CN112642373A - Full-automatic chemical reaction device - Google Patents

Abstract

The invention discloses a full-automatic chemical reaction device, which comprises: the reaction box is provided with a pressure relief pipe for pressure relief; the feeding pipe is arranged on the upper end face of the reaction box and can convey materials into the reaction box; be provided with on the inner wall of pressure release pipe and be used for carrying out sealed ball sealer to the pressure release pipe, the pressure release pipe is fixed at the reaction box up end through the pressure release subassembly of being connected with storage component, storage component sets up on the reaction box and can store the material in the air current, pressure release subassembly runs through to be fixed on storage component and can carry out the pressure release to storage component, rotatory cleaning assembly who is used for carrying out the clearance to adnexed material in the reaction box that is provided with on the inner wall of reaction box, through utilizing pressure release subassembly to carry out the pressure release and block the material in the air current through the barrier plate to the air current in the reaction equipment, utilize cleaning assembly to clear up material inside simultaneously.

Description

Full-automatic chemical reaction device

Technical Field

The invention relates to the technical field of chemical reaction equipment, in particular to a full-automatic chemical reaction device.

Background

Chemical reaction equipment and chemical production are frequently subjected to various different types of chemical reaction processes, and reactors with different shapes, sizes, operation modes and the like appear in industrial production in order to adapt to different chemical reactions. In order to facilitate understanding of the characteristics of the various reactors and to achieve the goal of proper reactor selection, the classification of the reactors should be understood first.

Current reaction unit is reacting chemical material, when pressure in the response device reaches a definite value, generally carry out the pressure release through utilizing the relief valve to the pressure in the response device, when the relief valve damages, can lead to the pressure in the response device to continuously rise, thereby reaction device's factor of safety greatly reduced appears, the air current is at the in-process of emission simultaneously, can have partial material, lead to the loss of material, and after the material reacts in response device, the phenomenon of partial material attached to on the response device inner wall can appear, lead to follow-up needs manual work to clear up the response device inner wall.

Disclosure of Invention

The invention aims to provide a full-automatic chemical reaction device, which is characterized in that a pressure relief assembly is used for relieving air flow in reaction equipment, a barrier plate is used for blocking materials in the air flow, and a cleaning assembly is used for cleaning the interior of the materials.

The technical purpose of the invention is realized by the following technical scheme:

a fully automated chemical reaction apparatus, comprising: the reaction box is provided with a pressure relief pipe for pressure relief; the feeding pipe is arranged on the upper end face of the reaction box and can convey materials into the reaction box; be provided with on the inner wall of pressure release pipe and be used for carrying out sealed ball sealer to the pressure release pipe, the pressure release subassembly that the pressure release pipe is connected with storage component fixes at the reaction box up end, storage component sets up on the reaction box and can store the material in the air current, pressure release subassembly runs through to be fixed on storage component and can carry out the pressure release to storage component, the rotatory clearance subassembly that is used for carrying out the clearance to adnexed material in the reaction box that is provided with on the inner wall of reaction box.

As preferred, sealed ball is connected the slip setting with the dwang in the pressure release pipe, the dwang is rotatory to be set up on the inner wall of pressure release pipe, the storage subassembly is including the bin that is used for storing liquid and the barrier plate that is used for blockking liquid, the up end at the reaction box is fixed to the bin just the bin passes through the pipe connection with the reaction box, the barrier plate slope is fixed on the inner wall of bin and the barrier plate is close to the pressure release pipe, be provided with in the bin and be used for carrying out the showy ball that seals to the bin, it is provided with the seal assembly who is used for carrying out the seal to the reaction box to slide on the inner.

Preferably, the sealing assembly comprises a sealing plate for sealing the reaction box and a weight sensor for sensing the weight of the liquid, the sealing plate is connected with an electric push rod and slidably arranged on the inner wall of the reaction box, the gravity sensor is fixed on the upper end face of the sealing plate, and the electric push rod is fixed on the inner wall of the reaction box.

Preferably, the pressure relief assembly comprises a transmission pipe for transmitting the airflow in the storage box and a fan for transmitting the airflow in the transmission pipe, the transmission pipe penetrates through and is fixed on the upper end face of the storage box, and the fan is fixed on the upper end face of the transmission pipe.

