CN218530917U - A high-efficient enamel reactor for chemicals production - Google Patents

Abstract

The utility model discloses a high-efficiency enamel reaction kettle for chemical production, which comprises an enamel reaction kettle main body, a weighing device and an exhaust pipe, wherein a scattering device is arranged at the top of the enamel reaction kettle main body, a feed inlet is arranged at the top end of the enamel reaction kettle main body, a stirring device is arranged at the bottom of the enamel reaction kettle main body, and a support ring is arranged below the stirring device; the weighing device is arranged on the base, and the top end of the weighing device is connected with the support ring; the exhaust pipe is arranged at the top of the enamel reaction kettle main body; the weighing device comprises a weighing sensor, a positioning plate is mounted on the top surface of the weighing sensor, a positioning seat is mounted on the top surface of the positioning plate, the top surface of the positioning seat is recessed inwards to form a positioning hole, a plurality of mounting seats are uniformly distributed on the bottom surface of the support ring, and each mounting seat is connected with the corresponding positioning seat through a support rod. The utility model discloses can the bearing, can adjust inside pressure again.

Description

A high-efficient enamel reactor for chemicals production

Technical Field

The utility model relates to an enamel reactor technical field especially relates to a high-efficient enamel reactor for chemicals production.

Background

The enamel reactor is made up by lining the glass containing high-silicon dioxide on the inner surface of steel container, and burning at high temp. to firmly adhere it to the metal surface. Therefore, it has the double advantages of glass stability and metal strength, and is an excellent corrosion-resistant device. The glass lining reaction kettle is widely applied to the industries of chemical industry, petroleum, medicine, pesticide, food and the like.

In the production of chemical products, a reaction kettle is often used, the processes of chemical combination reaction and concentration in an enamel reaction kettle are mainly controlled by indexes such as temperature, pressure and the like, general workers judge the reaction state and the concentration state of materials through the actual observation of naked eyes of people, and in the observation process, artificial operation errors are inevitable to occur, so that certain difference exists between the reaction and the concentration of each batch of materials, and the yield of products is low and the quality of the products is unstable; for the products to be produced, the quantity of each raw material is calculated, the raw materials are weighed respectively and then injected into a reaction kettle, the operation is troublesome, the weight control procedure is complicated, and the production efficiency is low.

Meanwhile, in the above process, the pressure inside the reaction kettle needs to be strictly controlled, a certain amount of gas is often generated during the chemical reaction in the reaction kettle, and in addition, the vapor pressure generated by the heating reaction is added, if the gas is not discharged in time, the pressure inside the reaction kettle is too high, so that some connecting parts on the reaction kettle are loosened or lose efficacy, and even the reaction kettle is broken; in addition, the chemical reaction needs to be carried out within a certain pressure range, and the pressure in the reaction kettle needs to be adjusted; the chemical reagent generally has certain toxicity or pungent smell, and the gas discharged from the reaction kettle under reduced pressure can cause great influence on physical and mental health of production workers and working environment of a production workshop if the gas is directly discharged without being filtered.

Accordingly, one skilled in the art has provided an enamel reactor for chemical production that is highly efficient to solve the problems set forth in the background art described above.

SUMMERY OF THE UTILITY MODEL

The utility model provides a can the bearing, can adjust a high-efficient enamel reactor who is used for chemicals production of inside pressure again.

In order to achieve the above object, the present invention provides the following technical solutions:

the utility model discloses a high-efficient enamel reactor for chemicals production, include:

the device comprises an enamel reaction kettle main body, wherein a scattering device is installed at the top of the enamel reaction kettle main body, a feed inlet is installed at the top end of the enamel reaction kettle main body, a stirring device is installed at the bottom of the enamel reaction kettle main body, a support ring is installed below the stirring device, and the support ring is fixed on the outer wall of the enamel reaction kettle main body;

the weighing device is arranged on the base, and the top end of the weighing device is connected with the support ring;

the exhaust pipe is arranged at the top of the enamel reaction kettle main body and is positioned on one side of the feed inlet, and a filter cartridge is arranged in the exhaust pipe;

the weighing device comprises a weighing sensor, a positioning plate is arranged on the top surface of the weighing sensor, a positioning seat is arranged on the top surface of the positioning plate, the top surface of the positioning seat is recessed inwards to form a positioning hole, a plurality of mounting seats are uniformly distributed on the bottom surface of the support ring, and each mounting seat is connected with the corresponding positioning seat through a support rod; the weighing sensor is installed on the base through a plurality of L-shaped limiting plates, and each L-shaped limiting plate is connected with the weighing sensor and the base through screws.

