CN110237789B

CN110237789B - Reaction equipment for cooling water by utilizing liquid gasification principle

Info

Publication number: CN110237789B
Application number: CN201910572022.8A
Authority: CN
Inventors: 李敏
Original assignee: Tongyi Petroleum Chemical Co ltd
Current assignee: TONGYI PETROLEUM CHEMICAL Co.,Ltd.
Priority date: 2019-06-28
Filing date: 2019-06-28
Publication date: 2021-09-14
Anticipated expiration: 2039-06-28
Also published as: CN110237789A

Abstract

The invention discloses a reaction device for cooling water by utilizing a liquid gasification principle, which comprises a base and is characterized in that the base is positioned above the ground, high-temperature furnace equipment and a water cooling mechanism are respectively arranged above the base, a furnace body cooling mechanism is arranged outside the high-temperature furnace equipment, a controller and a battery box are respectively arranged above the base, a power supply input end of the controller is electrically connected with the battery box, a power supply output end of the controller is respectively electrically connected with a cooling support linear motor, a liquid level sensor, a solenoid valve, a high-temperature furnace body temperature sensor, a lighting device, a cooling water pump, a reaction kettle temperature sensor and a stirring motor, a signal output end of the controller is respectively electrically connected with the cooling support linear motor, the solenoid valve, the lighting device, the cooling water pump and the stirring motor, and a signal input end of the controller is respectively electrically connected with the liquid level sensor, the water cooling mechanism and the stirring motor, And the high-temperature furnace body temperature sensor and the reaction kettle temperature sensor are electrically connected. The invention has the advantages of simple structure and strong practicability.

Description

Reaction equipment for cooling water by utilizing liquid gasification principle

Technical Field

The invention relates to the field of reaction kettle equipment, in particular to reaction equipment for cooling water by utilizing a liquid gasification principle.

Background

Traditional reation kettle equipment is poor to cooling treatment through placing cooling efficiency under the cooling condition for a long time, and takes electricity and inefficiency through the refrigerator refrigeration.

Disclosure of Invention

The invention aims to solve the problems and designs a reaction device for cooling water by using a liquid gasification principle.

The technical scheme of the invention is that the reaction equipment for cooling water by utilizing the liquid gasification principle comprises a base, wherein the base is positioned above the ground, high-temperature furnace equipment and a water cooling mechanism are respectively arranged above the base, a furnace body cooling mechanism is arranged outside the high-temperature furnace equipment, a controller and a battery box are respectively arranged above the base,

the water cooling mechanism comprises a cooling mechanism above the base and a gasification cooling mechanism above the cooling mechanism,

the cooling mechanism comprises a cooling row supporting frame connected above the base, a cooling row arranged on the cooling row supporting frame, a cooling row water outlet pipe connected with a cooling row water outlet, and a cooling row water inlet pipe connected with a cooling row water outlet,

the gasification cooling mechanism comprises a plurality of cooling support linear motor mounting frames which are connected above the base, a cooling support linear motor which is arranged on the cooling support linear motor mounting frames, a cooling water tank mounting frame which is connected with the telescopic ends of the cooling support linear motors, a cooling water tank which is arranged on the cooling water tank mounting frame, a liquid level sensor which is arranged in the cooling water tank, a cooling water tank storage frame which is arranged on one side of the cooling water tank mounting frame, a water tank which is arranged on the cooling water tank storage frame, and an electromagnetic valve which is arranged on the water tank,

the high-temperature furnace equipment comprises a fixing mechanism above a base, a high-temperature furnace body mechanism positioned above the fixing mechanism, a reaction kettle mechanism positioned in the high-temperature furnace body mechanism, and a stirring mechanism positioned in the reaction kettle mechanism,

the fixing mechanism comprises a high-temperature furnace mounting frame connected above the base, heat insulation cotton arranged on the high-temperature furnace mounting frame, a high-temperature furnace fixing frame arranged above the heat insulation cotton,

the high-temperature furnace body mechanism comprises a high-temperature furnace body arranged on a high-temperature furnace fixing frame, a high-temperature furnace body temperature sensor arranged in the high-temperature furnace body, a coal block placing frame arranged below the high-temperature furnace body, a lighting device arranged on the coal block placing frame, a material taking shovel arranged below the coal block placing frame,

the furnace body cooling mechanism comprises a cooling pipe mounting frame connected with the outer side of the high-temperature furnace body, a cooling pipe, a cooling water pump and a cooling water pump water outlet pipe, wherein the water outlet of the cooling pipe mounting frame is connected with a cooling discharge water inlet pipe, the cooling pipe is installed on the cooling pipe mounting frame, the water inlet of the cooling water pump is connected with the cooling discharge water outlet pipe and is located above the base, and one end of the cooling water pump water outlet pipe is connected with the water inlet of the cooling pipe, while the other end of the cooling water pump water outlet pipe is connected with the water outlet of the cooling water pump.

