CN115615164A

CN115615164A - Drying device is used in synthetic ammonia production

Info

Publication number: CN115615164A
Application number: CN202211258455.4A
Authority: CN
Inventors: 高立山
Original assignee: Xuzhou Longxingtai Energy Technology Co ltd
Current assignee: Pizhou Ruihe Agricultural Development Co ltd
Priority date: 2022-10-14
Filing date: 2022-10-14
Publication date: 2023-01-17
Anticipated expiration: 2042-10-14
Also published as: CN115615164B

Abstract

The invention relates to the technical field of drying equipment, and discloses a drying device for synthetic ammonia production, which comprises a drying tank body; the upright post is fixedly arranged inside the drying tank body, and the upper end of the upright post is rotatably provided with a rotating ball; the drying mechanism is rotatably arranged at the upper end of the rotating bead and is used for drying production raw materials of synthetic ammonia; the air supply mechanism is fixedly arranged in the drying tank body and used for conveying drying air to the drying mechanism; the adjusting mechanism is rotatably arranged inside the drying tank body and used for adjusting the posture of the drying mechanism; the invention can solve the problems that the contact surface size of the dried articles and the drying airflow is not changed in common drying equipment, the drying efficiency is improved only by depending on the size of the airflow, and the drying efficiency is low, and can also solve the problem that a large amount of heat is wasted in a drying device when the quality of the dried articles is not screened in advance in common drying equipment.

Description

Drying device is used in synthetic ammonia production

Technical Field

The invention relates to the technical field of drying equipment, in particular to a drying device for synthetic ammonia production.

Background

The patent document with the publication number of CN109059461B discloses a drying device, wherein a first bin and a second bin are a drying bin and a preheating bin, the preheating bin is used for a first processing stage of material drying, the drying bin is used for a second processing stage of material drying, and the drainage fan is used for guiding gas in the drying bin into the preheating bin; when the materials in the first chamber enter the second treatment stage from the first treatment stage, the materials in the second chamber enter the first treatment stage from the second treatment stage; when the materials in the first chamber enter the first treatment stage from the second treatment stage, the materials in the second chamber enter the second treatment stage from the first treatment stage; the gas in the first bin and the gas in the second bin can flow regularly through the drainage fan, and then the recycling of gas heat is realized.

However, in the practical application process, the size of the contact surface between the dried articles and the drying airflow in the drying device is not changed, the drying efficiency is improved only by the size of the airflow, the drying efficiency is low, and when the quality of the dried articles is not screened in advance, the drying device has the problem that a large amount of heat is wasted.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a drying device for synthetic ammonia production.

In order to achieve the purpose, the invention provides the following technical scheme:

a drying device for synthetic ammonia production comprises a drying tank body;

the upright post is fixedly arranged inside the drying tank body, and the upper end of the upright post is rotatably provided with a rotating ball;

the drying mechanism is rotatably arranged at the upper end of the rotating bead and is used for drying production raw materials of synthetic ammonia;

the air supply mechanism is fixedly arranged in the drying tank body and is used for conveying drying air to the drying mechanism;

the adjusting mechanism is rotatably arranged in the drying tank body and is used for adjusting the posture of the drying mechanism;

the drying device comprises a drying tank body, a plurality of fixing pull rings I and a plurality of fixing pull rings II which are distributed at equal intervals, wherein the fixing pull rings I and the fixing pull rings II are all fixedly arranged on the inner wall of the drying tank body;

and the lower end of the drying tank body is provided with an adjusting motor for driving the adjusting mechanism to rotate.

As a further scheme of the invention: the upper end bolt fastening of the stoving jar body has the cover, install inlet pipe, discharging pipe, recovery tube on the external surface of the stoving jar body, inlet pipe, discharging pipe, recovery tube all extend to the inside of the stoving jar body, the discharging pipe is located between inlet pipe and the recovery tube, the inlet pipe is located the top of recovery tube.

As a further scheme of the invention: the lower extreme bolt fastening of the stoving jar body has unable adjustment base, be provided with a plurality of supporting legs that are the equidistance and arrange on unable adjustment base's the surface, be provided with the air-supply line on unable adjustment base's the surface, the one end of air-supply line is linked together with air supply mechanism's bottom.