As preferred, the clearance subassembly is including being used for carrying out the puddler that stirs to the material and fixing the backup pad on the puddler lateral wall, the puddler is through being connected rotatory the setting on the inner wall of bin with drive assembly, be provided with the brush that is used for carrying out the clearance to the reaction box inner wall in the backup pad, the brush is through being connected rotatory the setting on the lateral wall of backup pad with friction pack, the rotatory setting of friction pack just can drive the brush and rotate in the backup pad, the up end of reaction box is fixed with and is used for passing the transmission subassembly that the fluid entered into in the puddler.

Preferably, the driving assembly comprises a spur gear set used for driving the stirring rod to rotate and a motor used for driving the spur gear set to rotate, the motor is fixed on the upper end face of the reaction box, and the spur gear set is fixed on the side wall of the stirring rod.

Preferably, the friction assembly comprises a rotating rod for driving the brush to rotate and a bevel gear set for driving the rotating rod to rotate, the rotating rod is rotatably arranged on the inner wall of the supporting plate, the bevel gear set is fixed at one end of the rotating rod through a rotating wheel connected with the moving rod, the moving rod is rotatably arranged in the supporting plate and can drive the bevel gear set to rotate, and the rotating wheel is rotatably arranged on the supporting plate and can drive the moving rod to rotate.

As preferred, the transmission assembly is including rotatory piece that sets up on the puddler inner wall and the liquid reserve tank that is used for storing liquid, be fixed with on the inner wall of bin and be used for the transmission fluid to enter into the suction pump in the rotatory piece, just the suction pump passes through the pipe connection with rotatory piece, the up end of liquid reserve tank runs through and is fixed with the external fluid infusion pipe that is used for carrying out the fluid infusion to the liquid reserve tank, the one end of external fluid infusion pipe is provided with and is used for carrying out sealed lid one sealed to external fluid infusion pipe.

Preferably, one end of the feeding pipe is provided with a second sealing cover for sealing the feeding pipe.

Preferably, a discharge pipe for discharging materials in the reaction box penetrates through and is fixed on the lower end face of the reaction box, and an electromagnetic valve is fixed on the side wall of the discharge pipe.

This practical shape type beneficial effect: the safety rate of the reaction equipment is increased by relieving the pressure of the reaction equipment to reach the temperature of air pressure, and then the interior of the reaction box is cleaned to reach the clean state in the reaction box, so that the time consumed by cleaning the reaction equipment by personnel is reduced.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment;

FIG. 2 is a schematic view of an embodiment cleaning assembly;

FIG. 3 is a schematic view of an embodiment of a storage assembly;

FIG. 4 is a schematic view of an embodiment of a transport assembly;

FIG. 5 is a schematic view of an embodiment friction assembly.

Reference numerals: 1. a reaction box; 2. a pressure relief pipe; 3. a feed pipe; 4. a sealing ball; 5. a storage assembly; 6. a pressure relief assembly; 7. cleaning the assembly; 8. rotating the rod; 9. a storage tank; 10. a blocking plate; 11. floating the ball; 12. a seal assembly; 13. a sealing plate; 14. a weight sensor; 15. an electric push rod; 16. a conveying pipe; 17. a fan; 18. a stirring rod; 19. a support plate; 20. a drive assembly; 21. a brush; 22. a friction assembly; 23. a transmission assembly; 24. a spur gear set; 25. a motor; 26. a rotating rod; 27. a bevel gear set; 28. a travel bar; 29. rotating the block; 30. a liquid storage tank; 31. a water pump; 32. an external liquid supplementing pipe; 33. a first sealing cover; 34. a second sealing cover; 35. a discharge pipe; 36. an electromagnetic valve; 37. and rotating the wheel.

Detailed Description

The following description is only a preferred embodiment of the present invention, and the protection scope is not limited to the embodiment, and any technical solution that falls under the idea of the present invention should fall within the protection scope of the present invention. It should also be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention.

Referring to fig. 1 to 5, a full-automatic chemical reaction apparatus includes: the reaction box 1 is provided with a pressure relief pipe 2 for pressure relief; the feeding pipe 3 is arranged on the upper end face of the reaction box 1 and can convey materials into the reaction box 1; the inner wall of the pressure relief pipe 2 is provided with a sealing ball 4 for sealing the pressure relief pipe 2, the pressure relief pipe 2 is fixed on the upper end face of the reaction box 1 through a pressure relief assembly 6 connected with a storage assembly 5, the storage assembly 5 is arranged on the reaction box 1 and can store materials in air flow, the pressure relief assembly 6 is fixed on the storage assembly 5 in a penetrating manner and can relieve the pressure of the storage assembly 5, a cleaning assembly 7 for cleaning the materials attached in the reaction box 1 is rotatably arranged on the inner wall of the reaction box 1, when the materials need to react, a worker puts the materials into the feeding pipe 3, the materials enter the reaction box 1 through the feeding pipe 3, when the materials enter the reaction box 1, the materials react, when the pressure in the reaction box 1 reaches a certain value, the air pressure in the reaction box 1 can push against the sealing ball 4 to push the sealing ball 4 to a certain position, when the ball sealer 4 pushes up a locating position, the material in the air current meeting area part enters into storage assembly 5 through pressure release pipe 2, and storage assembly 5 stores the material, and when needing the pressure release in storage assembly 5, pressure release assembly 6 starts, and pressure release assembly 6 carries out the pressure release to storage assembly 5, and when material needs clearance in reaction box 1, clearance assembly 7 starts, and clearance assembly 7 clears up 1 inner wall of reaction box.

