CN218774917U - Quick drying system is used in oligosaccharide derivative production - Google Patents

Abstract

The application discloses quick drying system is used in production of oligosaccharide derivative relates to oligosaccharide derivative production technical field, comprising a base plate, the bottom plate top with in the past backward set gradually the main tank body with smash the box, it is connected with the screening box to rotate between the lateral wall of main tank body inner chamber both ends, it has the piece of smashing to smash box inner chamber bottom fixed mounting, all install a plurality of hot plates of group on screening box and the crushing box inner chamber lateral wall, the discharge opening has been seted up on the screening box lateral wall, and it has the closing plate to get material opening department damping articulated. After the screening operation was accomplished, the material of caking was detained at screening board top, and the driving piece drives the slope of screening box this moment, and the caking material at screening board top rolls from the discharge opening way and falls into crushing box inner chamber, and the crushing member that sets up afterwards smashes the operation to the material of caking for the material of caking reaches the standard, and this is lifted the waste of avoiding the material to a certain extent, has practiced thrift the cost.

Description

Quick drying system is used in oligosaccharide derivative production

Technical Field

The application relates to the technical field of oligosaccharide derivative production, in particular to a rapid drying system for oligosaccharide derivative production.

Background

Oligosaccharides are also called oligosaccharides, i.e. products of polymerization of a few sugar rings. Generally, sugars are classified into monosaccharides, disaccharides, oligosaccharides, and polysaccharides according to the number of sugar rings. The number of polymerized sugar rings in the oligosaccharide is small. Generally, the polymeric saccharides having 3 to 10 saccharide rings are called oligosaccharides. The oligosaccharide derivative is obtained by connecting other groups to hydroxyl or other groups of oligosaccharide, such as acetylated oligosaccharide formed by connecting acetylated groups, and specifically product such as acetylated sodium hyaluronate; reacting with cation to form cationized oligosaccharide, such as cationized sodium hyaluronate.

At present, the oligosaccharide derivatives are required to be dried when being produced, a large amount of materials are generally directly put into a drying device to be dried when the existing oligosaccharide derivatives are dried, and the large amount of materials are likely to be stacked together before being dried, and are combined through moisture, so that the large amount of materials form lumps, and the quality of the produced materials are influenced. CN 20212324579.1 discloses a drying device for chitosan oligosaccharide with narrow polymerization degree, which uses a screen to screen out the agglomerated material, but this device cannot treat the agglomerated material well, and if the agglomerated material is directly discarded, the material is wasted. Based on this, the present application has devised a rapid drying system for oligosaccharide derivative production to solve the above-mentioned problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a quick drying system is used in oligosaccharide derivative production to solve above-mentioned current device and can not carry out good processing to the material of caking, if direct material abandonment with the caking, then caused the extravagant problem of material.

In order to achieve the above purpose, the present application provides the following technical solutions: the utility model provides a quick drying system is used in oligosaccharide derivative production, includes the bottom plate, the bottom plate top has set gradually the main tank body and has smashed the box in the past backward, it is connected with the screening box to rotate between the lateral wall of main tank inner chamber both ends, the symmetry is installed on the lateral wall of screening box inner chamber both ends and is reset, and is two sets of reset fixedly connected with screening board between the piece, install the cam piece on the screening box lateral wall, and the output of cam piece extends to in the screening box inner chamber, install the driving piece on the main tank lateral wall, and the output of driving piece is connected with the screening box, it has the piece of smashing to smash box inner chamber bottom fixed mounting, all install a plurality of hot plates of group on screening box and the crushing box inner chamber lateral wall, screening box has seted up discharge opening on the lateral wall, and discharge opening says that damping articulates there is the closing plate.

Based on above-mentioned technical characteristics, open a plurality of hot plates before the use, a plurality of hot plates will sieve the box and smash the inside thermal treatment that carries on of box, add the material afterwards to the screening box inner chamber, the material at first can fall the screening board top, and the cam part drives the piece that resets this moment and reciprocates vibrations, and the screening board is sieved the processing to the material of upper surface, prevents the phenomenon of caking. After the screening operation was accomplished, the material of caking was detained at screening board top, and the driving piece drives the slope of screening box this moment, and the caking material at screening board top rolls from the discharge opening way and falls into crushing box inner chamber, and the crushing member that sets up afterwards smashes the operation to the material of caking for the material of caking reaches the standard, has avoided the waste of material to this extent, has practiced thrift the cost.

