CN113731282B

CN113731282B - Energy recovery type chemical material mixing device

Info

Publication number: CN113731282B
Application number: CN202111136807.4A
Authority: CN
Inventors: 袁海生
Original assignee: Tianjin Haoyuan Guojun New Material Technology Co ltd
Current assignee: Tianjin Haoyuan Guojun New Material Technology Co ltd
Priority date: 2021-09-27
Filing date: 2021-09-27
Publication date: 2024-08-16
Anticipated expiration: 2041-09-27
Also published as: CN113731282A

Abstract

For solving above-mentioned technical problem, an energy recovery formula chemical material mixing arrangement, including the mixing drum, its characterized in that: the separation discharge plate is slidably mounted in the mixing drum, the connecting drum is fixedly mounted on the separation discharge plate, the connecting drum is slidably mounted in the mixing drum, the mounting ring is rotatably mounted on the connecting drum, the connection adjusting rod is fixedly mounted on the mounting ring, the mounting sleeve is fixedly mounted on the mixing drum, the control groove is formed in the mounting sleeve, the connection adjusting rod is slidably mounted in the control groove, the transmission rod is rotatably mounted on the separation discharge plate, the stirring wheel is fixedly mounted on the transmission rod, the connection flower head is fixedly mounted on the transmission rod, whether the device is operated and stirred is controlled according to the amount of mixed materials added into the device, the material is further added into the device or not according to the amount control of the mixed materials, the original material is not added into the device when the finished product material is discharged, and the heat released by reaction and the automatic heat-absorbing water replacement can be absorbed.

Description

Energy recovery type chemical material mixing device

Technical Field

The invention relates to a chemical material mixing device, in particular to an energy recovery type chemical material mixing device.

Background

Many materials in life are subjected to chemical reaction and the like, but heat is generated in the material projection process, if proper treatment is carried out, the energy waste is serious, accidents can also occur, and the energy recovery type chemical material mixing device is invented aiming at the problems.

Disclosure of Invention

The invention aims to solve the technical problem of providing an energy recovery type chemical material mixing device, which can control whether the device is operated and stirred according to the amount of mixed materials added into the device, and can also control whether materials are continuously added into the device according to the amount of the mixed materials, so that the raw materials are not added into the device while the finished product materials are discharged, the heat released by the reaction can be absorbed, and the heat-absorbing water can be automatically replaced.

For solving above-mentioned technical problem, an energy recovery formula chemical material mixing arrangement, including the mixing drum, its characterized in that: separate discharge plate slidable mounting is inside the churn, the churn is installed and is fixed on separating the discharge plate, churn slidable mounting is inside the churn, the collar rotates and installs on the churn, the connection is adjusted the pole and is installed and fix on the collar, the installation sleeve is installed and is fixed on the churn, the control groove sets up on the installation sleeve, the connection is adjusted pole slidable mounting is inside the control groove, the transfer line rotates and installs on separating the discharge plate, the agitator is installed and is fixed on the transfer line, the installation of connection flower head is fixed on the transfer line, the connecting hole axle rotates and installs on the installation sleeve, the spring suit is on the churn, can be according to the volume of adding mixed material in the device whether the controlling means moves the stirring.

As a further improvement of the technical scheme, the first feeding hole is formed in the mixing drum, the second feeding hole is formed in the mixing drum, the control feeding disc is rotatably mounted in the mixing drum, the first matching hole is formed in the control feeding disc, the second matching hole is formed in the control feeding disc, the mounting transmission shaft is fixedly mounted on the control feeding disc, the belt wheel is fixedly mounted on the mounting transmission shaft, the transmission belt is mounted on the belt wheel, the mounting seat is fixedly mounted on the mixing drum, the connecting shaft is rotatably mounted on the mounting seat, the transmission belt wheel II and the pushing control panel are fixedly mounted on the connecting shaft, the transmission belt is mounted on the transmission belt wheel II, the threaded rod is fixedly mounted on the control feeding disc, the mounting sliding plate is fixedly mounted in the mixing drum, the movable internal thread column is slidably mounted in the mounting sliding plate, the control float is fixedly mounted on the movable internal thread column, the discharge pipe is fixedly mounted on the mixing drum, whether materials are continuously added into the device or not added into the device while finished materials are discharged according to the quantity control of the mixed materials.