The reaction kettle mechanism comprises a reaction kettle mounting frame, a reaction kettle body, a reaction kettle top cover and a reaction kettle temperature sensor, wherein the reaction kettle mounting frame is connected with the high-temperature furnace body inside, the reaction kettle body is arranged on the reaction kettle mounting frame, the reaction kettle top cover is positioned above the reaction kettle body, and the reaction kettle temperature sensor is arranged on the reaction kettle body.

The stirring mechanism comprises a stirring motor mounting frame connected below the top cover of the reaction kettle, a stirring motor arranged on the stirring motor mounting frame, and a stirring frame connected with the rotating end of the stirring motor.

The cooling water tank is made of aluminum alloy.

The cooling water pump water outlet pipe, the cooling water discharge pipe and the cooling water discharge pipe are high-temperature resistant water pipes.

The power input end and the battery case electric connection of controller, the power output end of controller supports linear electric motor, level sensor, solenoid valve, high temperature furnace body temperature sensor, ignition device, cooling water pump, reation kettle temperature sensor, agitator motor electric connection with the cooling respectively, the signal output part of controller supports linear electric motor, solenoid valve, ignition device, cooling water pump, agitator motor electric connection with the cooling respectively, the signal input part of controller respectively with level sensor, high temperature furnace body temperature sensor, reation kettle temperature sensor electric connection.

The controller has a wireless signal receiving and transmitting function.

The controller is provided with a capacitive touch screen.

The controller is externally sleeved with a dustproof and waterproof shell.

The MCU model of the controller is an ARM series single chip microcomputer.

The reaction equipment which is manufactured by the technical scheme of the invention and cools the cooling water by using the liquid gasification principle takes away heat by using liquid evaporation, and compared with a cooling mode, the reaction equipment has high cooling speed and does not need electric power.

Drawings

FIG. 1 is a schematic structural view of a reaction apparatus for cooling water using the principle of liquid gasification according to the present invention;

FIG. 2 is a partial schematic view of the gasification cooling mechanism of the present invention;

FIG. 3 is a schematic structural diagram of the fixing mechanism and the high-temperature furnace body mechanism of the invention;

FIG. 4 is a schematic structural view of a reaction vessel mechanism and a stirring mechanism according to the present invention;

FIG. 5 is a schematic view of the water tank of the present invention;

in the figure, 1, a base; 2. a controller; 3. a battery case; 4. cooling the row support frame; 5. cooling the rows; 6. a cooling water discharging pipe; 7. cooling and discharging the water into a water pipe; 8. cooling and supporting the linear motor mounting rack; 9. cooling the support linear motor; 10. a cooling water tank mounting frame; 11. a cooling water tank; 12. a liquid level sensor; 13. a cooling water tank storage rack; 14. a water tank; 15. an electromagnetic valve; 16. a high temperature furnace mounting rack; 17. heat insulation cotton; 18. a high temperature furnace fixing frame; 19. a high temperature furnace body; 20. a high temperature furnace body temperature sensor; 21. placing a coal briquette rack; 22. a lighting device; 23. a material taking shovel; 24. a cooling tube mounting bracket; 25. a cooling tube; 26. a cooling water pump; 27. a water outlet pipe of the cooling water pump; 28. mounting a reaction kettle; 29. a reaction kettle body; 30. a top cover of the reaction kettle; 31. a reaction kettle temperature sensor; 32. a stirring motor mounting rack; 33. a stirring motor; 34. and (4) a stirring frame.

