CN212189024U

CN212189024U - Gas distribution device

Info

Publication number: CN212189024U
Application number: CN202020702801.3U
Authority: CN
Inventors: 梁祺; 张连永; 李若清; 孙峰京; 姚洪雷
Original assignee: Shandong Chenlong Pharmaceutical Co ltd
Current assignee: Shandong Chenlong Pharmaceutical Co ltd
Priority date: 2020-04-30
Filing date: 2020-04-30
Publication date: 2020-12-22
Anticipated expiration: 2030-04-30

Abstract

The utility model discloses a gas distribution device, belonging to the technical field of pharmaceutical chemical production equipment, comprising a bracket and a gas distribution cylinder; the method is characterized in that: the upper end and the lower end of the outer cylinder wall are respectively provided with an upper air distribution cover and a lower sealing plate through rotary connection; the inner wall of the outer cylinder wall between the upper air distribution cover and the lower sealing plate is provided with a preset number of impellers, and the upright column opposite to the impellers is provided with an injection pipe I and an injection pipe II; the top of the upright post is provided with a clearance type positive and negative rotation regulating switch; the utility model has the advantages that: the airflow is used as the only power source, so that the functions of gas injection and gas distribution, unpowered stirring and automatic forward and reverse rotation switching are realized; the clearance type positive and negative rotation adjusting switch is provided with a rotation conversion structure, so that the switching period of the two air outlets is prolonged, and the problem that the rotating power is insufficient due to too large resistance of the stirring air distributing cylinder caused by the reduction of air flow when the switch is immediately switched is solved.

Description

Gas distribution device

The technical field is as follows:

the utility model belongs to the technical field of pharmacy chemical production equipment, more specifically relates to a gaseous gas distribution device.

Background art:

the gas distributor is an important internal member of the multiphase flow reactor and is used for ensuring the uniform distribution of gas in the reactor, so that the materials in the reactor are kept in a good and stable flowing state. The gas distributor generally determines the uniformity of gas distribution and the size of bubble formation, and further influences the hydrodynamic state of the whole reactor bed layer including gas content and the like.

Most of the existing gas distributors are unreasonable in overall structure and size of the distribution pipes, the resistance drop effect of the distribution pipes is enlarged, the gas hole jet flow speed is different, the gas distribution is uneven, the channeling and dead zones are caused, and in order to alleviate the problems, the density of the pipe body is usually increased by technical personnel in the field, so that the requirement on the ventilation flow demand of the main pipe is extremely high.

The utility model has the following contents:

in order to solve the problems and overcome the defects of the prior art, the utility model provides a gas distribution device;

the first technical problem to be solved is that: most of the gas distributors amplify the resistance drop effect of the distribution pipes due to unreasonable overall structure and size arrangement of the distribution pipes, so that the gas distribution is uneven, and channeling and dead zones are caused due to different jet velocities of the gas holes;

the second technical problem to be solved is that: the density of the pipe body is increased, so that the requirement on the ventilation flow quantity of the main pipe is extremely high.

The utility model provides a concrete technical scheme of above-mentioned technical problem does: the gas distribution device comprises a bracket and a gas distribution cylinder; the method is characterized in that: the gas distribution cylinder comprises an outer cylinder wall with a circular cross section, and the upper end and the lower end of the outer cylinder wall are respectively provided with an upper gas distribution cover and a lower sealing plate through rotary connection; the support comprises a base and an upright post, one end of the upright post is fixed on the upper end face of the base along the vertical direction, and the other end of the upright post penetrates through and is fixed on the central axes of the upper air distribution cover and the lower sealing plate;

the inner wall of the outer cylinder wall between the upper air distribution cover and the lower sealing plate is provided with a preset number of impellers, the cross sections of the impellers are arranged into a horn shape, and an upright column opposite to the impellers is provided with an injection pipe I which is positioned at the lower part of the impellers and extends upwards according to a right-hand spiral and an injection pipe II which is positioned at the upper part of the impellers and extends downwards according to a left-hand spiral;

the stirring paddles are arranged on the outer wall of the outer cylinder wall in a preset number according to the annular matrix, the air distribution holes in the preset number are uniformly formed in the upper air distribution cover, the central axis of the stand column is hollow, and the top of the stand column is provided with a clearance type forward and reverse rotation adjusting switch.

Furthermore, clearance formula just reversing adjustment switch include one advance two play ball valves, one advance two play ball valves including the air inlet that sets up along vertical direction and two gas outlets of both sides, and be located the rotation type handle and the pivot of one advance two play ball valve upper ends, the upper end of pivot is provided with gyration transform structure through rotating the connection.

Further, gyration transform structure includes and is connected the connecting rod of the quantity of predetermineeing that sets up through rotating with the pivot, and the one end and the rotation type handle joint cooperation of the connecting rod of bottommost, the other end of the connecting rod of bottommost and the one end joint cooperation of the connecting rod of last one-level, the one end of the connecting rod of the superiors and the one end joint cooperation of the connecting rod of next one-level, the other end and the inner wall cooperation of urceolus wall, the inner wall of urceolus wall be provided with connecting rod joint complex dog.

