CN216778780U - Enhanced heat transfer U-shaped tubular reactor - Google Patents

Enhanced heat transfer U-shaped tubular reactor Download PDF

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Publication number
CN216778780U
CN216778780U CN202220204716.3U CN202220204716U CN216778780U CN 216778780 U CN216778780 U CN 216778780U CN 202220204716 U CN202220204716 U CN 202220204716U CN 216778780 U CN216778780 U CN 216778780U
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reaction box
box
reaction
pipe
heat transfer
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龚丹丹
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Jiangsu Jingzhuo Metal Technology Co ltd
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Jiangsu Jingzhuo Metal Technology Co ltd
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Abstract

The utility model discloses a heat transfer enhancement U-shaped tubular reactor, which comprises a first reaction box, a second reaction box, a third reaction box and a fourth reaction box, wherein the bottom of the first reaction box is provided with a base, foot brake type rollers are arranged at four corners of the bottom of the base, a control panel is arranged on the first reaction box, heat preservation inner boxes are arranged inside the first reaction box, the second reaction box, the third reaction box and the fourth reaction box, the reactor has strong flexibility, the four reaction boxes can be mutually combined into two, three or four reaction box bodies, so that the reactor is suitable for the reaction of U-shaped tubes with different lengths, the equipment does not need to be disassembled and assembled, the replacement disassembly and assembly time is saved, the whole stability is strong, the reactor can also quickly heat the U-shaped tubes, the U-shaped tubes can quickly conduct heat, the reaction efficiency is accelerated, the time is saved, the top cover of the reaction box can be automatically extended out, the U-shaped pipe is convenient for workers to replace, and the operation is very simple and convenient.

