CN219111568U - Circulation hydrogenation structure of hydrogenation kettle - Google Patents

Abstract

The utility model provides a hydrogenation kettle circulating hydrogenation structure, which relates to the technical field of hydrogenation structures and aims to solve the problems that the conventional circulating hydrogenation structure is imperfect in structure for controlling hydrogenation and the hydrogenation rate cannot be adjusted in different reaction stages during use, so that the hydrogenation kettle is inconvenient to use, and comprises an installation mechanism; the installation mechanism is provided with an external component, the installation frame of the external component is arranged on the front side of the main body in the installation mechanism, the installation frame is clamped with the outer side of the connecting pipe at the front end of the main body, the moving plate in the installation frame penetrates through the connecting pipe, and the circular through hole in the moving plate is communicated with the connecting pipe. When the hydrogenation device is used, the motor is used for controlling the adjusting screw to rotate, so that the movable plate moves among seven groups of connecting pipes, the gap between the circular through holes in the movable plate and the through holes in the connecting pipes can be changed, the speed of hydrogen passing through the movable plate is changed, and the efficiency of adjusting hydrogenation in the reaction kettle is achieved.

Description

Circulation hydrogenation structure of hydrogenation kettle

Technical Field

The utility model belongs to the technical field of hydrogenation structures, and particularly relates to a hydrogenation kettle circulating hydrogenation structure.

Background

The development of the pharmaceutical synthesis intermediate of the fluorchloroaniline is required to be carried out in a hydrogenation kettle, and hydrogen is required to be continuously added into the hydrogenation kettle during the development and processing to assist in the development of the pharmaceutical synthesis intermediate of the fluorchloroaniline.

Based on the discovery of the prior art, the structure of controlling hydrogenation in the existing circulating hydrogenation structure is imperfect, when in use, the hydrogenation rate can not be regulated in different reaction stages, so that the use of a hydrogenation kettle is inconvenient, the structure of controlling the hydrogenation position in the existing circulating hydrogenation structure is imperfect, and the amount of added hydrogen can not be regulated according to the amount of reactants in the reaction kettle, so that the waste of hydrogen is easily caused.

Disclosure of Invention

In order to solve the technical problem, the utility model provides a hydrogenation cauldron circulation hydrogenation structure to solve the structure of control hydrogenation in the current circulation hydrogenation structure imperfect, when using, can not adjust the speed of hydrogenation at different reaction stages, thereby lead to hydrogenation cauldron's use inconvenient, and control hydrogenation position's in the current circulation hydrogenation structure imperfect, can not adjust the volume of adding hydrogen according to the how much of reactant in the reation kettle, thereby make the problem that causes the waste of hydrogen easily.

The utility model relates to a purpose and efficiency of hydrogenation cauldron circulation hydrogenation structure is reached by following concrete technical means:

a hydropot cycling hydrogenation structure comprising:

a mounting mechanism; the installation mechanism is provided with an external component, the installation frame of the external component is arranged on the front side of the main body in the installation mechanism, the installation frame is clamped with the outer side of the connecting pipe at the front end of the main body, the moving plate in the installation frame penetrates through the connecting pipe, and the circular through hole in the moving plate is communicated with the connecting pipe; an adjusting component is arranged in the mounting mechanism, an adjusting plate of the adjusting component is slidably mounted in a chute in the main body through an elastic piece, a circular through hole in the adjusting plate is communicated with a circular hole on the front side of the main body, the adjusting component comprises a side groove and a limiting plate, the left side at the regulating plate is seted up to the side tank, and the right-hand member in side tank is equipped with the round bar, limiting plate slidable mounting is at the side tank inner, and the inside rectangle through-hole of having seted up of limiting plate to the limiting plate is run through by the round bar in the side tank.

Further, the mounting mechanism includes: a main body and a chute; the inside of the main body is of a hollow structure, and seven groups of round through holes are formed in the front end of the main body; seven groups of sliding grooves are formed in the sliding groove, the sliding groove is formed in the inner end of the front side of the main body, and the sliding groove is communicated with the circular through hole in the front end of the main body.

Further, the mounting mechanism further includes: an outer connecting pipe and a connecting pipe; the external connection pipes are arranged at two ends of the rear side of the main body, and the external connection pipes are communicated with the inside of the main body; seven groups of connecting pipes are arranged in total, the connecting pipes are arranged at the front end of the main body and are communicated with the round through holes at the front side of the main body, rectangular through grooves are formed in the inner ends of the front sides of the connecting pipes, and rectangular grooves are formed in the two ends of the front sides of the connecting pipes.