Furthermore, two air outlets of the gap type forward and reverse rotation adjusting switch are downwards penetrated with an upper air distribution cover and are respectively connected with the injection pipe I and the injection pipe II.

Further, the upright post is connected with an air source through an air duct.

The utility model has the advantages that:

the device utilizes airflow as a unique power source, and realizes the functions of gas injection and gas distribution, unpowered stirring and automatic forward and reverse rotation switching;

the gap type positive and negative rotation adjusting switch is creatively arranged, the gap type positive and negative rotation adjusting switch is switched by means of the stirring air distributing cylinder, the rotation conversion structure is ingeniously arranged, the switching period of the two air outlets is prolonged, namely the switch is not immediately switched when the stirring air distributing cylinder rotates in the reverse direction, the problem that the rotation power is insufficient due to too large resistance of the stirring air distributing cylinder due to the fact that the air flow is reduced when the switch is immediately switched is solved, and therefore the stability and the power performance of unpowered stirring are guaranteed while automatic positive and negative rotation switching is achieved.

Description of the drawings:

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

FIG. 2 is a schematic view of the longitudinal cutting structure of the outer cylinder wall of the present invention;

FIG. 3 is a schematic diagram of the transverse cutting structure of the outer cylinder wall of the present invention; in the drawings:

1. a base; 2. a column; 3. a stirring paddle; 4. an outer cylinder wall; 5. a stopper; 6. an air distribution cover is arranged; 7. an air outlet; 8. a rotating shaft; 9. a rotary handle; 10. an air inlet; 11. a connecting rod; 12. distributing air holes; 13. a jet pipe I; 14. a jet pipe II; 15. an impeller; 16. and a lower sealing plate.

The specific implementation mode is as follows:

to further clarify the objects, aspects and advantages of the present invention, a more complete description of the invention will now be rendered by reference to figures 1-3. In describing the present invention, it should be understood that the terms "center", "upper", "lower", "left", "right", "rear", "lower left", "upper right", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the scope of the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

The utility model discloses a concrete implementation mode:

the gas distribution device comprises a bracket and a gas distribution cylinder; the method is characterized in that: the gas distribution cylinder comprises an outer cylinder wall 4 with a circular cross section, and the upper end and the lower end of the outer cylinder wall 4 are respectively provided with an upper gas distribution cover 6 and a lower sealing plate 16 through rotary connection; the support comprises a base 1 and an upright post 2, one end of the upright post 2 is fixed on the upper end face of the base 1 along the vertical direction, and the other end of the upright post 2 is fixedly penetrated through the central axis of an upper air distribution cover 6 and a lower sealing plate 16;

the inner wall of the outer cylinder wall 4 between the upper air distribution cover 6 and the lower sealing plate 16 is provided with a preset number of impellers 15, the cross sections of the impellers 15 are arranged into a horn shape, and the upright post 2 opposite to the impellers 15 is provided with an injection pipe I13 which is positioned at the lower part of the impeller 15 and extends upwards according to a right-hand spiral and an injection pipe II 14 which is positioned at the upper part of the impeller 15 and extends downwards according to a left-hand spiral;

the stirring paddles 3 with preset number are arranged on the outer wall of the outer cylinder wall 4 according to an annular matrix, the air distribution holes 12 with preset number are uniformly formed in the upper air distribution cover 6, the central axis of the upright post 2 is hollow, and the top of the upright post 2 is provided with a clearance type positive and negative rotation adjusting switch.

The clearance type positive and negative rotation adjusting switch comprises a one-inlet two-outlet ball valve, the one-inlet two-outlet ball valve comprises an air inlet 10 arranged in the vertical direction, two air outlets 7 arranged on two sides of the one-inlet two-outlet ball valve, a rotary handle 9 and a rotating shaft 8, the upper end of the rotating shaft 8 is connected through rotation to form a rotation conversion structure.

The gyration transform structure includes and is connected the connecting rod 11 of the quantity of predetermineeing that sets up through rotating with pivot 8, and the one end of the connecting rod 11 of bottommost cooperates with the 9 joint of rotation type handles, and the other end of the connecting rod 11 of bottommost cooperates with the one end joint of the connecting rod 11 of last level, and the one end of the connecting rod 11 of the superiors cooperates with the one end joint of the connecting rod 11 of next level, and the other end cooperates with the inner wall of urceolus wall 4, and the inner wall of urceolus wall 4 is provided with and connects complex dog 5 with connecting rod 11.

And two air outlets 7 of the clearance type forward and reverse rotation adjusting switch are downwards penetrated by an upper air distribution cover 6 and are respectively connected with an injection pipe I13 and an injection pipe II 14.

The upright post 2 is connected with an air source through an air duct.