Description

Enhanced heat transfer U-shaped tubular reactor
Technical Field
The utility model relates to the field of U-shaped tubular reactors, in particular to a heat transfer enhancement U-shaped tubular reactor.
Background
The existing U-shaped tubular reactor has a single function, only one group of U-shaped tubes are used for reaction, longer U-shaped tubes are needed for reaction, U-shaped tubes with different types and sizes are needed for reaction, the U-shaped tubes with different types are replaced back and forth in use, the U-shaped tubes are quite inconvenient and poor in flexibility, the existing U-shaped tubes do not have an external heating function, the reaction efficiency inside the U-shaped tubes is high, the existing reactor cannot be used for quickly disassembling and assembling the U-shaped tubes, the U-shaped tubes cannot be disassembled and assembled when being used, the whole device is required to be stopped for replacement, and great inconvenience is brought to people; a heat transfer enhancement U-shaped tubular reactor is provided for this purpose.
Disclosure of Invention
The present invention is directed to a heat transfer enhancement U-tube reactor to solve the above problems of the prior art.
In order to achieve the purpose, the utility model provides the following technical scheme: a heat transfer enhancement U-shaped tubular reactor comprises a first reaction box, a second reaction box, a third reaction box and a fourth reaction box, wherein a base is installed at the bottom of the first reaction box, foot brake type rolling wheels are installed at four corners of the bottom of the base, a control panel is installed on the first reaction box, heat preservation inner boxes are respectively arranged inside the first reaction box, the second reaction box, the third reaction box and the fourth reaction box, a reaction box sealing cover is arranged at the top of each heat preservation inner box, an electric heating box is installed at the top of each reaction box sealing cover, a feeding pipe is installed at one end of each heat preservation inner box, a discharging pipe is installed at the other end of each heat preservation inner box, U-shaped tubes are connected onto the discharging pipes and the feeding pipes, a top plate moving groove is arranged at the top of each heat preservation inner box, an electric telescopic rod is installed at the bottom of each heat preservation inner box, a conveying pipe is connected onto the discharging pipe in the first reaction box, the conveyer pipe passes through connecting bend and links to each other with the inlet pipe on second reaction box, third reaction box and the fourth reaction box respectively, all install the solenoid valve on connecting bend and the conveyer pipe, the discharging pipe on second reaction box, third reaction box and the fourth reaction box all links to each other with the conveyer pipe through the connecting pipe, install the check valve on the connecting pipe.
As a preferable technical scheme of the utility model, the first reaction box is fixedly connected with the second reaction box through a support rod, the second reaction box is fixedly connected with the third reaction box through a support rod, and the third reaction box is fixedly connected with the fourth reaction box through a support rod.
As a preferable technical scheme of the utility model, the electric heating box is arranged on the top of the reaction box sealing cover through bolts, the reaction box sealing cover is movably connected with the top plate movable groove, and the fan and the electric heating rod are arranged in the electric heating box.
As a preferred technical solution of the present invention, the electric telescopic rod is installed at the bottoms of the first reaction box, the second reaction box, the third reaction box and the fourth reaction box through bolts, the reaction box sealing cover is installed at one end of the electric telescopic rod through bolts, the heat-insulating inner box is respectively installed inside the first reaction box, the second reaction box, the third reaction box and the fourth reaction box through bolts, and heat-insulating fillers are filled between the heat-insulating inner box and the first reaction box, the second reaction box, the third reaction box and the fourth reaction box.
As a preferred technical scheme of the utility model, the U-shaped pipe is respectively connected with the feeding pipe and the discharging pipe through connecting flanges, and the foot brake type roller is arranged at four corners of the bottom of the base through bolts.
As a preferred technical scheme of the utility model, the control panel is connected with an external power supply, and the control panel is respectively and electrically connected with the electric telescopic rod, the electric heating box and the electromagnetic valve.
The utility model has the beneficial effects that: this reactor flexibility is strong, four reaction boxes that are equipped with can make up into two each other, three or four reaction box bodies, thereby be applicable to the U type pipe reaction of different length and use, need not to carry out the dismouting to equipment, practice thrift the dismouting time of changing, holistic stability can be strong, and this reactor can also carry out the rapid heating to U type pipe, let the quick heat conduction of U type pipe accelerate reaction efficiency, save time, this reactor can stretch out the reaction box top cap automatically, make things convenient for the staff to change the U type pipe, it is very simple and convenient to operate.
Drawings
FIG. 1 is a schematic structural view of the present invention;
fig. 2 is a side view of the present invention.
In the figure: the device comprises a first reaction box 1, a second reaction box 2, a third reaction box 3, a fourth reaction box 4, a base 5, a foot brake type roller 6, a control panel 7, a top plate movable groove 8, an electric telescopic rod 9, a heat preservation inner box 10, a reaction box sealing cover 11, a discharge pipe 12, a U-shaped pipe 13, a feed pipe 14, an electric heating box 15, a support rod 16, a connecting flange 17, a connecting bent pipe 18, a connecting pipe 19, a one-way valve 20, an electromagnetic valve 21 and a conveying pipe 22.
Detailed Description
The following detailed description of the preferred embodiments of the present invention, taken in conjunction with the accompanying drawings, will make the advantages and features of the utility model more readily understood by those skilled in the art, and thus will more clearly and distinctly define the scope of the utility model.
Example (b): referring to fig. 1-2, the present invention provides a technical solution: a heat transfer enhancement U-shaped tubular reactor comprises a first reaction box 1, a second reaction box 2, a third reaction box 3 and a fourth reaction box 4, wherein a base 5 is installed at the bottom of the first reaction box 1, foot brake type rollers 6 are installed at four corners of the bottom of the base 5, a control panel 7 is installed on the first reaction box 1, heat preservation inner boxes 10 are respectively arranged inside the first reaction box 1, the second reaction box 2, the third reaction box 3 and the fourth reaction box 4, a reaction box sealing cover 11 is arranged at the top of each heat preservation inner box 10, an electric heating box 15 is installed at the top of each reaction box sealing cover 11, a feeding pipe 14 is installed at one end of each heat preservation inner box 10, a discharging pipe 12 is installed at the other end of each heat preservation inner box 10, U-shaped pipes 13 are connected onto the discharging pipe 12 and the feeding pipe 14, a top plate movable groove 8 is arranged at the top of each heat preservation inner box 10, and an electric telescopic rod 9 is installed at the bottom of each heat preservation inner box 10, be connected with conveyer pipe 22 on the discharging pipe 12 in first reaction box 1, conveyer pipe 22 links to each other with second reaction box 2, the inlet pipe 14 on third reaction box 3 and the fourth reaction box 4 respectively through connecting bend 18, all install solenoid valve 21 on connecting bend 18 and the conveyer pipe 22, second reaction box 2, discharging pipe 12 on third reaction box 3 and the fourth reaction box 4 all link to each other with conveyer pipe 22 through connecting pipe 19, install check valve 20 on the connecting pipe 19.
