CN217809472U - 7-ANCA enzymolysis reaction is with high-efficient enzymolysis cauldron - Google Patents

Abstract

The utility model discloses a 7-ANCA enzymolysis reaction is with high-efficient enzymolysis cauldron, concretely relates to enzymolysis reaction kettle field, the loach carrying platform comprises a supporting fram, the welding of support frame upper end has the base, the enzymolysis device is installed to the base upper end, the enzymolysis device is including stirring subassembly and reaction assembly, the rotatable installation of stirring subassembly is in reaction assembly, the stirring subassembly includes motor, first supporting seat, second supporting seat, dwang and puddler, puddler fixed mounting is at the dwang outer wall, the rotatable installation in the motor output in dwang upper end. A7-ANCA enzymolysis reaction is with high-efficient enzymolysis cauldron, 7-ANCA in the reaction unit receives to accelerate after the stirring to merge speed, has accelerated whole device to 7-ANCA enzymolysis after 7-ANCA fuses fast, the availability factor of whole device obtains further reinforcing after 7-ANCA enzymolysis efficiency improves.

Description

7-ANCA enzymolysis reaction is with high-efficient enzymolysis cauldron

Technical Field

The utility model relates to an enzymolysis reation kettle field, in particular to 7-ANCA enzymolysis reaction is with high-efficient enzymolysis cauldron.

Background

7-ANCA is ceftizoxime mother nucleus, an intermediate thereof can also be used as ceftibuten mother nucleus, the main reaction raw material is penicillin sylvite, and the reaction solvent is dichloromethane, methanol and toluene; 7-ANCA needs to carry out enzymolysis reaction before pharmacy, the enzymolysis efficiency of the existing enzymolysis kettle barrel is low, and the subsequent decomposition performance of 7-ANCA is poor due to low safety of material feeding.

SUMMERY OF THE UTILITY MODEL

The main object of the utility model is to provide a 7-ANCA enzymolysis reaction is with high-efficient enzymolysis cauldron, can effectively solve the problem in the background art.

In order to achieve the above purpose, the utility model adopts the technical proposal that:

the utility model provides a 7-ANCA enzymolysis reaction is with high-efficient enzymolysis cauldron, includes the support frame, the welding of support frame upper end has the base, the enzymolysis device is installed to the base upper end, the enzymolysis device is including stirring subassembly and reaction unit, the rotatable installation of stirring subassembly is in reaction unit, the stirring subassembly includes motor, first supporting seat, second supporting seat, dwang and puddler, puddler fixed mounting is at the dwang outer wall, the rotatable installation in the motor output in dwang upper end, motor lower extreme fixed mounting is in first supporting seat and second supporting seat upper end, the welding of first supporting seat and second supporting seat lower extreme is in reaction unit upper end.

Preferably, the reaction assembly includes the enzymolysis kettle body, first exhaust duct, second exhaust duct, main feed inlet, runs through the mouth, supplementary mouth, exhaust duct, installation lid and the rotation handle of placing, rotate handle upper end fixed mounting and cover the lower extreme at the installation, the installation covers upper end demountable installation and covers the lower extreme at the exhaust duct, exhaust duct upper end fixed mounting is at enzymolysis kettle body lower extreme, main feed inlet lower extreme fixed mounting is in enzymolysis kettle body upper end, it sets up in enzymolysis kettle body upper end to run through the mouth and supplementary the opening of placing.

Preferably, the discharge pipe inner wall is equipped with spiral groove, the installation lid outer wall is equipped with the spiral burr, discharge pipe and installation lid adaptation are convenient for installation lid installation and dismantlement, and the installation lid mountable improves the practicality of whole device greatly with the dismantlement.

Preferably, first exhaust duct and second exhaust duct size are the same, first exhaust duct and second exhaust duct one end fixed mounting are in enzymolysis kettle body upper end both sides, and the discharge of gas can be accelerated in the simultaneous use of two sets of blast pipes.