As the further improvement of this technical scheme, the water inlet layer sets up inside the mixing drum, the water storage layer sets up inside the mixing drum, the inlet tube installation is fixed on the mixing drum, water inlet control panel slidable mounting is on the inlet tube, through-hole one sets up on water inlet control panel, the spliced pole is installed and is fixed on water inlet control panel, the apopore sets up on the mixing drum, the control water change tank is installed and is fixed on the mixing drum, connecting tube sets up inside the control water change tank, gas expansion shrink chamber sets up inside the control water change tank, sliding piston slidable mounting is inside gas expansion shrink chamber, the link installation is fixed on sliding piston and control baffle, control baffle slidable mounting is inside the control water change tank, through-hole two sets up on control baffle, can absorb the heat of reaction release and automatic change endothermic water.

In summary, the energy recovery type chemical material mixing device is provided with the device which can control whether the device is operated to stir according to the amount of the mixed materials added into the device, and can control whether the materials are continuously added into the device according to the amount of the mixed materials, so that the raw materials are not added into the device while the finished materials are discharged, the heat released by the reaction can be absorbed, and the heat-absorbing water can be automatically replaced.

Drawings

Fig. 1 is a schematic diagram of the overall structure of an energy recovery type chemical material mixing device according to the present invention.

FIG. 2 is a schematic cross-sectional view of the whole structure of an energy recovery type chemical material mixing device according to the present invention.

Fig. 3 is a schematic diagram a of a part of an energy recovery type chemical material mixing device according to the present invention.

Fig. 4 is a schematic diagram B of a part of an energy recovery type chemical material mixing device according to the present invention.

Fig. 5 is a schematic enlarged view C of a part of an energy recovery type chemical material mixing device according to the present invention.

Fig. 6 is a schematic diagram of the overall structure of an energy recovery type chemical material mixing device according to the present invention.

Fig. 7 is a schematic diagram of a partial structure of an energy recovery type chemical material mixing device according to the present invention, in which: a mixing drum 1; a partition discharge plate 2; a connecting cylinder 3; a mounting ring 4; the adjusting rod 5 is connected; a mounting sleeve 6; a control groove 7; a transmission rod 8; a stirring wheel 9; connecting the flower heads 10; a connecting hole shaft 11; a spring 12; a first feeding hole 13; a second feeding hole 14; a control feed tray 15; a first mating hole 16; a second matching hole 17; mounting a transmission shaft 18; a pulley I19; a transmission belt 20;

A mounting base 21; a connecting shaft 22; a second transmission belt wheel 23; pushing the control plate 24; a threaded rod 25; mounting a sliding plate 26; moving the internally threaded post 27; a control float 28; a discharge pipe 29; a water inlet layer 30; a first connection hole 31; a water storage layer 32; a water inlet pipe 33; a water inlet control plate 34; a first through hole 35; a connecting post 36; a water outlet hole 37; a control water change tank 38; a connecting pipe 39; a gas expansion and contraction chamber 40; a sliding piston 41; a connection frame 42; a control shutter 43; and a second through hole 44.

Detailed Description

Referring to fig. 1, 2 and 7, an energy recovery type chemical material mixing device comprises a mixing drum 1, and is characterized in that: the separation discharge plate 2 is slidably mounted in the mixing drum 1, the connecting drum 3 is fixedly mounted on the separation discharge plate 2, the connecting drum 3 is slidably mounted in the mixing drum 1, the mounting ring 4 is rotatably mounted on the connecting drum 3, the connecting adjusting rod 5 is fixedly mounted on the mounting ring 4, the mounting sleeve 6 is fixedly mounted on the mixing drum 1, the control groove 7 is arranged on the mounting sleeve 6, the connecting adjusting rod 5 is slidably mounted in the control groove 7, the transmission rod 8 is rotatably mounted on the separation discharge plate 2, the stirring wheel 9 is fixedly mounted on the transmission rod 8, the connecting flower head 10 is fixedly mounted on the transmission rod 8, the connecting hole shaft 11is rotatably mounted on the mounting sleeve 6, the spring 12 is sleeved on the connecting drum 3, the separation discharge plate 2 is moved downwards along with the material, the connecting drum 3 and the transmission rod 8 are driven to move downwards, the connecting flower head 10 is led to enter the connecting hole shaft 11, but the separation discharge plate 2 is prevented from moving after the distance of one end is moved downwards due to the limitation of the control groove 7 on the mounting sleeve 6, the connecting flower head 10 drives the transmission rod 9 to move the mixing drum 2 through the transmission rod 8, and then the connecting flower head 10 drives the stirring rod 5 to move the mixing drum 3 to move through the transmission rod 5 when the transmission rod 9 is required to move the mixing drum 2, and the mixing drum 3 is driven to move through the transmission rod 5 to move the mixing drum 3, and the mixing drum 3 is driven to move through the position to the mixing drum 3.