Preferably, among the above-mentioned quick drying system is used in oligosaccharide derivative production, the piece that resets includes the casing of fixed mounting on screening box inner chamber lateral wall, casing inner chamber bottom fixed mounting has a flexible section of thick bamboo, and flexible end and screening board bottom fixed connection in flexible section of thick bamboo top, be connected with the spring between casing inner chamber bottom and the screening board bottom, and the spring is around establishing on a flexible section of thick bamboo.

Based on the technical characteristics, the cam piece drives the screening plate to move up and down, and the screening plate performs up-and-down reciprocating vibration operation under the combined action of the spring and the cam piece.

Preferably, among the above-mentioned quick drying system is used in oligosaccharide derivative production, the cam piece includes the first mounting panel of fixed connection on screening box lateral wall, first driving motor is installed at first mounting panel top, and in first driving motor output extended to screening box inner chamber, first driving motor output fixed mounting has the cam, and cam bottom butt in screening board top one side.

Based on above-mentioned technical characteristics, the first driving motor that sets up drives the cam and rotates, and the sieve plate is pushed away to rotatory cam intermittent type nature.

Preferably, in the above-mentioned quick drying system is used in oligosaccharide derivative production, the driving piece includes the second mounting panel of fixed connection on the main tank body lateral wall, second driving motor is installed at second mounting panel top, and the second driving motor output is connected with the screening box body.

Based on the technical characteristics, the second driving motor drives the screening box body to perform inclination operation.

Preferably, among the above-mentioned quick drying system is used in oligosaccharide derivative production, crushing piece includes the baffle of fixed connection between screening box inner chamber both ends lateral wall, crushing box inner chamber bottom fixed mounting has crushing motor, crushing motor top output is connected with the transfer line, and the transfer line extends to baffle top surface, transfer line fixed surface installs a plurality of sets of crushing blade.

Based on the technical characteristics, the arranged crushing motor drives the transmission rod to rotate, and the rotating transmission rod drives the crushing blade to rotate.

Preferably, in the rapid drying system for producing oligosaccharide derivatives, a collecting box is placed at the bottom of the inner cavity of the main box body, and a material taking pore channel is formed in the side wall of the main box body.

Based on the technical characteristics, the materials at the top of the screening plate fall into the inner cavity of the collecting box under the action of the reset piece and the cam piece, and then the collecting box is taken out through the material taking pore channel.

Preferably, in the rapid drying system for oligosaccharide derivative production, a discharge pipe is communicated with the side wall of the crushing box body, and an electromagnetic valve is mounted on the discharge pipe.

Based on the technical characteristics, the material which finishes the crushing operation is taken out through the discharge pipe.

Compared with the prior art, the beneficial effects of this application are:

open a plurality of hot plates before using, a plurality of hot plates will sieve the box and smash the inside thermal treatment that carries on of box, add the material afterwards to the inner chamber of sieving box, the material at first can fall the screening board top, and cam part drive resets this moment and carries out reciprocal vibrations, and the screening board is sieved the processing to the material of upper surface, prevents the phenomenon of caking. After the screening operation was accomplished, the material of caking was detained at screening board top, and the driving piece drives the slope of screening box this moment, and the caking material at screening board top rolls from the discharge opening way and falls into crushing box inner chamber, and the crushing member that sets up afterwards smashes the operation to the material of caking for the material of caking reaches the standard, and this is lifted the waste of avoiding the material to a certain extent, has practiced thrift the cost.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic overall structure of the present application;

FIG. 2 is a schematic side view of the present application;

fig. 3 is an enlarged schematic view of the structure of the part a in fig. 1 of the present application.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a base plate; 2. a main box body; 3. a crushing box body; 4. screening the box body; 5. a reset member; 51. a housing; 52. a telescopic cylinder; 53. a spring; 6. a screening plate; 7. a cam member; 71. a first mounting plate; 72. a first drive motor; 73. a cam; 8. a drive member; 81. a second mounting plate; 82. a second drive motor; 9. a crushing member; 91. a partition plate; 92. a grinding motor; 93. a transmission rod; 94. a crushing blade; 10. heating plates; 11. a collection box; 12. a material taking pore channel; 13. and (7) sealing the plate.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly and completely with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Referring to fig. 1, 2 and 3, the present application provides a rapid drying system for oligosaccharide derivative production: comprises a bottom plate 1, wherein the top of the bottom plate 1 is sequentially provided with a main box body 2 and a crushing box body 3 from front to back. The side walls of the inner cavities of the screening box body 4 and the crushing box body 3 are respectively provided with a plurality of groups of heating plates 10. Before use, the plurality of heating plates 10 are opened, and the plurality of heating plates 10 heat the inside of the sieving casing 4 and the pulverizing casing 3.