Preferably, supplementary mouth of placing is equipped with two sets ofly, and two sets of supplementary mouthful upper end demountable installation that places has the protective cover, and two sets of supplementary mouthful size of placing the same, and two sets of supplementary drops into that the mouth can carry out the input of multiple material, thereby supplementary the mouth of placing can avoid the material to fuse in advance and produce the reaction and influence subsequent enzymolysis effect.

Preferably, the puddler is equipped with the multiunit, the bull stick length is less than the length of the enzymolysis kettle body, the dwang lower extreme runs through the penetration mouth and places at the enzymolysis kettle internally, and multiunit puddler card increases the stirring area.

Preferably, the inside diameter of base is the same with the diameter of enzymolysis tank body lower extreme, enzymolysis tank body lower extreme buckle is placed at the base inner wall, and the effectual enzymolysis tank body of avoiding takes place to empty when using.

Preferably, the diameter of the lower end of the main feed port is smaller than that of the upper end of the main feed port, the main feed port is funnel-shaped, 7-ANCA can be conveniently placed in the main feed port, and the 7-ANCA is prevented from leaking in the placing process.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. when the 7-ANCA in the reaction assembly is stirred, the fusion speed can be increased, when the 7-ANCA is rapidly fused, the enzymolysis of the whole device on the 7-ANCA is accelerated, and when the enzymolysis efficiency of the 7-ANCA is improved, the use efficiency of the whole device is further enhanced.

2. When the mounting cover is moved downwards, enzymolysis 7-ANCA can be completed and discharged through the discharge pipeline, the device can place materials through the main feeding hole and the auxiliary placing hole respectively, and therefore the situation that subsequent decomposition of the materials is affected due to premature reaction of the materials in the process of putting is effectively avoided.

Drawings

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

FIG. 2 is a schematic view of the overall structure of the enzymolysis device of the present invention;

FIG. 3 is a schematic sectional view of the overall structure of the enzymolysis device of the present invention;

fig. 4 is the overall structure schematic diagram of the stirring assembly of the utility model:

fig. 5 is a schematic view of the overall structure of the reaction assembly of the present invention.

In the figure: 1. a support frame; 2. a base; 3. an enzymolysis device; 31. a stirring assembly; 311. a motor; 312. a first support base; 313. a second support seat; 314. rotating the rod; 315. a stirring rod; 32. a reaction assembly; 321. an enzymolysis kettle body; 322. a first exhaust duct; 323. a second exhaust duct; 324. a main feed inlet; 325. a through opening; 326. an auxiliary placement port; 328. a discharge conduit; 329. installing a cover; 320. the handle is rotated.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

As shown in fig. 1-5, a high-efficiency enzymolysis kettle for 7-ANCA enzymolysis reaction comprises a support frame 1, a base 2 is welded at the upper end of the support frame 1, an enzymolysis device 3 is installed at the upper end of the base 2, the enzymolysis device 3 comprises a stirring component 31 and a reaction component 32, the stirring component 31 is rotatably installed in the reaction component 32, the stirring component 31 comprises a motor 311, a first support seat 312, a second support seat 313, a rotating rod 314 and a stirring rod 315, the stirring rod 315 is fixedly installed on the outer wall of the rotating rod 314, the upper end of the rotating rod 314 is rotatably installed at the output end of the motor 311, the lower end of the motor 311 is fixedly installed at the upper ends of the first support seat 312 and the second support seat 313, and the lower ends of the first support seat 312 and the second support seat 313 are welded at the upper end of the reaction component 32; 7-ANCA needs to add the material that makes its enzymolysis during the enzymolysis, need fully fuse with 7-ANCA after this material addition is accomplished, 7-ANCA will take place the enzymolysis reaction after 7-ANCA accomplishes fusing with this material, need open motor 311 during the use, after motor 311 rotates, has driven dwang 314 and puddler 315 of lower extreme to rotate, can stir in the reaction unit 32 after puddler 315 rotates, can accelerate the fusion speed after 7-ANCA in the reaction unit 32 receives the stirring, after 7-ANCA fuses fast, has accelerated whole device to 7-ANCA enzymolysis, after 7-ANCA enzymolysis efficiency improves the availability factor of whole device and has further strengthened.