An energy recovery type chemical material mixing device combining fig. 1, 2, 5, 6 and 7 is characterized in that: the first feeding hole 13 is arranged on the mixing drum 1, the second feeding hole 14 is arranged on the mixing drum 1, the control feeding disc 15 is rotatably arranged inside the mixing drum 1, the first matching hole 16 is arranged on the control feeding disc 15, the second matching hole 17 is arranged on the control feeding disc 15, the mounting transmission shaft 18 is fixedly arranged on the control feeding disc 15, the first belt pulley 19 is fixedly arranged on the mounting transmission shaft 18, the driving belt 20 is arranged on the first belt pulley 19, the mounting seat 21 is fixedly arranged on the mixing drum 1, the connecting shaft 22 is rotatably arranged on the mounting seat 21, the second driving belt pulley 23 and the pushing control plate 24 are fixedly arranged on the connecting shaft 22, the driving belt 20 is arranged on the second driving belt pulley 23, the threaded rod 25 is fixedly arranged on the control feeding disc 15, the mounting sliding plate 26 is fixedly arranged inside the mixing drum 1, the moving internal thread post 27 is slidingly arranged inside the mounting sliding plate 26, the control float 28 is fixedly arranged on the moving internal thread post 27, the discharge pipe 29 is fixed on the mixing drum 1, most chemical reactions release energy outwards, chemical materials to be mixed firstly enter the mixing drum 1 through the first matching hole 16 and the second matching hole 17 of the first feeding hole 13 and the second feeding hole 14, materials are not added into the mixing drum 1 through the first matching hole 16 and the second matching hole 17 of the first feeding hole 15, the control float 28 is subjected to buoyancy along with the continuous entering of the mixed materials, but the control float 28 is limited in freedom degree so that the control float 28 can only move up and down and can not rotate, the control float 28 drives the threaded rod 25 to rotate through the moving internal thread column 27, the threaded rod 25 drives the first feeding hole 13 and the second feeding hole 14 to rotate with the first matching hole 16 and the second matching hole 17, the mixed materials are discharged through the discharge pipe 29, meanwhile, the connection adjusting rod 5 pushes the push control plate 24 to rotate, the push control plate 24 drives the transmission belt pulley II 23 to rotate through the connecting shaft 22, the transmission belt II 23 drives the belt pulley I19 to rotate through the transmission belt 20, the belt pulley I19 drives the control feeding disc 15 to rotate through the installation transmission shaft 18, so that the first matching hole 16 and the second matching hole 17 are staggered with the first feeding hole 13 and the second feeding hole 14 to stop feeding, the purity of mixed materials is prevented from being influenced when the mixed materials are discharged, after the materials are discharged, the position of the connection adjusting rod 5 in the control groove 7 can be adjusted, the separation discharging plate 2 is reset to the original position, meanwhile, the weight of the internal thread post 27 and the control float 28 is not limited by the mixed materials to move, the control feeding disc 15 is driven to rotate through the internal thread post 27, and then the first feeding hole 13 and the second feeding hole 14 are opposite to the first matching hole 16 and the second matching hole 17 again, and then the materials are added into the mixing drum 1.

