalli silk position (i.e. A portion in Fig. 5) caught on pawl 10 so that Rhizoma amorphophalli silk slip-knot forms Rhizoma amorphophalli silk fast knot.

The structure of the Rhizoma amorphophalli silk slip-knot in the present embodiment is shown in that Fig. 5, the structure of Rhizoma amorphophalli silk fast knot are shown in Fig. 6.

Claims (5)

1. Rhizoma amorphophalli silk knot tying machine, including the erecting bed being fixed on pedestal, it is characterised in that include being positioned at the rotating seat being rotationally connected below erecting bed and with erecting bed, being disposed with the electric rotating machine driving this turntable on pedestal, described rotating seat lower surface is fixedly connected with a left side around bar, the right side around bar；Also include the elevating lever running through erecting bed and rotating seat, the upper end of this elevating lever is welded with the transverse slat of level, being rotatably connected to the cam coordinated with this transverse slat on pedestal, the horizontal-extending formation in the lower end of elevating lever hooks pawl, and the position relative with this hook pawl, rotating seat lower surface is fixed with blade；A described left side is coplanar around bar with the right side around bar, left around bar, elevating lever, right around bar antarafacial.

Rhizoma amorphophalli silk knot tying machine the most according to claim 1, it is characterised in that: a described left side is L-shaped bar around bar, the right side around bar, and the arm portion of L-shaped bar is connected with erecting bed lower surface by bolt.

Rhizoma amorphophalli silk knot tying machine the most according to claim 2, it is characterised in that: between described elevating lever outer wall and erecting bed, rotating seat, sliding bearing is installed.

Rhizoma amorphophalli silk knot tying machine the most according to claim 3, it is characterised in that: the output shaft of described electric rotating machine runs through erecting bed, more bonded with rotating seat.

Rhizoma amorphophalli silk knot tying machine the most according to claim 4, it is characterised in that: being disposed with actuated by cams motor on described pedestal, the output shaft of this actuated by cams motor is bonded with cam flat.