Further, the external component includes: the device comprises a mounting frame and an adjusting screw; a rectangular groove is formed in the mounting frame, and a motor is arranged at the upper end of the mounting frame; the adjusting screw is rotatably arranged on the inner side of the upper end of the mounting frame, and the upper end of the adjusting screw is in dynamic connection with a motor shaft on the mounting frame.

Further, the external assembly further includes: a moving plate and a movable groove; the movable plate is movably arranged on the inner side of the mounting frame, seven groups of circular through holes are formed in the movable plate, and the top of the movable plate is in threaded connection with the adjusting screw; the movable groove is formed in the upper end of the inner side of the movable plate.

Further, the adjusting assembly further comprises: an adjusting plate and an adjusting groove; a circular through hole is formed in the middle of the adjusting plate; the adjusting groove is formed in the right inner end of the adjusting plate, and the right end of the adjusting groove penetrates through the adjusting plate through two groups of circular through holes.

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

1. in this device, installation mechanism and adjusting part have been set up seven groups of connecting pipes in the main part front end, and make the connecting pipe be linked together with the circular through-hole of main part front side, set up the mounting bracket in the main part front side, and make the inboard of mounting bracket and the both ends looks block of seven groups of connecting pipes, movable mounting movable plate in the mounting bracket, make the movable plate run through seven groups of connecting pipes, and make the movable plate be linked together with the circular through-hole in the connecting pipe, set up the adjusting screw who connects explosion-proof motor on the mounting bracket top, make movable plate and adjusting screw threaded connection, during the use, through motor control adjusting screw rotation, make the movable plate remove between seven groups of connecting pipes, can change the gap of the interior circular through-hole of movable plate and connecting pipe internal through-hole like this, the speed of hydrogen through the movable plate has been changed, thereby reach the efficiency of adjusting hydrogenation in to reation kettle.

2. In this device, installation mechanism and adjusting part have been set up seven groups spouts in main part front side inner, and make the spout be linked together with the circular through-hole of main part front side, pass through elastic component slidable mounting with the regulating plate in the spout, and make the elastic component be located the regulating tank of regulating plate right-hand member, circular through-hole in the regulating plate is linked together with the circular through-hole of main part front end, set up the side tank in the regulating plate left end, with limiting plate movable mounting to the side tank in, during the use, hydrogen in the main part can pass the regulating plate and enter into the connecting pipe, when not needing the connecting pipe of a certain group to discharge hydrogen, push the regulating plate to the left side, make the limiting plate in the side tank leak from the left end of spout, spill back rotatory limiting plate to 90, loosen the regulating plate, make the elastic component promote the regulating plate and reset, and make the limiting plate top to the main part left end, circular through-hole on the regulating plate is different with the circular through-hole of main part front end this moment, hydrogen then can't enter into the connecting pipe through the regulating plate, through setting up, can independently control not discharge hydrogen in a certain height.

Drawings

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a schematic exploded view of the present utility model.

Fig. 3 is a schematic view of a partial cross-sectional structure of the present utility model.

Fig. 4 is a partial perspective view of the external assembly of the present utility model.

Fig. 5 is a schematic cross-sectional view of an adjustment assembly of the present utility model.

1. A mounting mechanism;

101. a main body; 1011. a chute;

102. an outer connecting pipe; 103. a connecting pipe;

2. an external component;

201. a mounting frame; 2011. adjusting a screw;

202. a moving plate; 203. a movable groove;

3. an adjustment assembly;

301. an adjusting plate; 3011. an adjustment tank;

302. a side groove; 303. and a limiting plate.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the present utility model but are not intended to limit the scope of the present utility model.

In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more; the terms "upper," "lower," "left," "right," "inner," "outer," "front," "rear," "head," "tail," and the like are used as references to orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, merely to facilitate description of the present utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be configured and operated in a particular orientation, and thus are not to be construed as limiting the present utility model. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "connected," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in this application will be understood by those of ordinary skill in the art in a specific context.

Examples:

as shown in fig. 1 to 5:

the utility model provides a hydrogenation kettle circulating hydrogenation structure, which comprises the following components: a mounting mechanism 1; the mounting mechanism 1 is provided with an external component 2, a mounting frame 201 of the external component 2 is arranged on the front side of a main body 101 in the mounting mechanism 1, the mounting frame 201 is clamped with the outer side of a connecting pipe 103 at the front end of the main body 101, a moving plate 202 in the mounting frame 201 penetrates through the connecting pipe 103, and a circular through hole in the moving plate 202 is communicated with the connecting pipe 103; the installation mechanism 1 is internally provided with an adjusting component 3, an adjusting plate 301 of the adjusting component 3 is slidably mounted in a sliding groove 1011 in the main body 101 through an elastic piece, a circular through hole in the adjusting plate 301 is communicated with a circular hole on the front side of the main body 101, the adjusting component 3 comprises a side groove 302 and a limiting plate 303, the side groove 302 is formed in the left side of the adjusting plate 301, the right end of the side groove 302 is provided with a circular rod, the limiting plate 303 is slidably mounted at the inner end of the side groove 302, a rectangular through hole is formed in the limiting plate 303, and the limiting plate 303 is penetrated by the circular rod in the side groove 302.