Specifically, the ball sealer 4 is connected with the dwang 8 and slides and set up in the pressure relief pipe 2, the dwang 8 is rotatory to be set up on the inner wall of pressure relief pipe 2, storage assembly 5 is including the reservoir 9 that is used for storing liquid and the barrier plate 10 that is used for blockking liquid, reservoir 9 fixes the up end at reaction box 1 just reservoir 9 passes through the pipe connection with reaction box 1, barrier plate 10 inclines to fix on the inner wall of reservoir 9 and barrier plate 10 is close to pressure relief pipe 2, be provided with in the reservoir 9 and be used for carrying out the showy ball 11 that seals to reservoir 9, it is provided with the seal assembly 12 that is used for carrying out the seal to reaction box 1 to slide on the inner wall of reservoir 9, when the air current pushes up sealed atmospheric pressure to a certain position, the air current can take part material to enter into reservoir 9 through pressure relief pipe 2 in, and the material that blocks in the reservoir 9 blocks the plate 10 and, the material can receive the gravity of self and fall into the bottom of bin 9, because the material is in liquid state to the material can play ascending buoyancy to floating ball 11, when floating ball 11 upwards showy, the material can enter into seal assembly 12 in, seal assembly 12 senses the weight of material and starts, and the material can enter into reaction box 1 in, realizes the circulation of material.

Specifically, seal assembly 12 is including the weight sensor 14 that is used for carrying out sealed closing plate 13 and is used for responding to liquid weight to reaction box 1, closing plate 13 is through being connected the slip setting on the inner wall of reaction box 1 with electric putter 15, the up end at closing plate 13 is fixed to the gravity inductor, electric putter 15 is fixed on the inner wall of reaction box 1, and when weight sensor 14 sensed the gravity of liquid, the weight inductor transmits for electric putter 15 signal, and electric putter 15 receives and starts after the signal, and electric putter 15 can drive closing plate 13 and move certain position, realizes that the material enters into in the reaction box 1.

Specifically, the pressure relief assembly 6 comprises a transmission pipe 16 for transmitting the air flow in the storage box 9 and a fan 17 for transmitting the air flow in the transmission pipe 16, the transmission pipe 16 penetrates through and is fixed on the upper end face of the storage box 9, the fan 17 is fixed on the upper end face of the transmission pipe 16, when pressure relief is needed in the storage box 9, the air flow in the storage box 9 can enter the transmission pipe 16 through the fan 17, the air flow enters the fan 17 through the transmission pipe 16, and the air flow is discharged to the outside through the fan 17 to achieve pressure relief in the storage box 9.

Specifically, clearance subassembly 7 is including being used for carrying out the puddler 18 that stirs to the material and fixing the backup pad 19 on puddler 18 lateral wall, puddler 18 is connected rotatory the setting on the inner wall of bin 9 through being connected with drive assembly 20, be provided with the brush 21 that is used for clearing up the inner wall of reaction box 1 on the backup pad 19, brush 21 is connected rotatory the setting on the lateral wall of backup pad 19 through being connected with friction assembly 22, friction assembly 22 is rotatory the setting in backup pad 19 and can drive brush 21 and rotate, the up end of reaction box 1 is fixed with the transmission subassembly 23 that is used for transmitting the fluid to enter into puddler 18, when needing the clearance in reaction box 1, drive assembly 20 starts, and drive assembly 20 can drive puddler 18 and rotate, and puddler 18 can drive backup pad 19 and rotate at the rotation in-process, and backup pad 19 can drive friction assembly 22 and rotate at the pivoted in-process, friction subassembly 22 rotates and to drive brush 21 and rotate, realizes that brush 21 clears up in to reaction box 1, and when brush 21 rotated, transmission assembly 23 started, and transmission assembly 23 drives external water and enters into puddler 18 in, and water discharges reaction box 1 through the opening on the puddler 18 lateral wall in, realizes that water erodees the interior material of reaction box 1.