An energy recovery type chemical material mixing device combining fig. 2,3 and 4, which is characterized in that: the water inlet layer 30 is arranged inside the mixing drum 1, the water storage layer 32 is arranged inside the mixing drum 1, the water inlet pipe 33 is fixedly arranged on the mixing drum 1, the water inlet control plate 34 is slidably arranged on the water inlet pipe 33, the first through hole 35 is arranged on the water inlet control plate 34, the connecting column 36 is fixedly arranged on the water inlet control plate 34, the water outlet hole 37 is arranged on the mixing drum 1, the control water exchanging tank 38 is fixedly arranged on the mixing drum 1, the connecting pipeline 39 is arranged inside the control water exchanging tank 38, the gas expansion and contraction cavity 40 is arranged inside the control water exchanging tank 38, the sliding piston 41 is slidably arranged inside the gas expansion and contraction cavity 40, the connecting frame 42 is fixedly arranged on the sliding piston 41 and the control baffle 43, the control baffle 43 is slidably arranged inside the control water exchanging tank 38, the second through hole 44 is arranged on the control baffle 43, because most chemical reactions are followed by releasing heat, so the temperature of the water between the water inlet layer 30 and the water storage layer 32 is raised, when the temperature is raised to a certain value, the gas in the gas expansion and contraction cavity 40 of the control water exchanging tank 38 is expanded, then the sliding piston 41 is pushed to move, the sliding piston 41 drives the control baffle 43 to move through the connecting frame 42, the through hole two 44 is opposite to the water outlet hole 37, meanwhile, the connecting frame 42 drives the water inlet control plate 34 to move through the connecting column 36, the through hole one 35 is opposite to the through hole of the water inlet pipe 33, then the cold water in the water inlet pipe 33 enters the water inlet layer 30, then enters the water storage layer 32 from the connecting hole one 31, then the heated warm water is discharged from the water outlet hole 37 through the control water exchanging tank 38 for other, meanwhile, the cold water is supplemented into the water storage layer 32 for the next heat absorption, and the gas in the gas expansion and contraction cavity 40 is contracted along with the temperature reduction, the sliding piston 41 is then moved so that the control flap 43 and the inlet control plate 34 again block the control water change tank 38 and the inlet pipe 33 to stop the water exchange.

Of course, the above description is not intended to limit the invention to the particular embodiments disclosed, but the invention is not limited to the particular embodiments disclosed, as variations, modifications, additions or substitutions within the spirit and scope of the invention will become apparent to those of ordinary skill in the art.

Claims

1. The utility model provides an energy recovery formula chemical material mixing arrangement, includes mixing drum (1), its characterized in that: the separation discharge plate (2) is slidably arranged in the mixing drum (1), the connecting drum (3) is fixedly arranged on the separation discharge plate (2), the connecting drum (3) is slidably arranged in the mixing drum (1), the mounting ring (4) is rotatably arranged on the connecting drum (3), the connecting adjusting rod (5) is fixedly arranged on the mounting ring (4), the mounting sleeve (6) is fixedly arranged on the mixing drum (1), the control groove (7) is arranged on the mounting sleeve (6), the connecting adjusting rod (5) is slidably arranged in the control groove (7), the transmission rod (8) is rotatably arranged on the separation discharge plate (2), the stirring wheel (9) is fixedly arranged on the transmission rod (8), the connecting flower head (10) is fixedly arranged on the transmission rod (8), the connecting hole shaft (11) is rotatably arranged on the mounting sleeve (6), the spring (12) is sleeved on the connecting drum (3), the separation discharge plate (6) is downwardly moved along with the material entering the separation discharge plate (2), the connecting drum (3) and the transmission rod (8) is downwardly moved, but the transmission rod (8) is prevented from moving downwards until the connecting head (10) enters the separation discharge plate (6) and then moves downwards, the separation plate (7) is prevented from moving downwards, and the transmission rod (7) is prevented from moving downwards, the separation plate (7) until the separation plate (7) is moved downwards moves downwards, then the connecting hole shaft (11) drives the stirring wheel (9) on the transmission rod (8) to rotate through the connecting flower head (10) to stir and accelerate the mixed materials, when the mixed materials are required to be discharged, the connecting adjusting rod (5) is pushed to move to the position of the lowest end in the control groove (7), the connecting adjusting rod (5) drives the connecting cylinder (3) to move through the mounting ring (4), and the connecting cylinder (3) drives the separation discharge plate (2) to move, so that the separation discharge plate (2) moves to the lower end of the discharge pipe (29);