As shown in fig. 2 to 3, wherein the mounting mechanism 1 comprises: a main body 101 and a chute 1011; the inside of the main body 101 is of a hollow structure, and seven groups of round through holes are formed in the front end of the main body 101; the sliding grooves 1011 are provided with seven groups in total, the sliding grooves 1011 are arranged at the inner end of the front side of the main body 101, and the sliding grooves 1011 are communicated with a circular through hole at the front end of the main body 101; the main body 101 is arranged in a rectangular tubular main body 101, the main body 101 can be placed in a reaction kettle, hydrogenation is carried out on the main body 101 through an external connection pipe 102, then the main body 101 releases hydrogen, a rectangular sliding groove 1011 is arranged, and the adjusting component 3 can be slidably arranged on the front side of the inside of the main body 101 through the sliding groove 1011, and is externally connected with the pipe 102 and the connecting pipe 103; the two groups of the outer connecting pipes 102 are arranged in total, the outer connecting pipes 102 are arranged at two ends of the rear side of the main body 101, and the outer connecting pipes 102 are communicated with the inside of the main body 101; seven groups of connecting pipes 103 are arranged in total, the connecting pipes 103 are arranged at the front end of the main body 101, the connecting pipes 103 are communicated with round through holes on the front side of the main body 101, rectangular through grooves are formed in the inner end of the front side of the connecting pipes 103, rectangular grooves are formed in the two ends of the front side of the connecting pipes 103, round outer connecting pipes 102 are arranged, hydrogen can be added into the inner end of the reaction kettle from the outer side of the reaction kettle through the outer connecting pipes 102 by penetrating the outer connecting pipes 102 through the reaction kettle, and the round connecting pipes 103 are arranged, so that the hydrogen in the main body 101 can be discharged into the reaction kettle through the connecting pipes 103.

As shown in fig. 4, wherein the external assembly 2 comprises: a mounting frame 201 and an adjusting screw 2011; a rectangular groove is formed in the mounting frame 201, and a motor is arranged at the upper end of the mounting frame 201; the adjusting screw 2011 is rotatably arranged on the inner side of the upper end of the mounting frame 201, and the upper end of the adjusting screw 2011 is in dynamic connection with a motor shaft on the mounting frame 201; a rectangular mounting frame 201 is arranged, a movable plate 202 can be movably mounted in the mounting frame 201, an adjusting screw 2011 is arranged, the adjusting screw 2011 is connected with an explosion-proof motor at the upper end of the mounting frame 201, and when the adjusting screw 2011 rotates, the position of the movable plate 202 in the mounting frame 201, the movable plate 202 and a movable groove 203 can be adjusted; the movable plate 202 is movably arranged on the inner side of the mounting frame 201, seven groups of circular through holes are formed in the movable plate 202, and the top of the movable plate 202 is in threaded connection with the adjusting screw 2011; the movable groove 203 is formed at the upper end of the inner side of the movable plate 202, the rectangular movable plate 202 is arranged, and the gap of the outlet of the connecting pipe 103 can be changed by adjusting the position of the movable plate 202 in the mounting frame 201, so that the rate of adding hydrogen into the reaction kettle is adjusted.

As shown in fig. 3, wherein the adjusting assembly 3 further comprises: an adjustment plate 301 and an adjustment slot 3011; a circular through hole is formed in the middle of the adjusting plate 301; the adjusting groove 3011 is formed at the right inner end of the adjusting plate 301, the right end of the adjusting groove 3011 penetrates through the adjusting plate 301 through two groups of circular through holes, the rectangular adjusting plate 301 is arranged, whether the corresponding connecting pipe 103 can discharge hydrogen or not is controlled by moving the adjusting plate 301, and the adjusting groove 3011 is arranged, so that the moving space of the adjusting plate 301 in the sliding groove 1011 can be limited.