Further, the top of cartridge filter is installed in first baffle and the second baffle of superpose, the top surface of first baffle and the top surface of second baffle are laminated mutually and first baffle and blast pipe sealing connection, first exhaust hole has been seted up on the first baffle, the second exhaust hole has been seted up with the corresponding play of first baffle position on the second baffle, the top surface of second baffle is connected with first driving motor through the pivot, first driving motor installs on the apron on blast pipe top.

Furthermore, an annular guide groove is formed in the top surface of the first baffle and located on the outer side of the first exhaust hole, the bottom surface of the second baffle protrudes outwards to form a plurality of sliding blocks, and the plurality of sliding blocks surround an annular structure and can slide in the annular guide groove; and an exhaust hole is formed in the exhaust pipe and positioned above the second baffle.

Further, break up the device including setting up the second driving motor on enamel reactor main part outer wall, second driving motor's output and first pivot are connected, and first pivot stretches into enamel reactor main part internal and install on the inner wall of this enamel reactor main part through the bearing, install in a plurality of boards of breaking up in the position that just is located enamel reactor main part in the first pivot, it is a plurality of the board of breaking up all sets up along the length direction of first pivot.

Further, agitating unit is including setting up the third driving motor on enamel reactor main part outer wall, third driving motor's output and second pivot are connected, and the second pivot stretches into in the enamel reactor main part and installs on the inner wall of this enamel reactor main part through the bearing, install stirring vane in the second pivot and on being located the position in the enamel reactor main part.

Furthermore, a water inlet pipe is installed on one side of the feed inlet, the water inlet pipe extends into the enamel reaction kettle main body and is communicated with an annular water conveying pipeline, and a plurality of spray heads are installed on the bottom surface of the water conveying pipeline.

Furthermore, the annular water conveying pipeline comprises a plurality of coaxially arranged annular water conveying pipes, two adjacent annular water conveying pipes are connected through a connecting rod and communicated through a water conveying short pipe, and the spray heads are uniformly distributed on the bottom surfaces of the plurality of annular water conveying pipes.

Furthermore, a fan is arranged on one side of the positioning plate and communicated with the bottom of the enamel reaction kettle main body through an air conveying pipeline.

Furthermore, a discharge pipe is arranged at the bottom end of the enamel reaction kettle main body, and the joint of the air conveying pipeline and the enamel reaction kettle main body is positioned on one side of the discharge pipe; a first sieve plate and a second sieve plate are arranged inside the discharge pipe, the first sieve plate is positioned above the second sieve plate, and the diameter of a sieve pore on the first sieve plate is larger than that of a sieve pore on the second sieve plate; slag discharge pipes are arranged on the discharge pipe and are positioned close to the first sieve plate and the second sieve plate, the two slag discharge pipes are communicated with the discharge pipe, and the slag discharge pipes are positioned above the corresponding first sieve plate and the corresponding second sieve plate; and a back washing water pipe is arranged below the first sieve plate and the second sieve plate, and the back washing water pipe and the slag discharge pipe are respectively positioned at two sides of the discharge pipe.

Further, temperature sensor is all installed to the inside top of enamel reactor main part and bottom, the manometer is installed on the top of enamel reactor main part, the manometer is located one side of feed inlet.

In the technical scheme, the utility model provides a pair of a high-efficient enamel reactor for chemicals production has following beneficial effect:

1. the utility model provides a weighing device connects conveniently, and is fixed reliable, and the installation is dismantled easily, and weighing operation is convenient, and weighing sensor sends the signal to the controller, shows the weight of material in the enamel reactor main part through the controller, and convenient to use and maintenance operation are easy, and the practicality is good.

2. The exhaust switch is realized by rotating the second baffle plate, so that the pressure in the enamel reaction kettle main body can be conveniently adjusted.

3. The raw materials scattered by the scattering plate fall to the position near the stirring device, the third driving motor rotates, and the stirring blades are driven to rotate through the second rotating shaft, so that the raw materials are fully mixed.

4. The raw materials scattered by the scattering plate fall to the position near the stirring device, the third driving motor rotates and drives the stirring blades to rotate through the second rotating shaft, and then the raw materials are fully mixed.

5. After the medicines in the enamel reaction kettle main body are processed and collected, the valve on the water inlet pipe is opened, water is drained into the annular water delivery pipes, and the annular water delivery pipes are sprayed out through the nozzles to clean the interior of the enamel reaction kettle main body for the next use.