As a further scheme of the invention: the adjusting mechanism comprises a rotating seat, the lower end of the rotating seat is fixedly connected with a rotating ring, one side of the rotating seat is fixedly connected with a recovery plate, the upper end of the rotating seat is provided with an adjusting assembly, and the lower end of the rotating ring is connected with the output end of an adjusting motor.

As a further scheme of the invention: the adjusting component comprises two limiting plates which are symmetrically arranged, a telescopic rod is installed between the two limiting plates in a rotating mode, one of the limiting plates is provided with a limiting motor which is used for driving the telescopic rod to rotate on the outer surface of the limiting plate, and the top of the telescopic rod is connected with a limiting ball.

As a further scheme of the invention: air supply mechanism contains the air supply collecting pipe, there are a plurality of air supply branch pipes along vertical direction parallel arrangement on the surface of air supply collecting pipe, the cross-section of air supply branch pipe is the loop configuration, be connected with a plurality of air-out pipes that are the annular array and arrange on the surface of air supply branch pipe, air-out pipe and the internal wall threaded connection of the jar body of drying.

As a further scheme of the invention: the drying mechanism comprises an upper drying plate, an annular drying plate and a drying bottom plate, the annular drying plate is located between the upper drying plate and the drying bottom plate, the upper drying plate is located above the drying bottom plate, a through groove is formed in the outer surface of the annular drying plate, a lifting mechanism used for plugging the through groove is arranged at the upper end of the upper drying plate, a shaft rod is rotatably mounted between the upper drying plate and the drying bottom plate, a driving piece used for driving the shaft rod to rotate is arranged at the upper end of the upper drying plate, an L-shaped scraper is fixedly connected to the outer surface of the shaft rod, and the shaft rod and the L-shaped scraper are both located inside the annular drying plate.

As a further scheme of the invention: the bottom of the drying bottom plate is provided with a plurality of annular grooves along the radial direction, the lower surface of the drying bottom plate and the outer surface of the annular drying plate are both provided with a plurality of filtering holes which are distributed at equal intervals, and part of the filtering holes are communicated with the annular grooves.

As a further scheme of the invention: the lifting mechanism comprises a lifting plate located on one side of the annular drying plate, and a lifting motor used for driving the lifting plate to lift is arranged at the upper end of the drying upper plate.

Compared with the prior art, the invention has the following beneficial effects:

the invention can realize automatic feeding and discharging and reduce the workload of a user.

The invention can start the adjusting motor to drive the adjusting mechanism to rotate so as to drive the drying mechanism to shake, and components in the drying mechanism can stir the synthetic ammonia production raw material, so that the contact surface between the synthetic ammonia production raw material and the drying air is wider, and the problems that in common drying equipment, the contact surface between dried articles and drying air flow does not change, the drying efficiency is improved only by the air flow, and the drying efficiency is low are solved.

According to the invention, production raw materials which do not conform to the size of the production standard particles can fall into the drying tank body through the filtering holes in the drying mechanism, the recovery plate in the adjusting mechanism can shift the production raw materials which do not conform to the size of the production standard particles to the upper end of the recovery pipe, and finally the recovery pipe is used for recovering the production raw materials, so that the raw material waste is avoided, the drying time can be shortened, the drying efficiency is improved, and the problem that a large amount of heat is wasted in a drying device when the quality of dried articles is not screened in advance in common drying equipment is solved.

Drawings

FIG. 1 is an overall structure diagram of a drying apparatus for synthetic ammonia production according to the present invention;

FIG. 2 is a front sectional view of the drying tank, the drying mechanism, the adjusting mechanism and the air supply mechanism of the present invention;

FIG. 3 is an enlarged view of the point A in FIG. 2 according to the present invention;

FIG. 4 is a front view of the adjustment mechanism of the present invention;

fig. 5 is a front sectional view of the drying mechanism of the present invention.

