CN116078461B

CN116078461B - Low-temperature ultrafine pulverizer for multistage pulverization of dendrobium candidum

Info

Publication number: CN116078461B
Application number: CN202211589342.2A
Authority: CN
Inventors: 徐银
Original assignee: Anhui Huoshan Heishidu Biotechnology Co ltd
Current assignee: Anhui Huoshan Heishidu Biotechnology Co ltd
Priority date: 2022-12-09
Filing date: 2022-12-09
Publication date: 2024-08-27
Anticipated expiration: 2042-12-09
Also published as: CN116078461A

Abstract

A multi-stage crushing low-temperature ultrafine crusher for dendrobium candidum belongs to the technical field of dendrobium candidum, and aims to solve the problems that in the crushing process, dendrobium candidum is positioned at the bottom end inside the crusher, the placement position of the dendrobium candidum is in a stable state, the impact force received by deep dendrobium candidum is small, the crushing of dendrobium candidum materials can be realized only through repeated impact extrusion, and more impact operations cannot be fully utilized; according to the invention, after the clamping times are controlled, the positioning closing frames at the adjacent lower ends are in an open state in sequence, the accommodating position of the dendrobium materials is lowered along with the opening state, and the clamping pressure of the dendrobium materials at the position is larger than that of the last position due to the change of the specifications of the pressing bar pressing rod, so that the crushing effect is improved; according to the invention, the dendrobium materials are clamped and forced layer by layer to realize crushing operation, and the dendrobium materials have certain activity in the falling process, so that the deep dendrobium materials are exposed, the clamping pressure is fully utilized, and the resources are effectively saved.

Description

Low-temperature ultrafine pulverizer for multistage pulverization of dendrobium candidum

Technical Field

The invention relates to the technical field of dendrobium candidum, in particular to a low-temperature ultrafine pulverizer for multi-stage pulverization of dendrobium candidum.

Background

The low-temperature pulverizer system takes liquid nitrogen as a cold source, after the pulverized material is cooled to realize an embrittlement and easy pulverization state at low temperature, the pulverized material enters a mechanical pulverizer cavity and rotates at a high speed through an impeller, the material and the blade, the fluted disc and the material repeatedly impact, collide, shear, rub and other comprehensive effects mutually, the pulverizing effect is achieved, the pulverized material is classified and collected by an airflow screen classifier, the material which does not meet the fineness requirement returns to a bin for continuous pulverization, and most of the cold air returns to the bin for recycling.

The dendrobium candidum is more favorable to human absorption after the crocus, can improve the absorptivity by a wide margin, and then the dendrobium candidum can smash it after getting rid of moisture wherein contained, prior art uses low temperature rubbing crusher to pass through a series of crushing operations such as impact, collision and shearing to obtain the dendrobium candidum powder, however at kibbling in-process, the stem of noble dendrobium is located the inside bottom of rubbing crusher, and the position of placing of stem of noble dendrobium is in steady state, and the impact force that the deep stem of noble dendrobium accepted is less, only can pass through repeated impact extrusion, realizes the crushing of stem of noble dendrobium material, and more impact operation can't obtain make full use of, comparatively extravagant resource.

Aiming at the problems, the prior device is improved, and a low-temperature ultrafine pulverizer for multi-stage pulverization of dendrobium candidum is provided.

Disclosure of Invention

The invention aims to provide a multistage-crushing low-temperature superfine crusher for dendrobium candidum, which solves the problems that in the background technology, in the crushing process, dendrobium candidum is positioned at the bottom end inside the crusher, the placement position of the dendrobium candidum is in a stable state, the impact force received by deep dendrobium candidum is small, the crushing of dendrobium candidum materials can be realized only through repeated impact extrusion, more impact operations cannot be fully utilized, and resources are wasted.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a multistage kibble machine of low temperature for dendrobium candidum, including the rubbing crusher shell and install the crushing host computer inside the rubbing crusher shell, the upper surface of rubbing crusher shell has seted up the feeding open groove, the fortune workbin is installed to the inboard in feeding open groove, fortune workbin is corresponding with the upper end of crushing host computer, the extension side handle pole is all installed to the both sides wall in feeding open groove, and extend the outer end that the side handle pole extends to the feeding open groove, the smooth elongated slot has all been seted up to the inboard surface that extends the side handle pole, fortune workbin is connected with extension side handle pole through the smooth elongated slot of passing, the accommodation chamber has been seted up to the inside of rubbing crusher shell, the internally mounted who holds the chamber has a material profile ring, the both sides wall that connects the material profile ring all is provided with links up the strip pole, the one end that links up the strip pole is connected with the inside wall that holds the chamber, the lower extreme that connects the material profile ring is provided with the closed pore and holds the bag, the inside that the closed pore holds the bag is used for splendid attire dendrobium candidum.

