CN213556952U - Double-deck control by temperature change reation kettle - Google Patents

Abstract

The utility model discloses a double-deck temperature control reation kettle relates to biotechnology technical field, inhale the piece including outer cauldron body, left side interface, control by temperature change medium recovery tube, left side vacuum tube, the automatically controlled valve in left side, control by temperature change medium circulating device, control by temperature change medium input tube, right side interface, right side vacuum tube, the automatically controlled valve in right side, evacuating device, the inlayer cauldron body, thermal-insulated overburden, heat exchange stirring post, heat exchange hole, spring, spliced pole, heat insulating block, iron sheet, electromagnetism. The utility model discloses a design that the design of insulating layer and temperature regulation and vacuum tube with adjustable that the scheme set up through the double-deck reation kettle body and the internal wall of inside reation kettle makes the double-deck reation kettle intermediate layer can carry out the mode that evacuation and heat preservation cover and insulate against heat, and the mode that also can carry out the heat exchange through the packing medium realizes that the control of temperature is adjusted, and the function is various, adaptable multiple different reaction condition.

Description

Double-deck control by temperature change reation kettle

Technical Field

The utility model belongs to the technical field of biotechnology technology and specifically relates to a double-deck control by temperature change reation kettle.

Background

Double-deck reation kettle of present stage is extensive in the application of individual trade field, but present double-deck reation kettle generally only possesses heat preservation or prevents heat exchange's effect, can not play real-time temperature's regulation effect, and to the operating mode that needs the controlled temperature under, double-deck reation kettle's adaptability is relatively poor.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects in the prior art, the utility model provides a double-layer temperature control reaction kettle.

The utility model provides a technical scheme that its technical problem adopted is: a double-layer temperature control reaction kettle comprises an outer kettle body, a left side interface, a temperature control medium recovery pipe, a left side vacuum pipe, a left side electric control valve, a temperature control medium circulating device, a temperature control medium input pipe, a right side interface, a right side vacuum pipe, a right side electric control valve, a vacuumizing device, an inner kettle body, a heat insulation covering layer, a heat exchange stirring column, a heat exchange hole, a spring, a connecting column, a heat insulation block, an iron sheet and an electromagnetic suction block, wherein the left side interface is arranged on the outer wall of the left side of the outer kettle body, the head end of the temperature control medium recovery pipe is rigidly installed on the temperature control medium circulating device, the tail end of the temperature control medium recovery pipe is rigidly installed on the left side interface, the head end of the left side vacuum pipe is connected and installed on the temperature control medium recovery pipe, the tail end of the left, the head end of the temperature control medium input pipe is rigidly mounted on the temperature control medium circulating device, the tail end of the temperature control medium input pipe is rigidly mounted on the right side interface, the head end of the right side vacuum-pumping pipe is connected and mounted on the temperature control medium input pipe, the tail end of the right side vacuum-pumping pipe is rigidly mounted on the vacuum-pumping device, the right side electric control valve is mounted at the position, close to the head end, of the right side vacuum-pumping pipe, the inner layer kettle body is rigidly and integrally mounted on the inner side of the outer layer kettle body, the heat insulation covering layer is arranged on the outer wall of the inner layer kettle body, the heat exchange stirring column is uniformly and integrally mounted on the inner wall of the lower part of the inner layer kettle body in a mode that 3 longitudinally and uniformly distributed are divided into 4 groups and 360-degree annular arrays, the heat exchange holes, the iron sheet is rigidly mounted on the outer surface of the heat insulation block, and the electromagnetic attraction block is rigidly mounted on the inner wall of the outer kettle body at a position corresponding to the heat exchange hole.

The double-layer temperature control reaction kettle is characterized in that the heat insulation block is arranged in a through hole formed in the outer wall of the heat insulation covering layer in a sealing and matching mode.

The beneficial effects of the utility model are that, the utility model relates to a design of the adjustable insulating layer and temperature regulation and vacuum tube that the scheme set up through the double-deck reation kettle body and the external wall of inside reation kettle makes the double-deck reation kettle intermediate layer can carry out the mode that evacuation and heat preservation cover and insulate against heat, and the mode that also can pass through the packing medium carries out the control regulation that the heat exchange realized the temperature, and the function is various, adaptable multiple different reaction condition.

Drawings

The present invention will be further explained with reference to the drawings and examples.

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

FIG. 2 is a schematic view of the overall internal mounting structure of the present invention;

fig. 3 is a partially enlarged view of the area a of the present invention.

In the figure, 1, an outer layer kettle body, 2, a left interface, 3, a temperature control medium recovery pipe, 4, a left vacuum pumping pipe, 5, a left electric control valve, 6, a temperature control medium circulating device, 7, a temperature control medium input pipe, 8, a right interface, 9, a right vacuum pumping pipe, 10, a right electric control valve, 11, a vacuum pumping device, 12, an inner layer kettle body, 13, a heat insulation covering layer, 14, a heat exchange stirring column, 15, a heat exchange hole, 16, a spring, 17, a connecting column, 18, a heat insulation block, 19, an iron sheet and 20, an electromagnetic absorption block.

Detailed Description

In order to more clearly illustrate the technical solution of the present invention, the following provides a further description of the present invention with reference to the accompanying drawings, and obviously, the following described drawings are only one embodiment of the present invention, and for those skilled in the art, other embodiments can be obtained according to the drawings and the embodiment without any creative work, and all belong to the protection scope of the present invention.

