Rotary cutting and dispersing mechanism for biological compression cylindrical materials
Technical Field
The utility model relates to a rotary-cut dispersing mechanism, in particular to a rotary-cut dispersing mechanism for a biological compression cylindrical material.
Background
In the prior art, as disclosed in patent ZL201810473369.2, a bidirectional rotary-cut efficient balancing rotary-cut machine is disclosed, before rotary-cut, a conveying part conveys logs to a feeding part one by one, the feeding part supplies the logs to the rotary-cut part one by one, and then a first rotary-cut mechanism and a second rotary-cut mechanism simultaneously rotary-cut the logs to realize balanced and efficient rotary-cut. Specifically, the log is placed above the two supporting rollers, the corresponding screw rods are driven by the motors to rotate, the horizontal moving frames are driven to move, the telescopic supporting rods are driven to slide, and the log is adjusted until the two rotating rollers are in abutting contact with the log, so that positioning is performed. As another example, patent ZL201810548038.0 discloses an automatic conveying rotary cutter, before rotary cutting, the controller controls the intermittent conveying mechanism to convey logs one by one to the sorting conveying mechanism, the sorting conveying mechanism sorts the root ends and the tip ends of the logs and has uniform orientation, then the upstream feeding mechanism conveys the sorted logs to the downstream feeding mechanism, the downstream feeding mechanism conveys the logs one by one to the rotary cutting part, and the positioning rotating mechanism and the rotary cutting mechanism clamp and rotary cut the logs with uniform orientation. The rotary cutter is inconvenient to carry out quick rotary cutting treatment on the biological compression cylindrical material, and the rotary cutting treatment efficiency is low.
Disclosure of Invention
The utility model mainly solves the technical problems existing in the prior art, thereby providing the rotary cutting dispersing mechanism for the biological compression cylindrical material, which is used for carrying out quick rotary cutting treatment on the biological compression cylindrical material by the rotary cutting mechanism group and greatly improving the rotary cutting treatment efficiency of the biological compression cylindrical material.
The technical problems of the utility model are mainly solved by the following technical proposal:
the rotary-cut dispersing mechanism for the biological compression cylindrical materials comprises a rotary-cut box, wherein the interior of the rotary-cut box is of a cavity structure, a discharge hole is formed in the middle position of the bottom surface of the rotary-cut box, a top cover is arranged on the top surface of the rotary-cut box, a feed hole is formed in the middle position of the top cover, and the feed hole is arranged right above the discharge hole; a rotary cutting mechanism group is arranged in the rotary cutting box, and a side opening is arranged on the side surface of the rotary cutting box; the rotary cutting mechanism group is arranged between the discharge hole and the feed hole, the rotary cutting mechanism group is connected with a driving belt, the inner end of the driving belt is connected with the rotary cutting mechanism group, the outer end of the driving belt passes through the side hole, and the outer end of the driving belt is a free end.
Further, the rotary cutting mechanism group comprises a main rotary cutting mechanism and an auxiliary rotary cutting mechanism, a transmission gear is arranged at the inner bottom of the rotary cutting box, and the lower end of the main rotary cutting mechanism is meshed and connected with the lower end of the auxiliary rotary cutting mechanism through the transmission gear; the inner bottom of the rotary cutting box is provided with a positioning disc, a positioning cylinder is arranged on the positioning disc, and a transmission gear is sleeved on the outer peripheral surface of the positioning cylinder; the main rotary cutting mechanism comprises a main rotary shaft, a driving wheel is arranged at the lower end of the main rotary shaft, a driving wheel is arranged at the middle end of the main rotary shaft, a main positioning disc is arranged at the top end of the main rotary shaft, and a main rotary cutting blade is arranged on the main positioning disc; the auxiliary rotary cutting mechanism comprises an auxiliary rotary cutting shaft, an auxiliary driven wheel is arranged at the lower end of the auxiliary rotary cutting shaft, an auxiliary positioning disc is arranged at the upper end of the auxiliary rotary cutting shaft, and an auxiliary rotary cutting blade is arranged on the auxiliary positioning disc; the inner end of the driving belt is connected with the driving wheel, and the driving wheel is connected with the auxiliary driven wheel through a driving gear; the main positioning disk is provided with a main clamping seat, the bottom of the main clamping seat is fixed on the main positioning disk through a main fixing seat, and the inner end of the main rotary cutting blade is arranged on the top of the main clamping seat; the top of the main clamping seat is provided with a main mounting groove, the inner end of the main rotary cutting blade is arranged in the mounting groove, and the main rotary cutting blade is arranged in the main mounting groove through a main clamp; the auxiliary positioning plate is provided with an auxiliary clamping seat, the bottom of the auxiliary clamping seat is fixed on the auxiliary positioning plate through an auxiliary fixing seat, and the inner end of the auxiliary rotary-cut blade is arranged on the top of the auxiliary clamping seat; the top of the auxiliary clamping seat is provided with an auxiliary mounting groove, the inner end of the auxiliary rotary cutting blade is arranged in the auxiliary mounting groove, and the inner end of the auxiliary rotary cutting blade is arranged in the auxiliary mounting groove through an auxiliary clamp.