Further, the outside that the close hole held the bag has cup jointed the location closure frame, and the location closure frame is arranged and is provided with five groups, all is provided with the hanging rod between the both sides end of adjacent location closure frame, holds the top of cavity and installs the closing cap roof, and the upper surface of closing cap roof is provided with the laminating ring, and the laminating ring is docked with the lower surface of fortune workbin.

Further, the installation side loop post is all arranged and installed to the inside both sides wall of holding the cavity, the one end of installation side loop post has been seted up and has been held the interface groove, the inside of holding the interface groove is provided with hydraulic ejector pin, the matching clamp plate is installed to hydraulic ejector pin's one end, the matching clamp plate is provided with eight groups, two sets of matching clamp plate positions are opposite, and the clearance phase-match between two sets of location closure frames of matching clamp plate, the outside surface mounting of matching clamp plate has and smashes the layering pole, smash the layering pole and be provided with four specifications, the matching clamp plate is with the layering pole of pounding of opposite side matching clamp plate belongs to same specification.

Further, the positioning closing frame comprises a positioning slat arranged on one side of the close hole accommodating bag and vertical side slats arranged at two side ends of the positioning slat, and one end of the hanging rod is connected with the side end surface of the positioning slat.

Further, the installation fluting has been seted up to the inside of perpendicular side bar board, and installation grooved internally mounted has the drive lead screw, and the one end of two sets of perpendicular side bar boards is provided with movable clamp plate, and the both ends of movable clamp plate match with the inboard phase-match of installation fluting, and the both ends of movable clamp plate cup joint on the surface of drive lead screw, and the both ends and the drive lead screw meshing of movable clamp plate are connected.

Further, the material transporting box comprises a box body corresponding to the feeding open groove and a flip plate arranged on the upper end face of the box body, a spring hinge is arranged at the side end of the flip plate, and the flip plate is connected with the box body through the spring hinge.

Further, the two side end surfaces of the box body are provided with matching sliding strips, the two side surfaces of the box body are provided with matching sliding strips, the box body is connected with a pushing sliding groove through the matching sliding strips, and the outer side surface of the box body is provided with a hand-held handle.

Further, the inside of box has been seted up and has been held the case room, and the bottom that holds the case room is provided with the circular cone and leads the material face, and the inboard bottom arrangement of circular cone leads the material face installs the concatenation unloading strip, and first laminating groove has been seted up to one side end of concatenation unloading strip, and the second laminating groove has been seted up to the opposite side end of concatenation unloading strip, and first laminating groove is laminated mutually with adjacent second laminating groove.

Further, a central shaft lever is arranged in the center of the spliced blanking strip, and the length of the spliced blanking strip is matched with the inner side of the conical material guiding surface.

Further, both ends of the central shaft rod extend to the outer ends of the spliced blanking strips, both ends of the central shaft rod are provided with traction gear columns, movable rack plates are mounted at the lower ends of the traction gear columns, the traction gear columns are connected with the movable rack plates in a meshed mode, and horizontal driving mechanisms are arranged at the ends of the movable rack plates.