6. And the air conveying pipeline inputs air into the cleaned enamel reaction kettle main body so as to facilitate the enamel reaction kettle main body to be dried more quickly.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to these drawings.

FIG. 1 is a front view of a high-efficiency enamel reactor for chemical production according to an embodiment of the present invention;

FIG. 2 is a rear view of a high-efficiency enamel reactor for chemical production according to an embodiment of the present invention;

fig. 3 is a sectional view of a high-efficiency enamel reaction kettle for chemical production provided by an embodiment of the invention;

FIG. 4 is a cross-sectional view of the exhaust pipe of FIG. 1;

FIG. 5 is a plan view of the connection structure of the water inlet pipe and the water inlet pipe in FIG. 1;

FIG. 6 is a schematic illustration of the internal structure of the tapping pipe from FIG. 1.

Description of reference numerals:

10. an enamel reaction kettle main body; 11. a feed inlet; 12. a support ring; 13. a mounting seat; 14. a temperature sensor; 15. a pressure gauge;

20. a base;

30. an exhaust pipe; 31. a filter cartridge; 32. a first baffle; 33. a second baffle; 34. a first exhaust port; 35. a second vent hole; 36. a first drive motor; 37. an annular guide groove; 38. a slider; 39. an exhaust hole;

40. a weighing sensor; 41. positioning a plate; 42. positioning seats; 43. a support bar; 44. an L-shaped limiting plate;

50. a second drive motor; 51. a first rotating shaft; 52. a breaking plate;

60. a third drive motor; 61. a second rotating shaft; 62. a stirring blade;

70. a water inlet pipe; 71. a spray head; 72. an annular water delivery pipe; 73. a connecting rod; 74. a short water delivery pipe;

80. a fan; 81. a wind delivery pipeline;

90. a discharge pipe; 91. a first screen deck; 92. a second screen deck; 93. a slag discharge pipe; 94. a discharge pipe; 95. and (4) backwashing the water pipe.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the present invention will be further described in detail with reference to the attached drawings.

As shown in FIGS. 1-2;

the embodiment of the utility model provides a high-efficient enamel reactor for chemicals production, include:

the device comprises an enamel reaction kettle main body 10, wherein a scattering device is installed at the top of the enamel reaction kettle main body 10, a feeding hole 11 is installed at the top end of the enamel reaction kettle main body 10, a stirring device is installed at the bottom of the enamel reaction kettle main body 10, a support ring 12 is installed below the stirring device, and the support ring 12 is fixed on the outer wall of the enamel reaction kettle main body 10; the raw materials entering the enamel reaction kettle main body 10 are scattered by a scattering device, then enter the enamel reaction kettle main body 10, and are stirred by a stirring device to be fully mixed;

the weighing device is arranged on the base 20, and the top end of the weighing device is connected with the support ring 12; the weighing device can weigh the amount of the raw materials added each time;

the exhaust pipe 30 is arranged at the top of the enamel reaction kettle main body 10 and is positioned at one side of the feed inlet 11, and a filter cylinder 31 is arranged in the exhaust pipe 30; the exhaust pipe 3 can enable the device to have a pressure reduction function, and chemical reaction is guaranteed to be carried out within a certain pressure range;

the weighing device comprises a weighing sensor 40, a positioning plate 41 is arranged on the top surface of the weighing sensor 40, a positioning seat 42 is arranged on the top surface of the positioning plate 41, the top surface of the positioning seat 42 is recessed inwards to form a positioning hole (not shown), a plurality of mounting seats 13 are uniformly distributed on the bottom surface of the support ring 12, and each mounting seat 13 is connected with the corresponding positioning seat 42 through a support rod 43; the load cell 40 is mounted on the base 20 through a plurality of L-shaped limiting plates 44, and each L-shaped limiting plate 44 is connected with the load cell 40 and the base 20 through screws.

Locating plate 41 is placed on weighing sensor 40, bracing piece 43 plays the supporting role to enamel reactor main part 10, the top of bracing piece 40 and the 13 threaded connection of mount pad that correspond, insert in the locating hole that corresponds in the bottom of bracing piece 40, the integral connection is convenient, fixed reliable, the installation is dismantled easily, weighing operation is convenient, weighing sensor 40 sends the signal to the controller, show the weight of material in enamel reactor main part 10 through the controller, high durability and convenient maintenance operation are easy, and the practicality is good.