The reaction assembly 32 comprises an enzymolysis kettle body 321, a first exhaust pipeline 322, a second exhaust pipeline 323, a main feed inlet 324, a through hole 325, an auxiliary placing hole 326, a discharge pipeline 328, an installation cover 329 and a rotating handle 320, wherein the upper end of the rotating handle 320 is fixedly arranged at the lower end of the installation cover 329, the upper end of the installation cover 329 is detachably arranged at the lower end of the discharge pipeline 328, the upper end of the discharge pipeline 328 is fixedly arranged at the lower end of the enzymolysis kettle body 321, the lower end of the main feed inlet 324 is fixedly arranged at the upper end of the enzymolysis kettle body 321, the through hole 325 and the auxiliary placing hole 326 are arranged at the upper end of the enzymolysis kettle body 321, the inner wall of the discharge pipeline 328 is provided with a spiral groove, the outer wall of the installation cover 329 is provided with a spiral convex pattern, the discharge pipeline 328 is matched with the installation cover 329, the first exhaust pipeline 322 and the second exhaust pipeline 323 have the same size, one end of the first exhaust pipeline 322 and one end of the second exhaust pipeline 323 are fixedly arranged at two sides of the upper end of the enzymolysis kettle body 321, two groups of auxiliary placing openings 326 are arranged, a protective cover is detachably arranged at the upper ends of the two groups of auxiliary placing openings 326, the two groups of auxiliary placing openings 326 have the same size, a plurality of groups of stirring rods 315 are arranged, the length of each rotating rod 314 is smaller than that of the enzymolysis kettle body 321, the lower end of each rotating rod 314 penetrates through the corresponding through opening 325 to be placed in the enzymolysis kettle body 321, the inner diameter of the base 2 is the same as that of the lower end of the enzymolysis kettle body 321, the lower end of the enzymolysis kettle body 321 is buckled on the inner wall of the base 2, the diameter of the lower end of the main feed port 324 is smaller than that of the upper end, and the main feed port 324 is funnel-shaped; 7-ANCA is poured into through main feed inlet 324 by the staff, after 7-ANCA enters the enzymolysis kettle body 321, the staff puts in zymolyte through auxiliary placing port 326, after zymolyte and 7-ANCA are put in and can wait for 7-ANCA to carry out enzymolysis, 7-ANCA can produce gas when enzymolysis takes place, the gas can be discharged and collected through first exhaust duct 322 and second exhaust duct 323, after 7-ANCA finishes enzymolysis, the staff can rotate clockwise and rotate handle 320 to drive mounting cover 329 to rotate and move down in exhaust duct 328, after mounting cover 329 finishes moving down, enzymolysis 7-ANCA can be discharged through exhaust duct 328, the device places the material through main feed inlet 324 and auxiliary placing port 326 respectively and effectively avoids the material from generating premature reaction when putting in so as to influence the subsequent decomposition of the material.