Compared with the prior art, the invention has the beneficial effects that:

1. According to the low-temperature ultrafine pulverizer for the dendrobium candidum, provided by the invention, two groups of matched pressing plates clamp and press dendrobe materials in the area through the pressing bar beating rods, so that preliminary crushing of the materials is realized through impact, the pressing bar beating rods with different specifications are matched with the matched pressing plates with different heights, the cross sectional areas of the pressing bar beating rods are gradually reduced, the pressure applied to the dendrobe materials is synchronously increased, after the clamping times are controlled, the positioning closing frames at the adjacent lower ends are sequentially in an open state, the accommodating positions of the dendrobe materials are sequentially lowered, due to the change of the specifications of the pressing bar beating rods, the clamping pressure applied to the dendrobe materials at the positions is greater than that of the upper positions, the crushing effect is further improved, the crushing operation is realized through clamping and pressing force application of the dendrobe materials layer by layer, the dendrobe materials have certain movable force in the falling process, the deep dendrobe materials are exposed, the clamping pressure is fully utilized, and the resources are effectively saved.

2. According to the multistage crushing low-temperature ultrafine crusher for dendrobium candidum, which is provided by the invention, in an initial state, a plurality of groups of spliced blanking strips are in a horizontal closed state, when dendrobium candidum materials are required to be blanked, the movable rack plate is started, and the traction gear column drives the central shaft rod to rotate, so that the plurality of groups of spliced blanking strips are gradually converted into mutually vertical and parallel states, gaps exist between the plurality of groups of spliced blanking strips, and dendrobium candidum materials enter the inside of the closed hole accommodating bag along the gaps, so that the feeding of the dendrobium candidum materials is completed.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a low-temperature ultrafine grinder for multi-stage grinding of dendrobium candidum;

FIG. 2 is a schematic diagram of the internal planar structure of a crushing main machine of the low-temperature ultrafine crusher for crushing dendrobium candidum;

FIG. 3 is a schematic view of the internal plane structure of a receiving chamber of a low-temperature ultra-fine pulverizer for multi-stage pulverizing of dendrobium candidum;

FIG. 4 is a schematic diagram of a positioning and closing frame of a low-temperature ultrafine grinder for multi-stage grinding of dendrobium candidum;

FIG. 5 is a schematic diagram of a material transporting box of the low-temperature ultrafine grinder for multi-stage grinding of dendrobium candidum;

FIG. 6 is a schematic diagram of the internal planar structure of a low-temperature ultrafine grinder box for multi-stage grinding of dendrobium candidum;

fig. 7 is a schematic diagram of the internal plane structure of the central shaft rod of the multi-stage crushing low-temperature ultrafine crusher for dendrobium candidum.

In the figure: 1. a pulverizer shell; 2. crushing a main machine; 21. a housing chamber; 211. installing a side sleeve column; 212. a receiving interface slot; 213. a hydraulic ejector rod; 214. a matching pressing plate; 215. smashing a pressing bar; 22. a material receiving contour ring; 23. a connecting bar; 24. a closed hole accommodating bag; 25. positioning a closing frame; 251. positioning the strip plate; 252. vertical side laths; 253. mounting and slotting; 254. driving a screw rod; 255. a movable clamping plate; 26. hanging a connecting rod; 27. a cover top plate; 28. a laminating ring; 3. a feeding open tank; 4. a material transporting box; 41. a case; 411. a housing chamber; 412. a conical material guiding surface; 413. splicing blanking strips; 414. a first fitting groove; 415. a second fitting groove; 416. a central shaft; 4161. a traction gear column; 4162. a movable rack plate; 42. turning over the cover plate; 43. a spring hinge; 44. matching sliding strips; 45. a handle; 5. extending the side handle bar; 6. pushing the sliding groove.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-7, in order to solve the technical problems that in the crushing process, the dendrobium is located at the bottom end inside the crusher, the placement position of the dendrobium is in a stable state, the impact force received by the deep dendrobium is small, the dendrobium materials can be crushed only through repeated impact extrusion, more impact operations cannot be fully utilized, and resources are wasted, the following preferable technical scheme is provided:

The utility model provides a multistage kibbler of smashing for dendrobium candidum, including crushing shell 1 and install at the inside crushing host computer 2 of crushing shell 1, feeding open slot 3 has been seted up to crushing shell 1's upper surface, fortune workbin 4 is installed to feeding open slot 3's inboard, fortune workbin 4 is corresponding with crushing host computer 2's upper end, extension side handle 5 is all installed to feeding open slot 3's both sides wall, and extension side handle 5 extends to feeding open slot 3's outer end, push smooth elongated slot 6 has all been seted up to extension side handle 5's inboard surface, fortune workbin 4 is connected with extension side handle 5 through pushing smooth elongated slot 6, hold cavity 21 has been seted up to crushing host computer 2's inside, hold cavity 21 internally mounted and connect material profile ring 22, connect the both sides wall of material profile ring 22 all to be provided with and link up bar 23, connect bar 23's one end and hold cavity 21's inside wall, connect material profile ring 22's lower extreme to be provided with the dense pore and hold bag 24, the inside that the dense pore holds bag 24 is used for splendid attire dendrobium candidum.