The upper portion of the filter cartridge 31 is mounted on a first baffle plate 32 and a second baffle plate 33 which are stacked, the top surface of the first baffle plate 32 is attached to the top surface of the second baffle plate 33, the first baffle plate 32 is hermetically connected with the exhaust pipe 30, a first exhaust hole 34 is formed in the first baffle plate 32, a second exhaust hole 35 is formed in the second baffle plate 33 corresponding to the first baffle plate 32 in position, the top surface of the second baffle plate 33 is connected with a first driving motor 36 through a rotating shaft, and the first driving motor 36 is mounted on a cover plate at the top end of the exhaust pipe 30.

The first driving motor 36 works to drive the second baffle 33 to rotate through the rotating shaft, and when the second exhaust hole 35 is superposed with the first exhaust hole 34, the lower part of the first baffle 33 is communicated with the space above the second baffle 33, so that the enamel reaction kettle main body 10 can be exhausted; after the second exhaust hole 35 and the first exhaust hole 34 are separated, the space below the first baffle 33 is separated from the space above the second baffle 33, so that the pressure in the enamel reaction kettle main body 10 is ensured.

An annular guide groove 37 is formed in the top surface of the first baffle 32 and located outside the first exhaust hole 34, a plurality of sliding blocks 38 are formed by protruding the bottom surface of the second baffle 33 outwards, and the plurality of sliding blocks 38 surround an annular structure and can slide in the annular guide groove 37; an exhaust hole 39 is formed in the exhaust pipe 30 above the second baffle 33. The gas discharged through the decompression of the exhaust hole 39 is not filtered by the filter cartridge 31, thereby avoiding the problem of environmental pollution.

When the first driving motor 36 drives the second baffle 33 to rotate through the rotating shaft, the annular slide block 38 on the bottom surface of the second baffle 33 slides in the annular guide groove 37, so that the occurrence of a dislocation phenomenon caused by the rotation of the second baffle 33 is avoided.

Break up the device including setting up second driving motor 50 on enamel reactor main body 10 outer wall, second driving motor 50's output is connected with first pivot 51, and first pivot 51 stretches into in enamel reactor main body 10 and installs on the inner wall of this enamel reactor main body 10 through the bearing, install in a plurality of boards 52 of breaking up on first pivot 51 and be located the position in enamel reactor main body 10, it is a plurality of the board 52 of breaking up all sets up along the length direction of first pivot 51. When the raw materials enter the enamel reaction kettle main body 10, the raw materials firstly pass through a scattering device; in the process, the second driving motor 50 operates to drive the plurality of scattering plates 52 thereon to rotate through the first rotating shaft 51, and the plurality of scattering plates 52 scatter the fallen raw materials so as to mix the raw materials.

Agitating unit is including setting up third driving motor 60 on enamel reactor main body 10 outer wall, the output and the second pivot 61 of third driving motor 60 are connected, and second pivot 61 stretches into in enamel reactor main body 10 and installs on the inner wall of this enamel reactor main body 10 through the bearing, install stirring vane 62 on the position that just is located enamel reactor main body 10 in the second pivot 61. The raw material scattered by the scattering plate 52 falls to the vicinity of the stirring device, and the third driving motor 60 rotates to drive the stirring blade 62 to rotate through the second rotating shaft 61, thereby sufficiently mixing the raw material.

A water inlet pipe 70 is installed on one side of the feed inlet 11, the water inlet pipe 70 extends into the enamel reaction kettle main body 10 and is communicated with an annular water conveying pipeline, and a plurality of spray heads 71 are installed on the bottom surface of the water conveying pipeline. The annular water conveying pipeline comprises a plurality of coaxially arranged annular water conveying pipes 72, two adjacent annular water conveying pipes 72 are connected through a connecting rod 73, the two adjacent annular water conveying pipes 72 are communicated through water conveying short pipes 74, and the spray heads 71 are uniformly distributed on the bottom surfaces of the plurality of annular water conveying pipes 72. After the medicines in the enamel reaction kettle main body 10 are processed and collected, the valve on the water inlet pipe 70 is opened, water is drained into the plurality of annular water pipes 72 and is sprayed out through the plurality of spray heads 71, and the interior of the enamel reaction kettle main body 10 is cleaned for the next use.

And a fan 80 is arranged on one side of the positioning plate 41, and the fan 80 is communicated with the bottom of the enamel reaction kettle main body 10 through an air conveying pipeline 81. And the air conveying pipeline 81 conveys air into the cleaned enamel reaction kettle main body 10, so that the enamel reaction kettle main body 1 can be dried more quickly. Meanwhile, a detergent can be added into the enamel reaction kettle main body 10 and then washed by clear water, so that the cleaning and maintenance in the use process are convenient, the residual detergent in the reaction kettle can be quickly removed, and the subsequent use of the reaction kettle is facilitated.