A double-layer temperature control reaction kettle comprises an outer kettle body 1, a left interface 2, a temperature control medium recovery pipe 3, a left vacuumizing pipe 4, a left electric control valve 5, a temperature control medium circulating device 6, a temperature control medium input pipe 7, a right interface 8, a right vacuumizing pipe 9, a right electric control valve 10, a vacuumizing device 11, an inner kettle body 12, a heat insulation covering layer 13, a heat exchange stirring column 14, a heat exchange hole 15, a spring 16, a connecting column 17, a heat insulation block 18, an iron sheet 19 and an electromagnetic suction block 20, wherein the left interface 2 is arranged on the left outer wall of the outer kettle body 1, the head end of the temperature control medium recovery pipe 3 is rigidly mounted on the temperature control medium circulating device 6, the tail end of the temperature control medium recovery pipe 3 is rigidly mounted on the left interface 2, the head end of the left vacuumizing pipe 4 is connected and mounted on the temperature control medium recovery pipe 3, the tail end of, the left electric control valve 5 is rigidly mounted at the position, close to the head end, of the left vacuumizing tube 4, the head end of the temperature control medium input tube 7 is rigidly mounted on the temperature control medium circulating device 6, the tail end of the temperature control medium input tube 7 is rigidly mounted on the right interface 8, the head end of the right vacuumizing tube 9 is connected and mounted on the temperature control medium input tube 7, the tail end of the right vacuumizing tube 9 is rigidly mounted on the vacuumizing device 11, the right electric control valve 10 is mounted at the position, close to the head end, of the right vacuumizing tube 9, the inner kettle body 12 is rigidly and integrally mounted at the inner side of the outer kettle body 1, the heat insulation covering layer 13 is arranged on the outer wall of the inner kettle body 12, the heat exchange stirring columns 14 are longitudinally and uniformly distributed in groups of 3 and are uniformly distributed at the inner wall of the lower part of the inner kettle body 12 in groups of, the spring 16 is rigidly mounted on the bottom surface of the heat exchange hole 15, the connecting column 17 is rigidly mounted on the spring 16, the heat insulation block 18 is rigidly mounted on the connecting column 17, the iron sheet 19 is rigidly mounted on the outer surface of the heat insulation block 18, and the electromagnetic attraction block 20 is rigidly mounted on the inner wall of the outer kettle body 1 corresponding to the setting position of the heat exchange hole 15.

In detail, the heat insulation block 18 is installed in a sealing fit manner in a through hole arranged on the outer wall of the heat insulation covering layer 13.

The above embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and the protection scope of the present invention is defined by the claims. Various modifications and equivalents of the invention can be made by those skilled in the art within the spirit and scope of the invention, and such modifications and equivalents should also be considered as falling within the scope of the invention.

Claims (2)

1. The utility model provides a double-deck control by temperature change reation kettle, including outer cauldron body (1), left side interface (2), control by temperature change medium recovery tube (3), left side vacuum tube (4), left side automatically controlled valve (5), control by temperature change medium circulating device (6), control by temperature change medium input tube (7), right side interface (8), right side vacuum tube (9), right side automatically controlled valve (10), evacuating device (11), the inlayer cauldron body (12), thermal-insulated overburden (13), heat exchange stirring post (14), heat exchange hole (15), spring (16), spliced pole (17), heat insulating block (18), iron sheet (19), electromagnetism is inhaled piece (20), its characterized in that: the left side interface (2) is arranged on the outer wall of the left side of the outer kettle body (1), the head end of the temperature control medium recovery pipe (3) is rigidly mounted on the temperature control medium circulating device (6), the tail end of the temperature control medium recovery pipe (3) is rigidly mounted on the left side interface (2), the head end of the left side vacuumizing pipe (4) is connected and mounted on the temperature control medium recovery pipe (3), the tail end of the left side vacuumizing pipe (4) is rigidly mounted on the vacuumizing device (11), the left side electric control valve (5) is rigidly mounted on the position, close to the head end, of the left side vacuumizing pipe (4), the head end of the temperature control medium input pipe (7) is rigidly mounted on the temperature control medium circulating device (6), the tail end of the temperature control medium input pipe (7) is rigidly mounted on the right side interface (8), the head end of the right side vacuumizing pipe (9) is connected and mounted on the temperature control medium, the right electric control valve (10) is arranged at the position of the right vacuumizing pipe (9) close to the head end, the inner layer kettle body (12) is rigidly and integrally arranged at the inner side of the outer layer kettle body (1), the heat insulation covering layer (13) is arranged on the outer wall of the inner layer kettle body (12), the heat exchange stirring columns (14) are uniformly distributed in a rigid integrated manner in a 360-degree annular array of 4 groups by taking 3 longitudinally uniformly distributed columns as a group and are arranged on the inner wall of the lower part of the inner layer kettle body (12), the heat exchange holes (15) are distributed on the outer wall of the inner layer kettle body (12) in groups, the spring (16) is rigidly arranged on the bottom surface of the heat exchange hole (15), the connecting column (17) is rigidly arranged on the spring (16), the heat insulation block (18) is rigidly arranged on the connecting column (17), the iron sheet (19) is rigidly arranged on the outer surface of the heat insulation block (18), the electromagnetic suction block (20) is rigidly arranged on the inner wall of the outer kettle body (1) corresponding to the position of the heat exchange hole (15).

2. The double-layer temperature-controlled reaction kettle according to claim 1, wherein the heat insulation block (18) is installed in a through hole arranged on the outer wall of the heat insulation covering layer (13) in a sealing fit manner.

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