The outside that the close hole holds bag 24 has cup jointed location closure frame 25, location closure frame 25 arranges and is provided with five sets of, all be provided with the hanging rod 26 between the both sides end of adjacent location closure frame 25, the closing cap roof 27 is installed on the top of holding the cavity 21, the upper surface of closing cap roof 27 is provided with laminating ring 28, laminating ring 28 and the lower surface butt joint of fortune workbin 4, the inside both sides wall of holding the cavity 21 all arranges and installs installation side loop post 211, the holding interface groove 212 has been seted up to the one end of installation side loop post 211, the inside of holding interface groove 212 is provided with hydraulic ejector pin 213, match clamp plate 214 is installed to the one end of hydraulic ejector pin 213, match clamp plate 214 is provided with eight sets of, two sets of match clamp plates 214 position are opposite, and match clamp plate 214 and the space phase-match between two sets of location closure frames, the outside surface mounting of match clamp plate 214 has the layering pole 215, the layering pole 215 is provided with four specifications, match clamp plate 214 belongs to same specification with the layering pole 215 of opposite side match clamp plate 214.

Specifically, the handheld handle 45 is held, the matching sliding strip 44 is connected with the pushing sliding groove 6, the material transporting box 4 is slid between the outer ends of the two groups of extending side handle rods 5, the turnover plate 42 is turned over, the dendrobe material to be treated is placed in the box 41, the material transporting box 4 is integrally positioned in the inner side of the feeding open groove 3, the dendrobe material sequentially passes through the attaching ring 28, the closing cover top plate 27 and the material receiving contour ring 22 to naturally fall to the inner side of the closed hole accommodating bag 24, the driving screw rod 254 is started, the movable clamping plate 255 is connected with the driving screw rod 254 by meshing, the movable clamping plate 255 is continuously close to the positioning plate 251, the closed hole accommodating bag 24 is positioned between the positioning plate 251 and the movable clamping plate 255, the uppermost positioning closing frame 25 is in an opened state, the positioning plate 251 and the movable clamping plate 255 of the other groups are in a closed state, further, the dendrobe material naturally falls into the close hole accommodating bag 24 of the opening area, meanwhile, the hydraulic ejector rod 213 is started, so that the two groups of matching pressing plates 214 are in a butt joint state continuously, the two groups of matching pressing plates 214 clamp the dendrobe material in the area through the smashing pressing bar rods 215, the preliminary crushing of the material is realized through impact, the smashing pressing bar rods 215 with different specifications are arranged on the matching pressing plates 214 with different heights, the cross sectional area of the smashing pressing bar rods 215 is gradually reduced, the pressure applied to the dendrobe material is synchronously increased, after the clamping times are controlled, the positioning closing frames 25 at the adjacent lower ends are in an opening state sequentially, the accommodating position of the dendrobe material is reduced along with the opening state, the clamping pressure of the dendrobe material at the position is larger than the upper position due to the specification change of the smashing pressing bar rods 215, the smashing effect is further improved, the dendrobe material is clamped and forced through layer by layer so as to realize the smashing operation, and the dendrobe material has certain activity dynamics at the in-process that drops by oneself, does benefit to the dendrobe material of deep to reveal, does benefit to make full use of clamp pressure, effectively practices thrift the resource.