A discharge pipe 90 is arranged at the bottom end of the enamel reaction kettle main body 10, and the joint of the air conveying pipeline 81 and the enamel reaction kettle main body 10 is positioned on one side of the discharge pipe 90; a first sieve plate 91 and a second sieve plate 92 are arranged inside the discharge pipe 90, the first sieve plate 91 is positioned above the second sieve plate 92, and the diameter of a sieve pore on the first sieve plate 91 is larger than that of a sieve pore on the second sieve plate 92; slag discharge pipes 93 are arranged on the discharge pipe 90 and are positioned close to the first sieve plate 91 and the second sieve plate 92, the two slag discharge pipes 93 are communicated with a discharge pipe 94, and the slag discharge pipes 93 are positioned above the corresponding first sieve plate 91 and the corresponding second sieve plate 92; a back washing water pipe 95 is arranged below the first sieve plate 91 and the second sieve plate 92, and the back washing water pipe 95 and the slag discharge pipe 93 are respectively positioned at two sides of the discharge pipe 90.

Chemicals produced in the enamel reaction kettle main body 10 are sent out and collected through the discharge pipe 90, are separated through the first sieve plate 91 and the second sieve plate 92 before being collected, then the chemicals meeting the standard are collected, and the chemicals screened out through the first sieve plate 91 and the second sieve plate 92 are discharged into the discharge pipe 94 through the corresponding slag discharge pipe 93 and are discharged; the corresponding backwash pipes 95 below the first screening deck 91 and the second screening deck 92 can wash away chemicals that have stuck on the first screening deck 91 and the second screening deck 92 and discharge them through the discharge pipe 94.

Temperature sensor 14 is all installed to the inside top of enamel reactor main part 10 and bottom, manometer 15 is installed on the top of enamel reactor main part 10, manometer 15 is located one side of feed inlet 11. The pressure in the enamel reactor body 10 is displayed by a pressure gauge 15. The temperature sensor 14 is used for collecting the temperature in the enamel reaction kettle main body 10 and providing information for temperature regulation and control. The temperature adjusting device is used for adjusting and controlling the temperature difference during high-low temperature conversion during the reaction of the enamel reaction kettle main body 10, so as to avoid the damage of the enamel layer in the kettle body caused by shock cooling and shock heating generated when a low-temperature medium is directly used for cooling at high temperature or a high-temperature medium is directly used for heating at low temperature; a hot medium pipe and a cold medium pipe are installed in the side wall of the enamel reaction kettle main body 10, temperature control devices are arranged at outlets of the hot medium pipe and the cold medium pipe, and an inductive switch is opened or closed according to the temperature of a medium at the outlet, so that the utilization rate of the medium is improved, and energy loss is reduced.

Certain exemplary embodiments of the present invention have been described above by way of illustration only, and it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (10)

1. A high-efficient enamel reactor for chemicals production which characterized in that includes:

the device comprises an enamel reaction kettle main body (10), wherein a scattering device is installed at the top of the enamel reaction kettle main body (10), a feeding hole (11) is installed at the top end of the enamel reaction kettle main body (10), a stirring device is installed at the bottom of the enamel reaction kettle main body (10), a support ring (12) is installed below the stirring device, and the support ring (12) is fixed on the outer wall of the enamel reaction kettle main body (10);

the weighing device is arranged on the base (20), and the top end of the weighing device is connected with the support ring (12);

the exhaust pipe (30) is mounted at the top of the enamel reaction kettle main body (10) and is positioned on one side of the feed inlet (11), and a filter cylinder (31) is mounted in the exhaust pipe (30);

the weighing device comprises a weighing sensor (40), a positioning plate (41) is mounted on the top surface of the weighing sensor (40), a positioning seat (42) is mounted on the top surface of the positioning plate (41), the top surface of the positioning seat (42) is recessed inwards to form a positioning hole, a plurality of mounting seats (13) are uniformly distributed on the bottom surface of the support ring (12), and each mounting seat (13) is connected with the corresponding positioning seat (42) through a support rod (43); the weighing sensor (40) is installed on the base (20) through a plurality of L-shaped limiting plates (44), and each L-shaped limiting plate (44) is connected with the weighing sensor (40) and the base (20) through screws.