Specific use and action of the embodiment:

in the utility model, as shown in fig. 1-5, a main body 101 is placed at the inner end of a reaction kettle, two groups of external connection pipes 102 on the outer side of the main body 101 penetrate the reaction kettle, seven groups of sliding grooves 1011 are formed in the inner end of the front side of the main body 101, the sliding grooves 1011 are communicated with round through holes on the front side of the main body 101, an adjusting plate 301 is slidably arranged in the sliding grooves 1011 through elastic pieces, the round through holes in the adjusting plate 301 are communicated with the round through holes on the front end of the main body 101, seven groups of connection pipes 103 are arranged on the front side of the main body 101, a mounting frame 201 is sleeved on the outer sides of the seven groups of connection pipes 103, two sides of the inner side of the mounting frame 201 are clamped with two sides of the connection pipes 103, a moving plate 202 is movably arranged in the mounting frame 201, the moving plate 202 penetrates the seven groups of connection pipes 103, an adjusting screw 2011 connected with an adjusting motor is arranged at the top end of the mounting frame 201, the moving plate 202 is in threaded connection with the adjusting screw 2011, the motor is controlled to rotate, the moving plate 202 moves between the seven groups of connection pipes 103, round holes on the moving plate 202 are communicated with the round through holes in the connection pipes 103, hydrogen can be supplied into the inner side of the main body 101 through the outer connection pipes 102 on the bottom side, two sides of the connection pipes 103, two sides of the inner side of the main body are movably connected with the connecting pipes 103, and the inner side of the main body is movably connected with the inner side of the main body through the connecting pipes 103.

The embodiments of the present utility model have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (6)

1. The circulating hydrogenation structure of the hydrogenation kettle is characterized by comprising a mounting mechanism (1); the mounting mechanism (1) is provided with an external component (2), a mounting frame (201) of the external component (2) is arranged on the front side of a main body (101) in the mounting mechanism (1), the mounting frame (201) is clamped with the outer side of a connecting pipe (103) at the front end of the main body (101), a moving plate (202) in the mounting frame (201) penetrates through the connecting pipe (103), and a circular through hole in the moving plate (202) is communicated with the connecting pipe (103); be equipped with adjusting part (3) in installation mechanism (1), and adjusting part (3) adjusting plate (301) pass through elastic component slidable mounting in spout (1011) in main part (101), and circular through-hole in adjusting plate (301) is linked together with the circular hole of main part (101) front side, adjusting part (3) are including side groove (302) and limiting plate (303), the left side in adjusting plate (301) is seted up in side groove (302), and the right-hand member in side groove (302) is equipped with the round bar, limiting plate (303) slidable mounting is at the inner in side groove (302), and limiting plate (303) inside has seted up the rectangle through-hole to limiting plate (303) are run through by the round bar in side groove (302).

2. A hydropot circulation hydrogenation structure according to claim 1, wherein said mounting means (1) comprises: a main body (101) and a chute (1011); the inside of the main body (101) is of a hollow structure, and seven groups of round through holes are formed in the front end of the main body (101); seven groups of sliding grooves (1011) are formed in total, the sliding grooves (1011) are formed in the inner end of the front side of the main body (101), and the sliding grooves (1011) are communicated with a circular through hole in the front end of the main body (101).

3. A hydropot circulation hydrogenation structure according to claim 2, wherein said mounting mechanism (1) further comprises: an outer connection pipe (102) and a connection pipe (103); two groups of external connection pipes (102) are arranged in total, the external connection pipes (102) are arranged at two ends of the rear side of the main body (101), and the external connection pipes (102) are communicated with the inside of the main body (101); seven groups of connecting pipes (103) are arranged in total, the connecting pipes (103) are arranged at the front end of the main body (101), the connecting pipes (103) are communicated with round through holes at the front side of the main body (101), rectangular through grooves are formed in the inner ends of the front side of the connecting pipes (103), and rectangular grooves are formed in the two ends of the front side of the connecting pipes (103).

4. A hydrotank cycle hydrogenation structure according to claim 1, wherein said external assembly (2) comprises: a mounting frame (201) and an adjusting screw (2011); a rectangular groove is formed in the mounting frame (201), and a motor is arranged at the upper end of the mounting frame (201); the adjusting screw (2011) is rotatably arranged on the inner side of the upper end of the mounting frame (201), and the upper end of the adjusting screw (2011) is in dynamic connection with a motor shaft on the mounting frame (201).

5. A hydrotank cycle hydrogenation structure according to claim 4, wherein said external assembly (2) further comprises: a moving plate (202) and a movable groove (203); the movable plate (202) is movably arranged on the inner side of the mounting frame (201), seven groups of circular through holes are formed in the movable plate (202), and the top of the movable plate (202) is in threaded connection with the adjusting screw (2011); the movable groove (203) is arranged at the upper end of the inner side of the movable plate (202).

6. A hydrotank recycle hydrogenation structure according to claim 1, wherein said conditioning assembly (3) further comprises: an adjustment plate (301) and an adjustment slot (3011); a circular through hole is formed in the middle of the adjusting plate (301); the adjusting groove (3011) is formed in the right inner end of the adjusting plate (301), and the right end of the adjusting groove (3011) penetrates through the adjusting plate (301) through two groups of circular through holes.

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