In order to solve the technical problem of the convenience of feeding dendrobe materials, the following preferable technical scheme is provided:

The positioning closing frame 25 comprises a positioning slat 251 arranged on one side of the sealed hole accommodating bag 24 and vertical side slats 252 arranged on two side ends of the positioning slat 251, one end of a hanging rod 26 is connected with the side end faces of the positioning slat 251, a mounting groove 253 is formed in the vertical side slats 252, a driving screw rod 254 is arranged in the mounting groove 253, movable clamping plates 255 are arranged at one ends of the two groups of vertical side slats 252, two ends of the movable clamping plates 255 are matched with the inner sides of the mounting groove 253, two ends of the movable clamping plates 255 are sleeved on the surface of the driving screw rod 254, two ends of the movable clamping plates 255 are connected with the driving screw rod 254 in a meshed mode, the material conveying box 4 comprises a box body 41 corresponding to the feeding open groove 3 and a flip plate 42 arranged on the upper end face of the box body 41, a spring hinge 43 is arranged at the side end of the flip plate 42, and the flip plate 42 is connected with the box body 41 through the spring hinge 43.

The two side end surfaces of the box 41 are respectively provided with a matching slide bar 44, the two side surfaces of the box 41 are respectively provided with the matching slide bars 44, the box 41 is connected with the pushing slide groove 6 through the matching slide bars 44, the outer side surface of the box 41 is provided with a handheld handle 45, the inside of the box 41 is provided with a containing box chamber 411, the bottom end of the containing box chamber 411 is provided with a conical guide surface 412, the bottom end of the inner side of the conical guide surface 412 is provided with a splicing blanking bar 413 in an arrangement mode, one side end of the splicing blanking bar 413 is provided with a first attaching groove 414, the other side end of the splicing blanking bar 413 is provided with a second attaching groove 415, the first attaching groove 414 is attached to the adjacent second attaching groove 415, the center of the splicing blanking bar 413 is provided with a center shaft rod 416, the length of the splicing blanking bar 413 is matched with the inner side of the conical guide surface 412, two ends of the center shaft 416 extend to the outer end of the splicing blanking bar 413, the two ends of the center shaft 416 are respectively provided with a traction gear column 4161, the lower end of the traction gear column 4161 is provided with a movable gear 4162, the traction gear column 4161 is meshed with a movable gear column 4162, and the movable gear column 4162 is meshed with the movable gear column 4162.

Specifically, when the dendrobe material is placed in the accommodating box 411, in an initial state, the second laminating groove 415 and the first laminating groove 414 are utilized to be in laminating connection, the plurality of groups of splicing blanking strips 413 are in a horizontal closed state, when the dendrobe material is required to be blanked, the movable rack plate 4162 is started, the movable rack plate 4162 is utilized to be connected with the plurality of groups of traction gear columns 4161 in a meshed manner, the traction gear columns 4161 are in a rotating state, the traction gear columns 4161 drive the central shaft rod 416 to rotate, the plurality of groups of splicing blanking strips 413 are gradually converted into a mutually perpendicular and parallel state, a gap exists between the plurality of groups of splicing blanking strips 413, and the dendrobe material enters the inside of the dense-hole accommodating bag 24 along the gap so as to finish feeding of the dendrobe material.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should be covered by the protection scope of the present invention by making equivalents and modifications to the technical solution and the inventive concept thereof.

Claims

1. The utility model provides a superfine pulverizer of multistage crushing for dendrobium candidum, includes rubbing crusher shell (1) and installs at inside crushing host computer (2) of rubbing crusher shell (1), its characterized in that: the upper surface of the pulverizer shell (1) is provided with a feeding open groove (3), the inner side of the feeding open groove (3) is provided with a material conveying box (4), the material conveying box (4) corresponds to the upper end of the pulverizer main machine (2), two side walls of the feeding open groove (3) are provided with extension side handle rods (5), the extension side handle rods (5) extend to the outer end of the feeding open groove (3), the inner side surface of the extension side handle rods (5) is provided with a pushing sliding groove (6), the material conveying box (4) is connected with the extension side handle rods (5) through the pushing sliding groove (6), the inside of the pulverizer main machine (2) is provided with a containing cavity (21), the inside of the containing cavity (21) is provided with a connecting bar (23), one end of each connecting bar (23) is connected with the inner side wall of the containing cavity (21), the lower end of each connecting bar (22) is provided with a sealing hole containing bag (24), and the inside of each hole containing bag (24) is used for tightly containing dendrobium officinale;