In the figure: 1. drying the tank body; 2. a can lid; 3. a feed pipe; 4. a discharge pipe; 5. a recovery pipe; 6. a fixed base; 7. supporting legs; 8. an air inlet pipe; 9. a drying mechanism; 10. a column; 11. an adjustment mechanism; 12. adjusting the motor; 13. fixing a first pull ring; 14. fixing a pull ring II; 15. an air supply mechanism; 151. an air supply collecting pipe; 152. an air supply branch pipe; 153. an air outlet pipe; 111. a rotating base; 112. a rotating ring; 113. recovering the plate; 114. a limiting plate; 115. a telescopic rod; 116. a limiting ball; 117. a limiting motor; 91. drying the upper plate; 92. an annular drying plate; 93. drying the bottom plate; 94. an annular groove; 95. a through groove; 96. a lifting plate; 97. a lifting motor; 98. a shaft lever; 99. an L-shaped scraper plate; 910. a drive member; 911. and (4) filtering holes.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 5, a drying apparatus for synthetic ammonia production includes:

the stoving jar body 1, the upper end bolt fastening of the stoving jar body 1 has cover 2, install inlet pipe 3 on the surface of the stoving jar body 1, discharging pipe 4, recovery tube 5, inlet pipe 3, discharging pipe 4, recovery tube 5 all extends to the inside of the stoving jar body 1, discharging pipe 4 is located between inlet pipe 3 and the recovery tube 5, inlet pipe 3 is located the top of recovery tube 5, the lower extreme bolt fastening of the stoving jar body 1 has unable adjustment base 6, be provided with a plurality of supporting legs 7 that are the equidistance and arrange on unable adjustment base 6's the surface, be provided with air-supply line 8 on unable adjustment base 6's the surface.

The upright post 10 is fixedly arranged inside the drying tank body 1, and the upper end of the upright post 10 is rotatably provided with a rotating ball; the drying mechanism 9 is rotatably arranged at the upper end of the rotating bead and is used for drying production raw materials of synthetic ammonia; the air supply mechanism 15 is fixedly arranged in the drying tank body 1, the air supply mechanism 15 is used for supplying drying air to the drying mechanism 9, and one end of the air inlet pipe 8 is communicated with the bottom end of the air supply mechanism 15; the adjusting mechanism 11 is rotatably arranged inside the drying tank body 1, and the adjusting mechanism 11 is used for adjusting the posture of the drying mechanism 9; the lower end of the drying tank body 1 is provided with an adjusting motor 12 for driving the adjusting mechanism 11 to rotate.

When the device is used, the drying mechanism 9 is firstly opened, the posture of the drying mechanism 9 is adjusted through the adjusting mechanism 11, so that synthetic ammonia production raw materials entering the feeding pipe 3 can enter the adjusting mechanism 11, then the drying mechanism 9 is closed, meanwhile, outside drying air is conveyed into the air supply mechanism 15 through the air inlet pipe 8, the adjusting motor 12 is started to drive the adjusting mechanism 11 to rotate, the drying mechanism 9 is further driven to shake, the synthetic ammonia production raw materials can be stirred by members in the drying mechanism 9, the contact surface between the synthetic ammonia production raw materials and the drying air is wider, the production raw materials which do not accord with the production standard particle size can fall into the drying tank body 1 through the filtering holes 911 in the drying mechanism 9, the recovery plate 113 in the adjusting mechanism 11 can stir the production raw materials which do not accord with the production standard particle size to the upper end of the recovery pipe 5, the recovery is finally carried out through the recovery pipe 5, the waste of the raw materials is avoided, the drying time can be shortened, and the drying efficiency is improved.

The drying device is also provided with a plurality of first fixing pull rings 13 and second fixing pull rings 14 which are distributed at equal intervals and are fixedly arranged on the inner wall of the drying tank body 1, the first fixing pull rings 13 are positioned above the second fixing pull rings 14, first elastic parts are connected between the first fixing pull rings 13 and the drying mechanism 9, and second elastic parts are connected between the second fixing pull rings 14 and the drying mechanism 9.

Drying mechanism 9 contains stoving upper plate 91, annular stoving board 92, stoving bottom plate 93, annular stoving board 92 is located between stoving upper plate 91 and the stoving bottom plate 93, stoving upper plate 91 is located the top of stoving bottom plate 93, logical groove 95 has been seted up on annular stoving board 92's the surface, stoving upper plate 91's upper end is provided with the elevating system who is used for carrying out the shutoff to logical groove 95, it installs axostylus axostyle 98 to rotate between stoving upper plate 91 and the stoving bottom plate 93, stoving upper plate 91's upper end is provided with and is used for driving axostylus axostyle 98 to carry out pivoted driving piece 910, fixedly connected with L type scraper blade 99 on axostylus axostyle 98's the surface, axostylus axostyle 98, L type scraper blade 99 all is located annular stoving board 92's inside.