Detailed Description

The present invention is described in detail below with reference to the accompanying drawings, and as shown in fig. 1 to 5, a reaction apparatus for cooling water by using the liquid gasification principle includes a base 1, the base 1 is located above the ground, a high temperature furnace apparatus and a water cooling mechanism are respectively arranged above the base 1, a furnace body cooling mechanism is arranged outside the high temperature furnace apparatus, a controller 2 and a battery box 3 are respectively arranged above the base 1, the water cooling mechanism includes a cooling mechanism above the base 1 and a gasification cooling mechanism above the cooling mechanism, the cooling mechanism includes a cooling row support frame 4 connected above the base 1, a cooling row 5 mounted on the cooling row support frame 4, a cooling row water outlet pipe 6 connected to a water outlet of the cooling row 5, and a cooling row water pipe 7 connected to a water inlet of the cooling row 5, the gasification cooling mechanism includes a plurality of cooling support linear motor mounting frames 8, a plurality of linear motors connected above the base 1, The cooling support linear motor 9 is arranged on a cooling support linear motor mounting rack 8, the cooling water tank mounting rack 10 is connected with the telescopic ends of a plurality of cooling support linear motors 9, the cooling water tank 11 is arranged on the cooling water tank mounting rack 10, a liquid level sensor 12 is arranged in the cooling water tank 11, a cooling water tank storage rack 13 is arranged on one side of the cooling water tank mounting rack 10, a water tank 14 arranged on the cooling water tank storage rack 13, and an electromagnetic valve 15 arranged on the water tank 14, the high-temperature furnace equipment comprises a fixing mechanism arranged above a base 1, a high-temperature furnace body mechanism arranged above the fixing mechanism, a reaction kettle mechanism arranged in the high-temperature furnace body mechanism, and a stirring mechanism arranged in the reaction kettle mechanism, wherein the fixing mechanism comprises a high-temperature furnace mounting rack 16 connected above the base 1, heat insulation cotton 17 arranged on the high-temperature furnace mounting rack 16, and a high-temperature furnace fixing rack 18 arranged above the heat insulation cotton 17, the high-temperature furnace body mechanism comprises a high-temperature furnace body 19 arranged on a high-temperature furnace fixing frame 18, a high-temperature furnace body temperature sensor 20 arranged in the high-temperature furnace body 19, a coal block placing frame 21 arranged below the inside of the high-temperature furnace body 19, a lighting device 22 arranged on the coal block placing frame 21, and a material taking shovel 23 arranged below the coal block placing frame 21, wherein the furnace body cooling mechanism comprises a cooling pipe mounting frame 24 connected with the outer side of the high-temperature furnace body 19, a cooling pipe 25 with a water outlet connected with a cooling water discharge and inlet pipe 7 and arranged on the cooling pipe mounting frame 24, a cooling water pump 26 with a water inlet connected with a cooling water discharge and outlet pipe 6 and positioned above the base 1, and a cooling water pump water outlet pipe 27 with one end connected with the water inlet of the cooling pipe 25 and the other end connected with the water outlet of the cooling water pump 26; the reaction kettle mechanism comprises a reaction kettle mounting frame 28 connected with the inside of the high-temperature furnace body 19, a reaction kettle body 29 arranged on the reaction kettle mounting frame 28, a reaction kettle top cover 30 connected with the upper part of the reaction kettle body 29, and a reaction kettle temperature sensor 31 arranged on the reaction kettle body 29; the stirring mechanism comprises a stirring motor mounting frame 32 connected below the reaction kettle top cover 30, a stirring motor 33 arranged on the stirring motor mounting frame 32, and a stirring frame 34 connected with the rotating end of the stirring motor 33; the cooling water tank 11 is made of aluminum alloy; the cooling water pump water outlet pipe 27, the cooling water discharge pipe 6 and the cooling water discharge inlet pipe 7 are high-temperature resistant water pipes; the power input end of the controller is electrically connected with the battery box, the power output end of the controller is electrically connected with the cooling support linear motor, the liquid level sensor, the electromagnetic valve, the high-temperature furnace body temperature sensor, the ignition device, the cooling water pump, the reaction kettle temperature sensor and the stirring motor respectively, the signal output end of the controller is electrically connected with the cooling support linear motor, the electromagnetic valve, the ignition device, the cooling water pump and the stirring motor respectively, and the signal input end of the controller is electrically connected with the liquid level sensor, the high-temperature furnace body temperature sensor and the reaction kettle temperature sensor respectively; the controller 2 has a wireless signal receiving and sending function; the controller 2 is provided with a capacitive touch screen; a dustproof and waterproof shell is sleeved outside the controller 2; the MCU model of the controller 2 is an ARM series single chip microcomputer.