It needs to be illustrated that the utility model relates to a 7-ANCA enzymolysis reaction is with high-efficient enzymolysis cauldron, 7-ANCA need add the material that makes its enzymolysis when the enzymolysis, need fully fuse with 7-ANCA after this material adds to accomplish, 7-ANCA will take place enzymolysis reaction after 7-ANCA completes fusing with this material, need open motor 311 during the use, dwang 314 and the puddler 315 that has driven the lower extreme after motor 311 rotates are rotatory, can stir in reaction component 32 after the puddler 315 is rotatory, the staff pours 7-ANCA into through main feed inlet 324, after 7-ANCA enters into enzymolysis cauldron body 321, the staff puts into the enzymolysis thing through supplementary mouth 326 of placing, can wait for 7-ANCA to take place the enzymolysis after enzymolysis thing and ANCA put into and accomplish, 7-ANCA can produce gas when 7-ANCA takes place the enzymolysis, this gas accessible first exhaust duct 322 and second exhaust duct 323 discharge and collect, work staff can rotate clockwise the hand and drive the enzymolysis and rotate behind ANCA and drive the discharge cap 328 and carry out the enzymolysis and accomplish the discharge when 7-ANCA takes place, 7-ANCA, the discharge cap 328, it accomplishes the discharge after 7-ANCA finishes the enzymolysis.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It should be understood by those skilled in the art that the present invention is not limited to the above embodiments, and the above embodiments and descriptions are only illustrative of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the present invention, and all such changes and modifications fall within the scope of the present invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a 7-ANCA enzymolysis reaction is with high-efficient enzymolysis cauldron, includes support frame (1), its characterized in that: support frame (1) upper end welding has base (2), enzymolysis device (3) are installed to base (2) upper end, enzymolysis device (3) are including stirring subassembly (31) and reaction unit (32), stirring subassembly (31) is rotatable to be installed in reaction unit (32), stirring subassembly (31) are including motor (311), first supporting seat (312), second supporting seat (313), dwang (314) and puddler (315), puddler (315) fixed mounting is at dwang (314) outer wall, the rotatable output of installing in motor (311) in dwang (314) upper end, motor (311) lower extreme fixed mounting is in first supporting seat (312) and second supporting seat (313) upper end, first supporting seat (312) and second supporting seat (313) lower extreme welding is in reaction unit (32) upper end.

2. The efficient enzymolysis kettle for 7-ANCA enzymolysis reaction of claim 1, which is characterized in that: reaction unit (32) include the enzymolysis kettle body (321), first exhaust duct (322), second exhaust duct (323), main feed inlet (324), run through mouth (325), supplementary mouth (326), exhaust pipe (328), installation lid (329) and rotation handle (320) of placing, it is fixed mounting at installation lid (329) lower extreme to rotate handle (320) upper end, demountable mounting is in exhaust pipe (328) lower extreme on installation lid (329) upper end, exhaust pipe (328) upper end fixed mounting is in enzymolysis kettle body (321) lower extreme, main feed inlet (324) lower extreme fixed mounting is in enzymolysis kettle body (321) upper end, run through mouth (325) and supplementary mouth (326) of placing and set up in enzymolysis kettle body (321) upper end.

3. The efficient enzymolysis kettle for 7-ANCA enzymolysis reaction of claim 2, which is characterized in that: the inner wall of the discharge pipeline (328) is provided with a spiral groove, the outer wall of the mounting cover (329) is provided with a spiral convex line, and the discharge pipeline (328) is matched with the mounting cover (329).

4. The efficient enzymolysis kettle for 7-ANCA enzymolysis reaction of claim 2, which is characterized in that: the first exhaust pipeline (322) and the second exhaust pipeline (323) are the same in size, and one end of the first exhaust pipeline (322) and one end of the second exhaust pipeline (323) are fixedly arranged on two sides of the upper end of the enzymolysis kettle body (321).

5. The efficient enzymolysis kettle for 7-ANCA enzymolysis reaction of claim 2, which is characterized in that: supplementary mouth (326) of placing is equipped with two sets ofly, and two sets of supplementary mouth (326) upper end demountable installation that places has the protective cover, and two sets of supplementary mouth (326) sizes of placing are the same.

6. The efficient enzymolysis kettle for 7-ANCA enzymolysis reaction of claim 2, which is characterized in that: the puddler (315) is equipped with the multiunit, dwang (314) length is less than the length of the enzymolysis kettle body (321), dwang (314) lower extreme runs through and runs through mouthful (325) and places in the enzymolysis kettle body (321).

7. The efficient enzymolysis kettle for 7-ANCA enzymolysis reaction of claim 2, which is characterized in that: the inside diameter of base (2) is the same with the diameter of enzymolysis cauldron body (321) lower extreme, enzymolysis cauldron body (321) lower extreme buckle is placed at base (2) inner wall.

8. The efficient enzymolysis kettle for 7-ANCA enzymolysis reaction of claim 2, which is characterized in that: the diameter of the lower end of the main feed port (324) is smaller than that of the upper end, and the main feed port (324) is funnel-shaped.

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