The first fixed pull ring 13, the second fixed pull ring 14, the first elastic element, the second elastic element is used in cooperation with the drying mechanism 9, the first elastic element and the second elastic element are common elastic connecting elements available on the market, which is not described herein any more, the first elastic element is connected with the outer surface of the drying upper plate 91 in the drying mechanism 9, and the second elastic element is connected with the outer surface of the annular drying plate 92, so that the drying mechanism 9 is in a relatively stable state in an initial state, the shaking amplitude of the drying mechanism 9 is always kept in a controllable range, the drying quality is ensured, and when the drying mechanism 9 is used, the driving element 910 drives the shaft lever 98 to rotate, and further drives the L-shaped scraper 99 to rotate, the synthetic ammonia production raw materials are stirred, the contact area between the synthetic ammonia production raw materials and drying air is increased, and the drying efficiency is improved.

Mention may be made of: a plurality of annular grooves 94 are radially arranged at the bottom end of the drying bottom plate 93, a plurality of filtering holes 911 are formed in the lower surface of the drying bottom plate 93 and the outer surface of the annular drying plate 92 at equal intervals, as shown in fig. 5, a square figure on the cross section of the drying bottom plate 93 is also the filtering hole 911, and a part of the filtering holes 911 is communicated with the annular grooves 94, so that production raw materials which do not conform to the size of production standard particles can fall into the drying tank body 1 through the filtering holes 911 on the drying mechanism 9, the residual quantity of the production raw materials which do not conform to the size of the production standard particles in the drying mechanism 9 is reduced, the depth and the width of the plurality of radially arranged annular grooves 94 have no specific requirements, the cross section is semicircular, and if n annular grooves 94 are arranged, when the top of the adjusting mechanism 11 extends to the n-th annular groove 94 on the outermost side, the drying mechanism 9 performs blanking operation; when the top of the adjusting mechanism 11 extends to the first annular groove 94 at the innermost side, the drying mechanism 9 performs the feeding operation; otherwise, the drying mechanism 9 performs a drying operation, as will be described in more detail below.

Elevating system contains the lifter plate 96 that is located annular stoving board 92 one side, the upper end of stoving upper plate 91 is provided with and is used for driving lifter plate 96 and carries out the elevator motor 97 that goes up and down, in the execution, when unloading operation, all start elevator motor 97 and drive lifter plate 96 and carry out the lifting, until lifter plate 96 no longer to logical groove 95 carry out the shutoff can, when carrying out the stoving operation, lifter plate 96 carries out the shutoff to logical groove 95 all the time, avoid the synthetic ammonia raw materials that accord with the production requirement the condition that leaks to appear.

In the invention, an adjusting mechanism 11 comprises a rotating seat 111, the lower end of the rotating seat 111 is fixedly connected with a rotating ring 112, one side of the rotating seat 111 is fixedly connected with a recovery plate 113, the upper end of the rotating seat 111 is provided with an adjusting component, the lower end of the rotating ring 112 is connected with the output end of an adjusting motor 12, the adjusting component comprises two symmetrically arranged limiting plates 114, a telescopic rod 115 is rotatably installed between the two limiting plates 114, a limiting motor 117 for driving the telescopic rod 115 to rotate is arranged on the outer surface of one of the limiting plates 114, the top of the telescopic rod 115 is connected with a limiting ball 116, the telescopic rod 115 is a commercially available electric telescopic rod, and other components which can be stretched and achieve the same effect can be replaced and used; start telescopic link 115 and extend, start spacing motor 117 simultaneously and rotate telescopic link 115, the inclination to telescopic link 115 is adjusted, make spacing ball 116 can get into inside different ring channel 94, and start adjusting motor 12 drives rotatory ring 112 and rotates, thereby drive telescopic link 115, spacing ball 116, recovery plate 113 carries out synchronous rotation, make stoving mechanism 9 can carry out rocking of different ranges, and recovery plate 113 can be not conform to the production raw materials of production standard particle size and dial to the upper end of recovery tube 5, finally retrieve through recovery tube 5, avoid the raw materials extravagant.