It is to be noted that the utility model is a gas distribution device, when in specific work,

1. compressed air is introduced into the upright post 2 through an air guide pipe by an air compressor, high-pressure gas is introduced into an air inlet 10 of a one-inlet two-outlet ball valve through a hollow pipe in the upright post 2, at the moment, a left air outlet 7 is in a maximum flow ventilation state, the high-pressure gas is introduced into an injection pipe I13 which is positioned at the lower part of the impeller 15 and extends upwards according to a right-hand spiral through the left air outlet 7, the high-pressure gas is sprayed out and acts on one side of the horn-shaped impeller 15, the outer cylinder wall 4 is pushed to slowly start and circularly move along the upper gas distribution cover 6 and the lower sealing plate 16 through a reaction force, and then the stirring paddle 3 is driven to stir water areas around the base 1, so that the use;

2. meanwhile, along with the rotation of the outer cylinder wall 4, the stop block 5 is clamped at the bottom of the connecting rod 11 at the uppermost layer to further drive the connecting rod 11 at the uppermost layer to rotate, the connecting rod 11 at the uppermost layer rotates for a circle and then acts on the connecting rod 11 at the next layer to rotate, and is finally clamped at one side of the rotary handle 9 to drive the rotary handle 9 to rotate, so that the airflow is reduced and converted into the air outlet 7 at the right side, high-pressure gas is guided into the injection pipe II 14 which is positioned at the lower part of the impeller 15 and extends upwards according to the left-hand spiral through the air outlet 7 at the right side, the high-pressure gas is sprayed out and acts on the other side of the horn-shaped impeller 15, and the forward,

it is worth noting that: due to the existence of the rotary conversion structure, the switching period of the two air outlets is prolonged, namely, the switch is not immediately switched when the outer cylinder wall 4 rotates reversely, namely, after the outer cylinder wall 4 rotates reversely for a plurality of circles and has certain initial speed, the gap type forward and reverse rotation regulating switch is switched;

when the gap type positive and negative rotation adjusting switch is switched, the gas flow is reduced, so that the problem that the rotation power of the stirring gas distributing cylinder is insufficient due to too large resistance because the switch is switched immediately when the stirring gas distributing cylinder is started and the gas flow is reduced for switching when the gas flow reaches the maximum flow is effectively avoided, the maximization of the power of the device cannot be realized, and the rotation stability and the power performance of the outer cylinder wall 4 under the condition of no other power stirring are ensured while the automatic positive and negative rotation switching is realized;

3. finally, the device utilizes the airflow as a unique power source, and realizes the functions of gas injection and gas distribution, unpowered stirring and automatic forward and reverse rotation switching on the premise of ensuring powerful and stable power output.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A gas distribution device comprises a bracket and a gas distribution cylinder; the method is characterized in that: the gas distribution cylinder comprises an outer cylinder wall (4) with a circular cross section, and the upper end and the lower end of the outer cylinder wall (4) are respectively provided with an upper gas distribution cover (6) and a lower sealing plate (16) through rotary connection; the support comprises a base (1) and an upright post (2), one end of the upright post (2) is fixed on the upper end face of the base (1) along the vertical direction, and the other end of the upright post (2) penetrates through and is fixed on the central axis of an upper air distribution cover (6) and a lower sealing plate (16);

the inner wall of the outer cylinder wall (4) between the upper air distribution cover (6) and the lower sealing plate (16) is provided with a preset number of impellers (15), the cross sections of the impellers (15) are arranged in a horn shape, and the upright post (2) opposite to the impellers (15) is provided with an injection pipe I (13) which is positioned at the lower part of the impeller (15) and extends upwards in a right-hand spiral manner and an injection pipe II (14) which is positioned at the upper part of the impeller (15) and extends downwards in a left-hand spiral manner;

the stirring paddles (3) with a preset number are arranged on the outer wall of the outer cylinder wall (4) according to an annular matrix, the air distribution holes (12) with the preset number are uniformly formed in the upper air distribution cover (6), the central axis of the stand column (2) is hollow, and the top of the stand column (2) is provided with a gap type positive and negative rotation adjusting switch.

2. The gas distribution device of claim 1, wherein the intermittent positive and negative rotation adjusting switch comprises a one-inlet two-outlet ball valve, the one-inlet two-outlet ball valve comprises a gas inlet (10) and two gas outlets (7) arranged along the vertical direction, a rotary handle (9) and a rotating shaft (8) which are arranged at the upper end of the one-inlet two-outlet ball valve, and the upper end of the rotating shaft (8) is provided with a rotation conversion structure through rotation connection.

3. The gas distribution device according to claim 2, wherein the rotation conversion structure comprises a predetermined number of connecting rods (11) rotatably connected to the rotating shaft (8), one end of the bottommost connecting rod (11) is engaged with the rotary handle (9), the other end of the bottommost connecting rod (11) is engaged with one end of the connecting rod (11) of the previous stage, one end of the connecting rod (11) of the uppermost stage is engaged with one end of the connecting rod (11) of the next stage, the other end of the connecting rod is engaged with the inner wall of the outer cylinder wall (4), and the inner wall of the outer cylinder wall (4) is provided with a stopper (5) engaged with the connecting rod (11).

4. The gas distribution device of claim 3, wherein the two gas outlets (7) of the gap type forward and reverse rotation regulating switch are downwards penetrated by an upper gas distribution cover (6) and are respectively connected with the injection pipe I (13) and the injection pipe II (14).

5. The gas distribution device according to claim 1, characterized in that the upright (2) is connected to a gas source via a gas duct.