Specifically, drive assembly 20 is including being used for driving puddler 18 pivoted spur gear group 24 and being used for driving spur gear group 24 pivoted motor 25, motor 25 is fixed at reaction box 1 up end, spur gear group 24 is fixed on the lateral wall of puddler 18, and motor 25 can drive spur gear group 24 and rotate, and spur gear group 24 can drive puddler 18 at the pivoted in-process and rotate.

Specifically, the friction assembly 22 includes a rotating rod 26 for driving the brush 21 to rotate and a bevel gear set 27 for driving the rotating rod 26 to rotate, the rotating rod 26 is rotatably disposed on an inner wall of the support plate 19, the bevel gear set 27 is fixed at one end of the rotating rod 26 through a rotating wheel 37 connected to the moving rod 28, the moving rod 28 is rotatably disposed in the support plate 19 and can drive the bevel gear set 27 to rotate, the rotating wheel 37 is rotatably disposed on the support plate 19 and can drive the moving rod 28 to rotate, the support plate 19 can drive the rotating wheel 37 to rotate during rotation, because the rotating wheel 37 is attached to an inner wall of the reaction box 1, the rotating wheel 37 can drive the moving rod 28 to rotate during rotation, the moving rod 28 can drive the bevel gear set 27 to rotate during rotation, the bevel gear set 27 can drive the rotating rod 26 to rotate, and the rotating rod 26 can drive the electric brush 21 to rotate, the brush 21 can clean the materials attached to the inner wall of the reaction box 1 in the rotating process.

Specifically, transmission assembly 23 is including rotatory piece 29 and the liquid reserve tank 30 that is used for storing liquid that sets up on puddler 18 inner wall, be fixed with on the inner wall of bin 9 and be used for the transmission fluid to enter into the suction pump 31 in the rotatory piece 29, just suction pump 31 passes through the pipe connection with rotatory piece 29, the up end of liquid reserve tank 30 runs through and is fixed with the external fluid infusion pipe 32 that is used for carrying out the fluid infusion to liquid reserve tank 30, the one end of external fluid infusion pipe 32 is provided with and is used for carrying out sealed lid 33 sealed to external fluid infusion pipe 32 to in personnel pour water into external fluid infusion pipe 32, water enters into liquid reserve tank 30 through external fluid infusion pipe 32, when water enters into liquid reserve tank 30 in, suction pump 31 starts, water pump 31 extracts in the liquid reserve tank 30 through the pipe to entering into rotatory piece 29 in, water enters into puddler 18 through rotatory piece 29, the water is discharged to the outside through the openings in the side wall of the stirring rod 18.

Specifically, one end of the feeding pipe 3 is provided with a second sealing cover 34 for sealing the feeding pipe 3, and the second sealing cover 34 is used for sealing the feeding pipe 3.

Specifically, a discharge pipe 35 for discharging the materials in the reaction box 1 penetrates through and is fixed on the lower end surface of the reaction box 1, an electromagnetic valve 36 is fixed on the side wall of the discharge pipe 35, when the materials or water in the reaction box 1 need to be discharged, the electromagnetic valve 36 is opened, and the materials or water can be discharged to the outside through the discharge pipe 35.

The schemes are all controlled by an external control system.

The above embodiments are illustrative of the present invention, and are not intended to limit the present invention, and any simple modifications of the present invention are within the scope of the present invention.

Claims (10)

1. A fully automated chemical reaction apparatus, comprising:

the reaction box (1), wherein a pressure relief pipe (2) for pressure relief is arranged on the reaction box (1);

the feeding pipe (3) is arranged on the upper end face of the reaction box (1) and can convey materials into the reaction box (1);

the device is characterized in that a sealing ball (4) used for sealing the pressure relief pipe (2) is arranged on the inner wall of the pressure relief pipe (2), the pressure relief pipe (2) is fixed on the upper end face of the reaction box (1) through a pressure relief component (6) connected with a storage component (5), the storage component (5) is arranged on the reaction box (1) and can store materials in air flow, the pressure relief component (6) penetrates through and is fixed on the storage component (5) and can relieve the pressure of the storage component (5), and a cleaning component (7) used for cleaning the materials attached to the interior of the reaction box (1) is rotationally arranged on the inner wall of the reaction box (1).