The air supply mechanism 15 comprises an air supply collecting pipe 151, a plurality of air supply branch pipes 152 are arranged on the outer surface of the air supply collecting pipe 151 in parallel along the vertical direction, the cross sections of the air supply branch pipes 152 are of an annular structure, a plurality of air outlet pipes 153 which are arranged in an annular array are connected to the outer surface of the air supply branch pipes 152, the air outlet pipes 153 are in threaded connection with the inner wall of the drying tank body 1, the air supply branch pipes 152 and the air supply collecting pipe 151 are located inside the drying tank body 1, the lower end of the air supply collecting pipe 151 penetrates through the drying tank body 1 to be connected with an air inlet pipe 8, in the air supply branch pipes 152, the air outlet pipe 153 on the uppermost one is arranged in a downward inclined mode at 45 degrees, the air outlet pipe 153 on the lowermost one is arranged in an upward inclined mode at 45 degrees, the air outlet pipes 153 on the rest air supply branch pipes 152 are arranged horizontally, the coverage surface of drying air is improved, and when the drying mechanism 9 shakes, production raw materials can have larger contact area with the drying air.

In the invention, the feeding pipe 3 and the discharging pipe 4 are both inserted into the drying tank body 1, which means that the feeding pipe 3 and the discharging pipe 4 can be inserted into and pulled out of the drying tank body 1, and when the top of the adjusting mechanism 11 extends to the nth annular groove 94 on the outermost side, the drying mechanism 9 executes the blanking operation: at the moment, the limiting ball 116 in the adjusting mechanism 11 is located at a position far away from the discharge pipe 4, so that the whole drying mechanism 9 inclines towards the discharge pipe 4, the discharge pipe 4 is pushed towards the inside of the drying tank body 1 until the upper end of the discharge pipe 4 is located below the drying mechanism 9, then the lifting mechanism is started to stop plugging the through groove 95, and the synthetic ammonia production raw material is discharged through the discharge pipe 4; when the top of the adjusting mechanism 11 extends to the first annular groove 94 at the innermost side, the drying mechanism 9 performs the feeding operation: at this time, the limiting ball 116 is located at a position close to the feeding pipe 3, and pushes the feeding pipe 3 towards the inside of the drying tank body 1 until the lower end of the feeding pipe 3 extends to the inside of the drying mechanism 9, and feeding is performed through the feeding pipe 3; in other cases, the drying mechanism 9 performs the drying operation, and the lifting plate 96 always blocks the through groove 95.

After the feeding and discharging are completed, the feeding pipe 3 and the discharging pipe 4 can recover to the initial positions, and cannot obstruct the drying operation of the drying mechanism 9, in practical application, the drying mechanism 9 performs the feeding operation, the limiting ball 116 is located inside any one of the annular grooves 94, and the above mentioned extending the limiting ball 116 to the innermost first annular groove 94 is for: the relatively stable state of the drying mechanism 9 is kept as much as possible, the limiting ball 116 moves towards the outer annular groove 94, the overall shaking amplitude is larger during feeding, and even the problem that the synthetic ammonia production raw materials fall into the drying tank body 1 is caused, and in order to observe the internal situation of the drying tank body 1, an observation window can be arranged on the outer surface of the drying tank body 1.

The above are only preferred embodiments of the present invention, and the scope of the present invention is not limited to the above examples, and all technical solutions that fall under the spirit of the present invention belong to the scope of the present invention. It should be noted that modifications and adaptations to those skilled in the art without departing from the principles of the present invention should also be considered as within the scope of the present invention.

Claims

1. The utility model provides a drying device is used in synthetic ammonia production which characterized in that includes:

drying the tank body (1);

the upright post (10) is fixedly arranged inside the drying tank body (1), and the upper end of the upright post (10) is rotatably provided with a rotating ball;

the drying mechanism (9) is rotatably arranged at the upper end of the rotating bead and is used for drying production raw materials of synthetic ammonia;

the air supply mechanism (15) is fixedly arranged inside the drying tank body (1), and the air supply mechanism (15) is used for conveying drying air to the drying mechanism (9);

the adjusting mechanism (11) is rotatably arranged inside the drying tank body (1), and the adjusting mechanism (11) is used for adjusting the posture of the drying mechanism (9);

the drying device comprises a drying tank body (1), a plurality of first fixing pull rings (13) and second fixing pull rings (14) which are arranged equidistantly, wherein the first fixing pull rings (13) are fixedly arranged on the inner wall of the drying tank body (1), the first fixing pull rings (13) are positioned above the second fixing pull rings (14), first elastic pieces are connected between the first fixing pull rings (13) and a drying mechanism (9), and second elastic pieces are connected between the second fixing pull rings (14) and the drying mechanism (9);

and the lower end of the drying tank body (1) is provided with an adjusting motor (12) for driving an adjusting mechanism (11) to rotate.