The first reaction box 1 is fixedly connected with the second reaction box 2 through a support rod 16, the second reaction box 2 is fixedly connected with the third reaction box 3 through a support rod 16, and the third reaction box 3 is fixedly connected with the fourth reaction box 4 through a support rod 16.
The electric heating box 15 is installed on the top of the reaction box sealing cover 11 through bolts, the reaction box sealing cover 11 is movably connected with the top plate moving groove 8, and a fan and an electric heating rod are installed inside the electric heating box 15.
Electric telescopic handle 9 passes through the bolt and installs on first reaction box 1, second reaction box 2, on the bottom of third reaction box 3 and fourth reaction box 4, the sealed lid 11 of reaction box is served at electric telescopic handle 9 through the bolt installation, box 10 passes through the bolt and installs respectively at first reaction box 1 in the heat preservation, second reaction box 2, inside third reaction box 3 and the fourth reaction box 4, box 10 and first reaction box 1 in the heat preservation, second reaction box 2, it has the heat preservation filler to fill between third reaction box 3 and the fourth reaction box 4.
U type pipe 13 passes through flange 17 and links to each other with inlet pipe 14 and discharging pipe 12 respectively, and foot brake formula gyro wheel 6 passes through the bolt and installs four corners in the bottom of base 5.
The control panel 7 is connected with an external power supply, the control panel 7 is respectively electrically connected with the electric telescopic rod 9, the electric heating box 15 and the electromagnetic valve 21, and the control panel 7 is respectively connected with the power supplies of the electric telescopic rod 9, the electric heating box 15 and the electromagnetic valve 21 to enable the electric telescopic rod to be electrified and operated.
The working principle is as follows: a heat transfer enhancement U-shaped tubular reactor comprises a first reaction box 1, a second reaction box 2, a third reaction box 3 and a fourth reaction box 4, when in use, electromagnetic valves 21 at different positions on a conveying pipe 22 and electromagnetic valves 21 on a connecting bent pipe 18 are opened according to reaction requirements, so that the length of a U-shaped pipe 13 is adjusted, the first reaction box 1 and the second reaction box 2 can be combined together, the first reaction box 1, the second reaction box 2 and the third reaction box 3 can be combined together, the first reaction box 1, the second reaction box 2, the third reaction box 3 and the fourth reaction box 4 can be combined together, the length of the U-shaped pipe 13 is set according to the reaction requirements, so that different reaction requirements are met, the flexibility is strong, when the U-shaped pipe in the reaction box reacts, a fan in the electric heating box 15 and an electric heating rod can be electrified to work by connecting a power supply of the electric heating box 15, thereby utilize the fan to blow on the U type pipe 13 with the heat on the electric heating rod, increase the reaction rate in the U type pipe 13, improve overall efficiency, when needs are changed or are overhauld U type pipe 13, through the first reaction box 1 of control panel 7 switch-on, the second reaction box 2, the third reaction box 3, the electric telescopic handle 9 power of fourth reaction box 4 bottom, thereby utilize electric telescopic handle 9 circular telegram work to stretch out the sealed lid 11 of reaction box from roof activity inslot 8, thereby the staff of being convenient for overhauls and maintains U type pipe 13, make things convenient for people to operate and use.
When the reaction box is working, the U-shaped pipes 13 in the second reaction box 2, the third reaction box 3 and the fourth reaction box 4 need to be replaced, when the U-shaped pipes 13 in the second reaction box 2 are replaced, the electromagnetic valve 21 on the connecting elbow 18 at the bottom of the second reaction box 2 is closed, then the electromagnetic valve 21 closest to the second reaction box on the conveying pipe 22 is opened, so that the first reaction box 1, the third reaction box 3 and the fourth reaction box 4 are integrated, then the U-shaped pipes 13 in the second reaction box 2 are replaced, the normal reaction is not influenced, when the U-shaped pipes 13 in the third reaction box 3 need to be replaced, the electromagnetic valve 21 on the connecting elbow 18 at the bottom of the third reaction box 3 is closed, then the electromagnetic valve 21 closest to the third reaction box 3 on the conveying pipe 22 is opened, so that the first reaction box 1, the second reaction box 2, The fourth reaction box 4 is integrated, and when the U-shaped pipe 13 in the fourth reaction box 4 is replaced, the electromagnetic valve 21 on the connecting bent pipe 18 at the bottom of the fourth reaction box 4 is closed, and then the electromagnetic valve 21 on the conveying pipe 22 closest to the fourth reaction box 4 is opened;
when four reaction boxes are required to react, when the whole reaction is carried out, the electromagnetic valve 21 on the connecting bent pipe 18 is opened, the electromagnetic valve 21 on the conveying pipe 22 is closed, gas enters the first reaction box 1 through the feeding pipe 14, the gas is made to react through the U-shaped pipe 13 in the first reaction box 1, meanwhile, the U-shaped pipe 13 is heated through the electric heating box 15, then the gas enters the U-shaped pipe 13 in the second reaction box 2 through the conveying pipe 22 and the connecting bent pipe 18, after the reaction, the gas is conveyed into the U-shaped pipe 13 in the third reaction box 3 through the conveying pipe 22 and the connecting bent pipe 18 to react, then the gas is conveyed into the U-shaped pipe 13 in the fourth reaction box 4 through the conveying pipe 22 and the connecting bent pipe 18 to react, and finally the gas is conveyed out through the conveying pipe 22.
This reactor is active strong, four reaction tanks that are equipped with can make up into two each other, three or four reaction tank bodies, thereby be applicable to the U type pipe reaction of different length and use, need not to carry out the dismouting to equipment, practice thrift the dismouting time of changing, holistic stability can be strong, and this reactor can also carry out the rapid heating to U type pipe, let the quick heat conduction of U type pipe accelerate reaction efficiency, save time, this reactor can stretch out the reaction tank top cap automatically, make things convenient for the staff to change the U type pipe, it is very simple and convenient to operate.
The above examples only show some embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims (6)