Further, the rotary cutting case is installed on the positioning seat, a plurality of positioning grooves which are arranged at equal intervals are formed in the bottom of the positioning seat, a positioning cavity is formed in the top of the positioning seat, and the bottom of the rotary cutting case is installed in the positioning cavity.
Further, be equipped with a pair of protective cover on the top cap, the inboard of protective cover is equipped with uncovered, and open middle part is equipped with the recess, and the outside of protective cover is equipped with the draw-in groove, and the intermediate position of protective cover is equipped with the observation mouth.
By adopting the technical scheme, an operator sleeves the outer end of the driving belt on the driving wheel of the driving motor, the driving motor controls the driving wheel to rotate, and the driving wheel drives the rotary cutting mechanism group to rotate through the driving belt; the operator inserts the biological compression tube-shaped material to be treated into the feed inlet, and the biological compression tube-shaped material is inserted into the rotary cutting mechanism group, and the rotary cutting mechanism group carries out quick rotary cutting treatment on the biological compression tube-shaped material, so that the rotary cutting treatment efficiency on the biological compression tube-shaped material is greatly improved.
Drawings
In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.
Fig. 1 is a schematic structural view of a rotary-cut dispersing mechanism for biologically compressed cylindrical materials.
Fig. 2 is an exploded view of the rotary-cut dispersion mechanism for biologically compressed cylindrical materials of the present utility model.
Fig. 3 is a schematic structural view of the rotary cutting mechanism set according to the present utility model.
Fig. 4 is a schematic structural view of the main rotary cutting mechanism according to the present utility model.
Fig. 5 is a schematic structural view of the auxiliary rotary cutting mechanism according to the present utility model.
Detailed Description
The preferred embodiments of the present utility model will be described in detail below with reference to the accompanying drawings so that the advantages and features of the present utility model can be more easily understood by those skilled in the art, thereby making clear and defining the scope of the present utility model.
As shown in fig. 1 to 5, a rotary-cut dispersing mechanism for a biological compression cylindrical material comprises a rotary-cut box 1, wherein the interior of the rotary-cut box 1 is of a cavity structure, a discharge port 2 is arranged at the middle position of the bottom surface of the rotary-cut box 1, a top cover 3 is arranged on the top surface of the rotary-cut box 1, a feed port 4 is arranged at the middle position of the top cover 3, and the feed port 4 is arranged right above the discharge port 2; a rotary cutting mechanism group 5 is arranged in the rotary cutting box 1, and a side opening 12 is arranged on the side surface of the rotary cutting box 1; the rotary cutting mechanism group 5 is arranged between the discharge hole 2 and the feed hole 4, the rotary cutting mechanism group 5 is connected with a driving belt 8, the inner end of the driving belt 8 is connected with the rotary cutting mechanism group 5, the outer end of the driving belt 8 passes through the side hole 12, and the outer end of the driving belt 8 is a free end.
According to the rotary-cut dispersing mechanism for the bio-compressed cylindrical materials, an operator sleeves the outer end of a driving belt 8 on a driving wheel of a driving motor, the driving motor controls the driving wheel to rotate, and the driving wheel drives a rotary-cut mechanism group 5 to rotate through the driving belt 8; the operator inserts the biological compression tube-shaped material to be treated into the feed inlet 4, the biological compression tube-shaped material is inserted into the rotary cutting mechanism group 5, and the rotary cutting mechanism group 5 carries out quick rotary cutting treatment on the biological compression tube-shaped material, so that the rotary cutting treatment efficiency on the biological compression tube-shaped material is greatly improved.