The outside of the close hole accommodating bag (24) is sleeved with positioning closing frames (25), five groups of positioning closing frames (25) are arranged, hanging rods (26) are arranged between two side ends of adjacent positioning closing frames (25), a sealing cover top plate (27) is arranged at the top end of the accommodating cavity (21), an attaching ring (28) is arranged on the upper surface of the sealing cover top plate (27), and the attaching ring (28) is in butt joint with the lower surface of the material conveying box (4);

The two side walls inside the accommodating cavity (21) are respectively provided with an installing side sleeve column (211), one end of the installing side sleeve column (211) is provided with an accommodating interface groove (212), the inside of the accommodating interface groove (212) is provided with a hydraulic ejector rod (213), one end of the hydraulic ejector rod (213) is provided with a matching pressing plate (214), eight groups of the matching pressing plates (214) are arranged, the positions of the two groups of the matching pressing plates (214) are opposite, the matching pressing plates (214) are matched with gaps between the two groups of positioning closing frames (25), the outer side surface of the matching pressing plates (214) is provided with a pressing bar (215), the pressing bar (215) is provided with four specifications, and the matching pressing plates (214) and the pressing bar (215) of the matching pressing plate (214) on the opposite side belong to the same specification;

The positioning closing frame (25) comprises a positioning slat (251) arranged at one side of the close hole accommodating bag (24) and vertical side slats (252) arranged at two side ends of the positioning slat (251), and one end of the hanging rod (26) is connected with the side end surface of the positioning slat (251);

The installation fluting (253) has been seted up to the inside of perpendicular side slat (252), the internally mounted of installation fluting (253) has drive lead screw (254), the one end of two sets of perpendicular side slat (252) is provided with movable clamp plate (255), the both ends and the inboard phase-match of installation fluting (253) of movable clamp plate (255), the both ends of movable clamp plate (255) cup joint on the surface of drive lead screw (254), and the both ends and the drive lead screw (254) meshing of movable clamp plate (255) are connected.

2. The multi-stage pulverizing low-temperature ultra-fine pulverizer for dendrobium candidum as set forth in claim 1, wherein: the material conveying box (4) comprises a box body (41) corresponding to the material feeding open groove (3) and a flip plate (42) arranged on the upper end face of the box body (41), a spring hinge (43) is arranged at the side end of the flip plate (42), and the flip plate (42) is connected with the box body (41) through the spring hinge (43).

3. The multi-stage pulverizing low-temperature ultra-fine pulverizer for dendrobium candidum as claimed in claim 2, wherein: the two side end surfaces of the box body (41) are provided with matching sliding strips (44), the two side surfaces of the box body (41) are provided with the matching sliding strips (44), the box body (41) is connected with the pushing sliding groove (6) through the matching sliding strips (44), and the outer side surface of the box body (41) is provided with a handheld handle (45).

4. A multi-stage pulverizing cryogenic ultrafine grinder for dendrobium candidum as defined in claim 3, wherein: the inside of box (41) has been seted up and has been held case room (411), the bottom that holds case room (411) is provided with circular cone guide surface (412), splice unloading strip (413) are installed in the inboard bottom range of circular cone guide surface (412), first laminating groove (414) have been seted up to one side end of splice unloading strip (413), second laminating groove (415) have been seted up to the opposite side end of splice unloading strip (413), first laminating groove (414) laminate mutually with adjacent second laminating groove (415).

5. The multi-stage pulverizing low-temperature ultra-fine pulverizer for dendrobium candidum as defined in claim 4, wherein: the center of the spliced blanking strip (413) is provided with a center shaft lever (416), and the length of the spliced blanking strip (413) is matched with the inner side of the conical material guiding surface (412).

6. The multi-stage pulverizing low-temperature ultra-fine pulverizer for dendrobium candidum as defined in claim 5, wherein: the both ends of center axostylus axostyle (416) extend to the outer end of concatenation unloading strip (413), and the both ends of center axostylus axostyle (416) all are provided with traction gear post (4161), and movable rack board (4162) are installed to the lower extreme of traction gear post (4161), and traction gear post (4161) is connected with movable rack board (4162) meshing, and the end of movable rack board (4162) is equipped with horizontal driving mechanism.