2. The full-automatic chemical reaction device according to claim 1, wherein the sealing ball (4) is slidably arranged in the pressure relief pipe (2) through being connected with the rotating rod (8), the rotating rod (8) is rotatably arranged on the inner wall of the pressure relief pipe (2), the storage assembly (5) comprises a storage tank (9) for storing liquid and a blocking plate (10) for blocking the liquid, the storage box (9) is fixed on the upper end surface of the reaction box (1) and the storage box (9) is connected with the reaction box (1) through a pipeline, the blocking plate (10) is obliquely fixed on the inner wall of the storage box (9), the blocking plate (10) is close to the pressure relief pipe (2), a floating ball (11) for sealing the storage box (9) is arranged in the storage box (9), and a sealing component (12) for sealing the reaction box (1) is arranged on the inner wall of the storage box (9) in a sliding manner.

3. The full-automatic chemical reaction device according to claim 2, wherein the sealing assembly (12) comprises a sealing plate (13) for sealing the reaction box (1) and a weight sensor (14) for sensing the weight of the liquid, the sealing plate (13) is slidably disposed on the inner wall of the reaction box (1) by being connected with an electric push rod (15), the gravity sensor is fixed on the upper end surface of the sealing plate (13), and the electric push rod (15) is fixed on the inner wall of the reaction box (1).

4. The full-automatic chemical reaction device according to claim 1, wherein the pressure relief assembly (6) comprises a transmission pipe (16) for transmitting the airflow in the storage tank (9) and a fan (17) for transmitting the airflow in the transmission pipe (16), the transmission pipe (16) is fixed on the upper end face of the storage tank (9) in a penetrating manner, and the fan (17) is fixed on the upper end face of the transmission pipe (16).

5. The full-automatic chemical reaction device according to claim 1, wherein the cleaning assembly (7) comprises a stirring rod (18) for stirring the materials and a support plate (19) fixed on the side wall of the stirring rod (18), the stirring rod (18) is rotatably arranged on the inner wall of the storage tank (9) through being connected with a driving assembly (20), a brush (21) for cleaning the inner wall of the reaction tank (1) is arranged on the support plate (19), the brush (21) is rotatably arranged on the side wall of the support plate (19) through being connected with a friction assembly (22), the friction assembly (22) is rotatably arranged in the support plate (19) and can drive the brush (21) to rotate, and a transmission assembly (23) for transmitting the liquid into the stirring rod (18) is fixed on the upper end face of the reaction tank (1).

6. The full-automatic chemical reaction device according to claim 1, wherein the driving assembly (20) comprises a spur gear set (24) for driving the stirring rod (18) to rotate and a motor (25) for driving the spur gear set (24) to rotate, the motor (25) is fixed on the upper end surface of the reaction box (1), and the spur gear set (24) is fixed on the side wall of the stirring rod (18).

7. The full-automatic chemical reaction device according to claim 1, wherein the friction assembly (22) comprises a rotating rod (26) for driving the brush (21) to rotate and a bevel gear set (27) for driving the rotating rod (26) to rotate, the rotating rod (26) is rotatably arranged on the inner wall of the support plate (19), the bevel gear set (27) is fixed at one end of the rotating rod (26) through a rotating wheel connected with the moving rod (28), the moving rod (28) is rotatably arranged in the support plate (19) and can drive the bevel gear set (27) to rotate, and the rotating wheel (37) is rotatably arranged on the support plate (19) and can drive the moving rod (28) to rotate.

8. The full-automatic chemical reaction device according to claim 1, wherein the transmission assembly (23) comprises a rotating block (29) rotatably disposed on an inner wall of the stirring rod (18) and a liquid storage tank (30) for storing liquid, a water pump (31) for transferring liquid into the rotating block (29) is fixed on the inner wall of the storage tank (9), the water pump (31) is connected with the rotating block (29) through a pipeline, an external liquid replenishing pipe (32) for replenishing liquid to the liquid storage tank (30) is fixed on an upper end surface of the liquid storage tank (30) in a penetrating manner, and a first sealing cover (33) for sealing the external liquid replenishing pipe (32) is disposed at one end of the external liquid replenishing pipe (32).

9. The full-automatic chemical reaction device according to claim 1, wherein one end of the feeding pipe (3) is provided with a second sealing cover (34) for sealing the feeding pipe (3).

10. The full-automatic chemical reaction device according to claim 1, wherein a discharge pipe (35) for discharging the materials in the reaction box (1) is fixedly penetrated on the lower end surface of the reaction box (1), and an electromagnetic valve (36) is fixedly arranged on the side wall of the discharge pipe (35).

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