The rotary cutting mechanism group 5 comprises a main rotary cutting mechanism 6 and an auxiliary rotary cutting mechanism 7, a transmission gear 11 is arranged at the inner bottom of the rotary cutting box 1, and the lower end of the main rotary cutting mechanism 6 is meshed and connected with the lower end of the auxiliary rotary cutting mechanism 7 through the transmission gear 11; the inner bottom of the rotary cutting box 1 is provided with a positioning disc 9, the positioning disc 9 is provided with a positioning cylinder 10, and a transmission gear 11 is sleeved on the outer peripheral surface of the positioning cylinder 10; the main rotary cutting mechanism 6 comprises a main rotary shaft 21, a driving wheel 22 is arranged at the lower end of the main rotary shaft 21, a driving wheel 23 is arranged at the middle end of the main rotary shaft 21, a main positioning disk 24 is arranged at the top end of the main rotary shaft 21, and a main rotary cutting blade 28 is arranged on the main positioning disk 24; the auxiliary rotary cutting mechanism 7 comprises an auxiliary rotary shaft 30, an auxiliary driven wheel 31 is arranged at the lower end of the auxiliary rotary shaft 30, an auxiliary positioning disc 32 is arranged at the upper end of the auxiliary rotary shaft 30, and an auxiliary rotary cutting blade 36 is arranged on the auxiliary positioning disc 32; the inner end of the driving belt 8 is connected with the driving wheel 22, and the driving wheel 23 is connected with the secondary driven wheel 31 through the driving gear 11; the main positioning disk 24 is provided with a main clamping seat 25, the bottom of the main clamping seat 25 is fixed on the main positioning disk 24 through a main fixing seat 26, and the inner end of a main rotary cutting blade 28 is arranged on the top of the main clamping seat 25; the top of the main clamping seat 25 is provided with a main mounting groove 27, the inner end of a main rotary cutting blade 28 is mounted in the mounting groove 27, and the main rotary cutting blade 28 is mounted in the main mounting groove 27 through a main clamp 29; the auxiliary positioning plate 32 is provided with an auxiliary clamping seat 33, the bottom of the auxiliary clamping seat 33 is fixed on the auxiliary positioning plate 32 through an auxiliary fixing seat 34, and the inner end of an auxiliary rotary cutting blade 36 is arranged on the top of the auxiliary clamping seat 33; the top of the auxiliary clamping seat 33 is provided with an auxiliary mounting groove 35, the inner end of the auxiliary rotary cutting blade 36 is mounted in the auxiliary mounting groove 35, and the inner end of the auxiliary rotary cutting blade 36 is mounted in the auxiliary mounting groove 35 through an auxiliary clamp 37; the operator is with the outer end cover of driving belt 8 on driving motor's drive wheel, driving motor control drive wheel rotates, the drive wheel passes through driving belt 8 and drives action wheel 22 rotation, action wheel 22's rotation passes through main rotation axis 21 and drives drive wheel 23, main positioning disk 24 and main rotary-cut blade 28 rotation, drive wheel 23's rotation drives drive gear 11 rotation, drive gear 11's rotation drives vice driven wheel 31 rotation, vice driven wheel 31's rotation passes through vice rotation axis 30 and drives vice positioning disk 32 and vice rotary-cut blade 36 rotation, carry out quick rotary-cut processing to the biological compression tubular material through main rotary-cut blade 28 and vice rotary-cut blade 36, the efficiency of carrying out rotary-cut processing to the biological compression tubular material has been improved greatly.
Preferably, the rotary cutting box 1 is arranged on the positioning seat 13, a plurality of positioning grooves 14 which are arranged at equal intervals are arranged at the bottom of the positioning seat 13, a positioning cavity 15 is arranged at the top of the positioning seat 13, and the bottom of the rotary cutting box 1 is arranged in the positioning cavity 15; the positioning seat 13 is used for firmly mounting the bottom of the rotary cutting box 1 through the positioning cavity 15.
Preferably, the top cover 3 is provided with a pair of protective covers 16, the inner side of the protective cover 16 is provided with an opening 17, the middle part of the opening 17 is provided with a groove 18, the outer side of the protective cover 16 is provided with a clamping groove 19, and the middle position of the protective cover 16 is provided with an observation opening 20; the top surface of the top cover 3 is protected by the protective cover 16, and the opening 17 and the groove 18 are convenient for operators to watch the condition of the feed inlet 4; the observation port 20 facilitates the operator to observe the working condition of the rotary cutting mechanism group 5.
The foregoing is merely illustrative of specific embodiments of the present utility model, and the scope of the utility model is not limited thereto, but any changes or substitutions that do not undergo the inventive effort should be construed as falling within the scope of the present utility model. Therefore, the protection scope of the present utility model should be subject to the protection scope defined by the claims.