2. The drying device for synthetic ammonia production according to claim 1, wherein a tank cover (2) is bolted to the upper end of the drying tank body (1), a feed pipe (3), a discharge pipe (4) and a recovery pipe (5) are mounted on the outer surface of the drying tank body (1), the feed pipe (3), the discharge pipe (4) and the recovery pipe (5) all extend into the drying tank body (1), the discharge pipe (4) is located between the feed pipe (3) and the recovery pipe (5), and the feed pipe (3) is located above the recovery pipe (5).

3. The drying device for synthetic ammonia production according to claim 1, wherein a fixing base (6) is fixed to the lower end of the drying tank body (1) through bolts, a plurality of support legs (7) are arranged on the outer surface of the fixing base (6) at equal intervals, an air inlet pipe (8) is arranged on the outer surface of the fixing base (6), and one end of the air inlet pipe (8) is communicated with the bottom end of the air supply mechanism (15).

4. The drying device for synthetic ammonia production according to claim 1, wherein the adjusting mechanism (11) comprises a rotating base (111), a rotating ring (112) is fixedly connected to the lower end of the rotating base (111), a recovery plate (113) is fixedly connected to one side of the rotating base (111), an adjusting assembly is arranged at the upper end of the rotating base (111), and the lower end of the rotating ring (112) is connected to the output end of the adjusting motor (12).

5. The drying device for synthetic ammonia production according to claim 4, wherein the adjusting assembly comprises two symmetrically arranged limiting plates (114), a telescopic rod (115) is rotatably installed between the two limiting plates (114), a limiting motor (117) for driving the telescopic rod (115) to rotate is arranged on the outer surface of one of the limiting plates (114), and a limiting ball (116) is connected to the top of the telescopic rod (115).

6. The drying device for synthetic ammonia production according to claim 1, wherein the air supply mechanism (15) comprises an air supply collecting pipe (151), a plurality of air supply branch pipes (152) are arranged on the outer surface of the air supply collecting pipe (151) in parallel along the vertical direction, a plurality of air outlet pipes (153) arranged in an annular array are connected to the outer surface of the air supply branch pipes (152), and the air outlet pipes (153) are in threaded connection with the inner wall of the drying tank body (1).

7. The drying device for synthetic ammonia production according to claim 1, wherein the drying mechanism (9) comprises an upper drying plate (91), an annular drying plate (92) and a bottom drying plate (93), the annular drying plate (92) is located between the upper drying plate (91) and the bottom drying plate (93), the upper drying plate (91) is located above the bottom drying plate (93), a through groove (95) is formed in the outer surface of the annular drying plate (92), a lifting mechanism for plugging the through groove (95) is arranged at the upper end of the upper drying plate (91), a shaft lever (98) is rotatably mounted between the upper drying plate (91) and the bottom drying plate (93), a driving part (910) for driving the shaft lever (98) to rotate is arranged at the upper end of the upper drying plate (91), an L-shaped scraper (99) is fixedly connected to the outer surface of the shaft lever (98), and the shaft lever (98) and the L-shaped scraper (99) are both located inside the annular drying plate (92).

8. The drying device for producing synthetic ammonia according to claim 7, wherein the bottom end of the drying bottom plate (93) is provided with a plurality of annular grooves (94) along the radial direction, and the lower surface of the drying bottom plate (93) and the outer surface of the annular drying plate (92) are provided with a plurality of filter holes (911) which are equidistantly arranged.

9. The drying device for synthetic ammonia production according to claim 7, wherein the lifting mechanism comprises a lifting plate (96) located on one side of the annular drying plate (92), and a lifting motor (97) for driving the lifting plate (96) to lift is arranged at the upper end of the drying upper plate (91).