The screening box body 4 is rotatably connected between the side walls of the two ends of the inner cavity of the main box body 2, the reset components 5 are symmetrically installed on the side walls of the two ends of the inner cavity of the screening box body 4, and the screening plates 6 are fixedly connected between the two sets of reset components 5. The material is introduced into the interior of the screening box 4 and will first fall to the top of the screening deck 6.

Install cam member 7 on the screening box 4 lateral wall, and the output of cam member 7 extends to in the 4 inner chambers of screening box. Wherein, cam piece 7 includes first mounting panel 71 of fixed connection on the lateral wall of screening box 4, and first driving motor 72 is installed at first mounting panel 71 top, and first driving motor 72 output extends to in the screening box 4 inner chamber, and first driving motor 72 output fixed mounting has cam 73, and cam 73 bottom butt is in screening board 6 top one side. Reset 5 includes casing 51 of fixed mounting on the lateral wall of 4 inner chambers of screening box, and casing 51 inner chamber bottom fixed mounting has a flexible section of thick bamboo 52, and flexible end in flexible section of thick bamboo 52 top and screening board 6 bottom fixed connection, is connected with spring 53 between casing 51 inner chamber bottom and the screening board 6 bottom, and spring 53 is around establishing on flexible section of thick bamboo 52. The arranged first driving motor 72 drives the cam 73 to rotate, the rotating cam 73 intermittently pushes the screening plate 6, the arranged cam 73 drives the screening plate 6 to move up and down, and the screening plate 6 performs up-and-down reciprocating vibration operation under the combined action of the spring 53 and the cam part 7. The material on the upper surface is screened by the screening plate 6, so that the phenomenon of agglomeration is prevented.

In addition, collection box 11 has been placed to 2 inner chamber bottoms of main tank body, has seted up on 2 lateral walls of main tank body and has got material pore 12, and the material that is located 6 tops of screening board drops to collection box 11 inner chambers under the effect of piece 5 and cam piece 7 that resets, will collect box 11 via getting material pore 12 again and take out.

Install driving piece 8 on the main tank body 2 lateral wall, and the output of driving piece 8 is connected with screening box 4, and wherein, driving piece 8 includes second mounting panel 81 of fixed connection on main tank body 2 lateral wall, and second driving motor 82 is installed at second mounting panel 81 top, and second driving motor 82 output is connected with screening box 4. After the screening operation is completed, the caked materials are retained at the top of the screening plate 6, and the second driving motor 82 drives the screening box body 4 to perform the inclined operation.

Discharge hole has been seted up on the side wall of screening box 4, and discharge hole department damping is articulated to have closing plate 13, and at this moment, closing plate 13 on the side wall of screening box 4 is opened, and the caking material at screening plate 6 top rolls from discharge hole and falls into in smashing the box 3 inner chamber.

Smash 3 inner chamber bottoms fixed mounting of box have crushing 9, and wherein, crushing 9 includes the baffle 91 of fixed connection between the 4 inner chamber both ends lateral walls of screening box, smashes 3 inner chamber bottoms fixed mounting of box and has crushing motor 92, and crushing motor 92 top output is connected with transfer line 93, and transfer line 93 extends to baffle 91 top surface, and transfer line 93 fixed surface installs a plurality of groups crushing blade 94. The crushing motor 92 that sets up afterwards drives transfer line 93 and rotates, and rotatory transfer line 93 drives crushing blade 94 and rotates for the material of caking reaches the standard, and this has avoided the waste of material to a certain extent, has practiced thrift the cost.

In addition, the side wall of the crushing box body 3 is communicated with a discharge pipe, and an electromagnetic valve is installed on the discharge pipe. And taking out the materials after the crushing operation through the discharge pipe.