1. The utility model provides an enhanced heat transfer U type tubular reactor, includes first reaction box (1), second reaction box (2), third reaction box (3) and fourth reaction box (4), its characterized in that: the bottom of the first reaction box (1) is provided with a base (5), four corners at the bottom of the base (5) are provided with foot brake type rollers (6), the first reaction box (1) is provided with a control panel (7), the first reaction box (1), the second reaction box (2), the third reaction box (3) and the fourth reaction box (4) are internally provided with heat-preservation inner boxes (10), the top of the heat-preservation inner boxes (10) is provided with a reaction box sealing cover (11), the top of the reaction box sealing cover (11) is provided with an electric heating box (15), one end of each heat-preservation inner box (10) is provided with an inlet pipe (14), the other end of each heat-preservation inner box (10) is provided with an outlet pipe (12), the outlet pipe (12) and the inlet pipe (14) are connected with a U-shaped pipe (13), the top of the heat-preservation inner boxes (10) is provided with a top plate movable groove (8), electric telescopic handle (9) are installed to the bottom of box (10) in keeping warm, be connected with conveyer pipe (22) on discharging pipe (12) in first reaction box (1), conveyer pipe (22) link to each other with inlet pipe (14) on second reaction box (2), third reaction box (3) and fourth reaction box (4) respectively through connecting bend (18), all install solenoid valve (21) on connecting bend (18) and conveyer pipe (22), discharging pipe (12) on second reaction box (2), third reaction box (3) and fourth reaction box (4) all link to each other with conveyer pipe (22) through connecting pipe (19), install check valve (20) on connecting pipe (19).
2. The enhanced heat transfer U-tube reactor of claim 1, wherein: the first reaction box (1) is fixedly connected with the second reaction box (2) through a support rod (16), the second reaction box (2) is fixedly connected with the third reaction box (3) through the support rod (16), and the third reaction box (3) is fixedly connected with the fourth reaction box (4) through the support rod (16).
3. The enhanced heat transfer U-tube reactor of claim 1, wherein: the electric heating box (15) is installed on the top of the reaction box sealing cover (11) through bolts, the reaction box sealing cover (11) is movably connected with the top plate moving groove (8), and a fan and an electric heating rod are installed inside the electric heating box (15).
4. An enhanced heat transfer U-tube reactor as set forth in claim 1, wherein: electric telescopic handle (9) are installed on the bottom of first reaction box (1), second reaction box (2), third reaction box (3) and fourth reaction box (4) through the bolt, the sealed lid of reaction box (11) is installed one of electric telescopic handle (9) through the bolt and is served, box (10) are installed respectively inside first reaction box (1), second reaction box (2), third reaction box (3) and fourth reaction box (4) through the bolt in the heat preservation, it has the heat preservation filler to fill between box (10) and first reaction box (1), second reaction box (2), third reaction box (3) and fourth reaction box (4) in the heat preservation.
5. The enhanced heat transfer U-tube reactor of claim 1, wherein: u type pipe (13) link to each other with inlet pipe (14) and discharging pipe (12) respectively through flange (17), service brake formula gyro wheel (6) are installed in four corners in the bottom of base (5) through the bolt.
6. An enhanced heat transfer U-tube reactor as set forth in claim 1, wherein: control panel (7) link to each other with external power supply, control panel (7) respectively with electric telescopic handle (9), electric heating cabinet (15) and solenoid valve (21) electric connection.
CN202220204716.3U 2022-01-25 2022-01-25 Enhanced heat transfer U-shaped tubular reactor Active CN216778780U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202220204716.3U CN216778780U (en) 2022-01-25 2022-01-25 Enhanced heat transfer U-shaped tubular reactor

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202220204716.3U CN216778780U (en) 2022-01-25 2022-01-25 Enhanced heat transfer U-shaped tubular reactor

Publications (1)

Publication Number Publication Date
CN216778780U true CN216778780U (en) 2022-06-21

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202220204716.3U Active CN216778780U (en) 2022-01-25 2022-01-25 Enhanced heat transfer U-shaped tubular reactor

Country Status (1)

Country Link
CN (1) CN216778780U (en)

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