The cooling device is characterized by comprising a base, and is characterized in that the base is positioned above the ground, a high-temperature furnace device and a water cooling mechanism are respectively arranged above the base, a furnace body cooling mechanism is arranged outside the high-temperature furnace device, a controller and a battery box are respectively arranged above the base, the water cooling mechanism comprises a cooling mechanism above the base and a gasification cooling mechanism above the cooling mechanism, the cooling mechanism comprises a cooling row supporting frame connected above the base, a cooling row arranged on the cooling row supporting frame, a cooling row water outlet pipe connected to a cooling row water outlet, and a cooling row water inlet pipe connected to a cooling row water outlet, the gasification cooling mechanism comprises a plurality of cooling supporting linear motor mounting frames connected above the base, a cooling supporting linear motor mounted on the cooling supporting linear motor mounting frame, a cooling water tank mounting frame connected with the telescopic ends of the plurality of cooling supporting linear motors, a cooling water tank mounting frame connected with the telescopic ends of the cooling supporting linear motors, A cooling water tank is arranged on the cooling water tank mounting frame, a liquid level sensor is arranged inside the cooling water tank, a cooling water tank storage rack is arranged on one side of the cooling water tank mounting frame, a water tank arranged on the cooling water tank storage rack, a solenoid valve arranged on the water tank, high-temperature furnace equipment comprises a fixing mechanism arranged above the base, a high-temperature furnace body mechanism arranged above the fixing mechanism, a reaction kettle mechanism arranged inside the high-temperature furnace body mechanism and an agitating mechanism arranged inside the reaction kettle mechanism, the fixing mechanism comprises a high-temperature furnace mounting frame connected above the base, heat insulation cotton arranged on the high-temperature furnace mounting frame, a high-temperature furnace fixing frame is arranged above the heat insulation cotton, the high-temperature furnace body mechanism comprises a high-temperature furnace body arranged on the high-temperature furnace fixing frame, a high-temperature furnace body temperature sensor arranged in the high-temperature furnace body, a coal block placing frame is arranged below the high-temperature furnace body, a fire striking device arranged on the coal block placing frame, A material taking shovel is arranged below the coal briquette placing rack, the furnace body cooling mechanism comprises a cooling pipe mounting rack connected with the outside of the high-temperature furnace body, a cooling pipe, a water outlet and a cooling discharge water inlet pipe which are connected and arranged on the cooling pipe mounting rack, a cooling water pump, one end of which is connected with the water inlet of the cooling pipe, the other end of which is connected with the water outlet of the cooling water pump, a water inlet and a cooling discharge water pipe which are connected and arranged above the base. The liquid evaporation is utilized to take away heat, the cooling speed is high compared with a cooling mode, and electric power is not needed.

In the embodiment, the device is activated by a mobile phone APP, cooling water flows by starting a touch screen 26, reaction materials are placed in the reaction kettle body, coal is placed above the coal block placing rack and ignited by controlling an ignition device, when the temperature sensor of the reaction kettle detects that the temperature reaches the reaction temperature, the stirring motor is started to drive the stirring frame to stir the reaction materials, the high-temperature furnace body temperature is detected by a high-temperature furnace body temperature sensor, the rotating speed of a cooling water pump and the extension of a cooling support linear motor are controlled by the detected high-temperature furnace body temperature, the distance between the cooling water tank and the cooling row is controlled by controlling the extension and retraction of the cooling support linear motor to achieve the effect of adjusting the cooling efficiency, the water level in the cooling water tank is detected through the liquid level sensor in the operation process of the cooling water pump, and when water is evaporated to the lowest water level, the electromagnetic valve is opened to supplement the water in the water tank to the cooling water tank.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims

1. A reaction device for cooling water by utilizing a liquid gasification principle comprises a base (1) and is characterized in that the base (1) is positioned above the ground, a high-temperature furnace device and a water cooling mechanism are respectively arranged above the base (1), a furnace body cooling mechanism is arranged outside the high-temperature furnace device, a controller (2) and a battery box (3) are respectively arranged above the base (1),

the water cooling mechanism comprises a cooling mechanism above the base (1) and a gasification cooling mechanism above the cooling mechanism,

the cooling mechanism comprises a cooling row supporting frame (4) connected above the base (1), a cooling row (5) arranged on the cooling row supporting frame (4), a cooling row water outlet pipe (6) connected with the water outlet of the cooling row (5), and a cooling row water inlet pipe (7) connected with the water inlet of the cooling row (5),

the gasification cooling mechanism comprises a plurality of cooling support linear motor mounting frames (8) which are connected above a base (1), a cooling support linear motor (9) arranged on the cooling support linear motor mounting frame (8), a cooling water tank mounting frame (10) connected with the telescopic ends of the cooling support linear motors (9), a cooling water tank (11) arranged on the cooling water tank mounting frame (10), a liquid level sensor (12) arranged inside the cooling water tank (11), a cooling water tank storage frame (13) arranged on one side of the cooling water tank mounting frame (10), a water tank (14) arranged on the cooling water tank storage frame (13), and an electromagnetic valve (15) arranged on the water tank (14),