The specific working principle is as follows: before use, the plurality of heating plates 10 are opened, and the plurality of heating plates 10 heat the inside of the sieving casing 4 and the pulverizing casing 3. The material is introduced into the interior of the screening box 4 and will first fall to the top of the screening deck 6. The arranged first driving motor 72 drives the cam 73 to rotate, the rotating cam 73 intermittently pushes the screening plate 6, the arranged cam 73 drives the screening plate 6 to move up and down, and the screening plate 6 is vibrated up and down under the combined action of the spring 53 and the cam part 7. The screening plate 6 screens the materials on the upper surface, so that the phenomenon of agglomeration is prevented. Falls into the inner cavity of the collecting box 11 and then takes out the collecting box 11 through the material taking hole 12. After the screening operation is completed, the caked materials are retained at the top of the screening plate 6, and the second driving motor 82 drives the screening box 4 to perform the inclination operation. At this time, the sealing plate 13 on the side wall of the screening box 4 is opened, and the caked materials on the top of the screening plate 6 fall into the inner cavity of the crushing box 3 through the discharging hole channel. The crushing motor 92 that sets up afterwards drives transfer line 93 and rotates, and rotatory transfer line 93 drives crushing blade 94 and rotates for the material of caking reaches the standard, has avoided the waste of material to a certain extent to this, has practiced thrift the cost. And taking out the materials after the crushing operation through the discharge pipe.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Claims (7)

1. A rapid drying system for oligosaccharide derivative production, comprising a base plate (1), characterized in that: bottom plate (1) top has set gradually main tank body (2) and crushing box (3) from the past backward, it is connected with screening box (4) to rotate between the lateral wall of main tank body (2) inner chamber both ends, the symmetry is installed on the lateral wall of screening box (4) inner chamber both ends and is reset piece (5), and is two sets of fixedly connected with screening board (6) between resetting piece (5), install cam piece (7) on screening box (4) lateral wall, and the output of cam piece (7) extends to in screening box (4) inner chamber, install driving piece (8) on main tank body (2) lateral wall, and the output of driving piece (8) is connected with screening box (4), it has crushing piece (9) to smash box (3) inner chamber bottom fixed mounting, all install a plurality of groups hot plate (10) on screening box (4) and the crushing box (3) inner chamber lateral wall, the ejection of compact pore has been seted up on screening box (4) lateral wall, and ejection of compact pore department articulates there is closing plate (13).

2. The rapid drying system for oligosaccharide derivative production according to claim 1, wherein: reset piece (5) including casing (51) of fixed mounting on screening box (4) inner chamber lateral wall, casing (51) inner chamber bottom fixed mounting has flexible section of thick bamboo (52), and flexible end in flexible section of thick bamboo (52) top and screening board (6) bottom fixed connection, be connected with spring (53) between casing (51) inner chamber bottom and screening board (6) bottom, and spring (53) around establishing on flexible section of thick bamboo (52).

3. The rapid drying system for oligosaccharide derivative production according to claim 1, wherein: cam piece (7) are including first mounting panel (71) of fixed connection on screening box (4) lateral wall, first driving motor (72) are installed at first mounting panel (71) top, and in first driving motor (72) output extended to screening box (4) inner chamber, first driving motor (72) output fixed mounting has cam (73), and cam (73) bottom butt is in screening board (6) top one side.

4. The rapid drying system for oligosaccharide derivative production according to claim 1, wherein: the driving piece (8) comprises a second mounting plate (81) fixedly connected to the side wall of the main box body (2), a second driving motor (82) is installed at the top of the second mounting plate (81), and the output end of the second driving motor (82) is connected with the screening box body (4).

5. The rapid drying system for oligosaccharide derivative production according to claim 1, wherein: crushing piece (9) include baffle (91) of fixed connection between screening box (4) inner chamber both ends lateral wall, crushing box (3) inner chamber bottom fixed mounting has crushing motor (92), crushing motor (92) top output is connected with transfer line (93), and transfer line (93) extend to baffle (91) top surface, transfer line (93) fixed surface installs a plurality of groups and smashes blade (94).

6. The rapid drying system for oligosaccharide derivative production according to claim 1, wherein: a collecting box (11) is placed at the bottom of the inner cavity of the main box body (2), and a material taking hole channel (12) is formed in the side wall of the main box body (2).

7. The rapid drying system for oligosaccharide derivative production according to claim 1, wherein: the side wall of the crushing box body (3) is communicated with a discharge pipe, and an electromagnetic valve is installed on the discharge pipe.

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