2. The high-efficiency enamel reactor for chemical production as claimed in claim 1, wherein: the top of cartridge filter (31) is installed in first baffle (32) and second baffle (33) of superpose, the top surface of first baffle (32) is laminated mutually with the top surface of second baffle (33), and first baffle (32) and blast pipe (30) sealing connection, first exhaust hole (34) have been seted up on first baffle (32), second exhaust hole (35) have been seted up with first baffle (32) corresponding play in position on second baffle (33), the top surface of second baffle (33) is connected with first driving motor (36) through the pivot, first driving motor (36) are installed on the apron on blast pipe (30) top.

3. The enamel reactor for chemical production as claimed in claim 2, wherein: an annular guide groove (37) is formed in the top surface of the first baffle plate (32) and located on the outer side of the first exhaust hole (34), a plurality of sliding blocks (38) are formed by protruding the bottom surface of the second baffle plate (33) outwards, and the sliding blocks (38) surround an annular structure and can slide in the annular guide groove (37); and an exhaust hole (39) is formed in the exhaust pipe (30) and positioned above the second baffle (33).

4. The high-efficiency enamel reactor for chemical production as claimed in claim 1, wherein: break up the device including setting up second driving motor (50) on enamel reactor main part (10) outer wall, the output and first pivot (51) of second driving motor (50) are connected, and first pivot (51) stretch into in enamel reactor main part (10) and install on the inner wall of this enamel reactor main part (10) through the bearing, install in a plurality of boards (52) of breaing up on first pivot (51) and be located the position in enamel reactor main part (10), it is a plurality of board (52) of breaing up all set up along the length direction of first pivot (51) break up board (52).

5. The high-efficiency enamel reactor for chemical production as claimed in claim 1, wherein: agitating unit is including setting up third driving motor (60) on enamel reactor main part (10) outer wall, the output and second pivot (61) of third driving motor (60) are connected, and second pivot (61) stretch into in enamel reactor main part (10) and install on the inner wall of this enamel reactor main part (10) through the bearing, install stirring vane (62) on second pivot (61) and be located the position in enamel reactor main part (10).

6. The high-efficiency enamel reactor for chemical production as claimed in claim 1, wherein: a water inlet pipe (70) is installed on one side of the feed inlet (11), the water inlet pipe (70) extends into the enamel reaction kettle main body (10) and is communicated with an annular water conveying pipeline, and a plurality of spray heads (71) are installed on the bottom surface of the water conveying pipeline.

7. The enamel reactor for chemical production as claimed in claim 6, wherein: the annular water conveying pipeline comprises a plurality of coaxially arranged annular water conveying pipes (72), two adjacent annular water conveying pipes (72) are connected through connecting rods (73), the two adjacent annular water conveying pipes (72) are communicated through water conveying short pipes (74), and the spray heads (71) are uniformly distributed on the bottom surfaces of the plurality of annular water conveying pipes (72).

8. The high-efficiency enamel reactor for chemical production as claimed in claim 1, wherein: and a fan (80) is arranged on one side of the positioning plate (41), and the fan (80) is communicated with the bottom of the enamel reaction kettle main body (10) through an air conveying pipeline (81).

9. The high-efficiency enamel reactor for chemical production as claimed in claim 8, wherein: a discharge pipe (90) is installed at the bottom end of the enamel reaction kettle main body (10), and the joint of the air conveying pipeline (81) and the enamel reaction kettle main body (10) is positioned on one side of the discharge pipe (90); a first sieve plate (91) and a second sieve plate (92) are arranged inside the discharge pipe (90), the first sieve plate (91) is positioned above the second sieve plate (92), and the diameter of a sieve pore on the first sieve plate (91) is larger than that of a sieve pore on the second sieve plate (92); slag discharge pipes (93) are arranged on the discharge pipe (90) and are positioned close to the first sieve plate (91) and the second sieve plate (92), the two slag discharge pipes (93) are communicated with a discharge pipe (94), and the slag discharge pipes (93) are positioned above the corresponding first sieve plate (91) and second sieve plate (92); and a back washing water pipe (95) is arranged below the first sieve plate (91) and the second sieve plate (92), and the back washing water pipe (95) and the slag discharge pipe (93) are respectively positioned at two sides of the discharge pipe (90).

10. The high-efficiency enamel reactor for chemical production as claimed in claim 1, wherein: temperature sensor (14) are all installed to the inside top of enamel reactor main part (10) and bottom, manometer (15) are installed on the top of enamel reactor main part (10), manometer (15) are located one side of feed inlet (11).

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