the high-temperature furnace equipment comprises a fixing mechanism above a base (1), a high-temperature furnace body mechanism positioned above the fixing mechanism, a reaction kettle mechanism positioned in the high-temperature furnace body mechanism, and a stirring mechanism positioned in the reaction kettle mechanism,

the fixing mechanism comprises a high-temperature furnace mounting rack (16) connected above the base (1), heat insulation cotton (17) arranged on the high-temperature furnace mounting rack (16), a high-temperature furnace fixing rack (18) arranged above the heat insulation cotton (17),

the high-temperature furnace body mechanism comprises a high-temperature furnace body (19) arranged on a high-temperature furnace fixing frame (18), a high-temperature furnace body temperature sensor (20) arranged in the high-temperature furnace body (19), a coal block placing frame (21) arranged below the high-temperature furnace body (19), a lighting device (22) arranged on the coal block placing frame (21), and a material taking shovel (23) arranged below the coal block placing frame (21),

furnace body cooling body includes cooling tube mounting bracket (24) that high-temperature furnace body (19) outside is connected, delivery port and cooling row inlet pipe (7) are connected and install cooling tube (25) on cooling tube mounting bracket (24), water inlet and cooling row outlet pipe (6) are connected and are located cooling water pump (26) of base (1) top, one end and cooling tube (25) water inlet are connected the other end and are connected cooling water pump outlet pipe (27) of cooling water pump (26) delivery port, reation kettle mechanism includes reation kettle mounting bracket (28) of high-temperature furnace body (19) internal connection, places reation kettle body (29) on reation kettle mounting bracket (28), is located reation kettle top cap (30) that reation kettle body (29) top is connected, installs reation kettle temperature sensor (31) on reation kettle body (29), agitator mechanism includes agitator motor mounting bracket (32) that reation kettle top cap (30) below is connected, The stirring device comprises a stirring motor (33) arranged on a stirring motor mounting frame (32) and a stirring frame (34) connected with a rotating end of the stirring motor (33), wherein a power input end of a controller is electrically connected with a battery box, a power output end of the controller is electrically connected with a cooling support linear motor, a liquid level sensor, a solenoid valve, a high-temperature furnace body temperature sensor, an ignition device, a cooling water pump, a reaction kettle temperature sensor and the stirring motor respectively, a signal output end of the controller is electrically connected with the cooling support linear motor, the solenoid valve, the ignition device, the cooling water pump and the stirring motor respectively, and a signal input end of the controller is electrically connected with the liquid level sensor, the high-temperature furnace body temperature sensor and the reaction kettle temperature sensor respectively; the cooling water pump water outlet pipe (27), the cooling water discharge pipe (6) and the cooling water discharge inlet pipe (7) are high-temperature resistant water pipes; the controller (2) has a wireless signal receiving and sending function; the controller (2) is provided with a capacitive touch screen; a dustproof and waterproof shell is sleeved outside the controller (2); activating equipment through a mobile phone APP, starting a cooling water pump (26) through a touch screen to flow cooling water, placing reaction materials into the reaction kettle body, placing coal above the coal briquette placing rack and igniting the coal briquette through a control ignition device, when the temperature sensor of the reaction kettle detects that the temperature reaches the reaction temperature, the stirring motor is started to drive the stirring frame to stir the reaction materials, the high-temperature furnace body temperature is detected by a high-temperature furnace body temperature sensor, the rotating speed of a cooling water pump and the extension of a cooling support linear motor are controlled by the detected high-temperature furnace body temperature, the distance between the cooling water tank and the cooling row is controlled by controlling the extension and retraction of the cooling support linear motor to achieve the effect of adjusting the cooling efficiency, the water level in the cooling water tank is detected through the liquid level sensor in the operation process of the cooling water pump, and when water is evaporated to the lowest water level, the electromagnetic valve is opened to supplement the water in the water tank to the cooling water tank.

2. A reaction apparatus for cooling water using a liquid gasification principle according to claim 1, wherein the material of the cooling water tank (11) is an aluminum alloy.

3. The reaction equipment for cooling water by utilizing the liquid gasification principle as claimed in claim 1, wherein the MCU model of the controller (2) is an ARM series single chip microcomputer.