A first feeding hole (13) is arranged on the mixing drum (1), a second feeding hole (14) is arranged on the mixing drum (1), a control feeding disc (15) is rotatably arranged inside the mixing drum (1), a first matching hole (16) is arranged on the control feeding disc (15), a second matching hole (17) is arranged on the control feeding disc (15), a mounting transmission shaft (18) is fixedly arranged inside the control feeding disc (15), a belt wheel (19) is fixedly arranged on the mounting transmission shaft (18), a transmission belt (20) is arranged on the belt wheel (19), a mounting seat (21) is fixedly arranged on the mixing drum (1), a connecting shaft (22) is rotatably arranged on the mounting seat (21), a second transmission belt wheel (23) and a pushing control plate (24) are fixedly arranged on the connecting shaft (22), a transmission belt (20) is arranged on the second transmission belt wheel (23), a threaded rod (25) is fixedly arranged on the control feeding disc (15), a mounting sliding plate (26) is fixedly arranged inside the mixing drum (1), a moving inner threaded column (27) is fixedly arranged inside the mixing drum (27), a sliding control plate (26) is fixedly arranged inside the mixing drum (28), a moving inner threaded column (27) is fixedly arranged on the mixing drum (28), the chemical materials to be mixed are firstly fed into the mixing cylinder (1) through the first feeding hole (13) and the second feeding hole (14) and then fed into the mixing cylinder through the first matching hole (16) and the second matching hole (17) on the control feeding disc (15), and the control float (28) is subjected to buoyancy along with the continuous feeding of the mixed materials, but the control float (28) can only move up and down and can not rotate due to the limited freedom degree of the control float (28), so that the control float (28) drives the threaded rod (25) to rotate by moving the internal threaded column (27), the threaded rod (25) drives the control feeding disc (15) to rotate, so that the first feeding hole (13) and the second feeding hole (14) are staggered with the first matching hole (16) and the second matching hole (17) to prevent materials from being added into the mixing drum (1), then the mixed materials are discharged through the discharge pipe (29), meanwhile, the connection adjusting rod (5) pushes the pushing control board (24) to rotate, the pushing control board (24) drives the second driving belt wheel (23) to rotate through the connecting shaft (22), the second driving belt wheel (23) drives the first belt wheel (19) to rotate through the driving belt (20), the first belt wheel (19) drives the control feeding disc (15) to rotate through the mounting transmission shaft (18) so that the first matching hole (16) and the second matching hole (17) are staggered with the first feeding hole (13) and the second feeding hole (14) to stop feeding, the purity of the mixed materials is prevented from being influenced when the mixed materials are discharged, the separation discharging plate (2) is reset to the original position by adjusting the position of the connecting adjusting rod (5) in the control groove (7), under the condition that the buoyancy of the mixed materials is not limited, the weight of the internal thread column (27) and the control floater (28) is moved so that the internal thread column (27) drives the control feeding disc (15) to rotate, and the first feeding hole (13) and the second feeding hole (14) are opposite to the first matching hole (16) and the second matching hole (17) again, and then the materials are added into the mixing drum (1);

The water inlet layer (30) is arranged in the mixing drum (1), the water storage layer (32) is arranged in the mixing drum (1), the water inlet pipe (33) is fixedly arranged in the mixing drum (1), the water inlet control plate (34) is slidably arranged on the water inlet pipe (33), the first through hole (35) is arranged on the water inlet control plate (34), the connecting column (36) is fixedly arranged on the water inlet control plate (34), the water outlet hole (37) is arranged on the mixing drum (1), the control water exchange tank (38) is fixedly arranged on the mixing drum (1), the connecting pipeline (39) is arranged in the control water exchange tank (38), the gas expansion and contraction cavity (40) is arranged in the control water exchange tank (38), the sliding piston (41) is slidably arranged in the gas expansion and contraction cavity (40), the connecting frame (42) is fixedly arranged on the sliding piston (41) and the control baffle (43), the second through hole (44) is arranged on the control baffle (43), the chemical reaction releases heat to enable the water inlet layer (30) and the water storage layer (38) to be heated up to a certain value when the gas expansion and contraction cavity (40) is pushed up, the gas expansion cavity (38) is slidably moved to a certain value, the sliding piston (41) drives the control baffle (43) to move through the connecting frame (42), the through hole II (44) is opposite to the water outlet hole (37), meanwhile, the connecting frame (42) drives the water inlet control plate (34) to move through the connecting column (36), so that the through hole I (35) is opposite to the through hole of the water inlet pipe (33), cold water in the water inlet pipe (33) enters the water inlet layer (30), enters the water storage layer (32) from the connecting hole I (31), is heated by the water outlet hole (37) through the control water exchange tank (38) and then is discharged to the water storage layer (32), cold water is supplemented to the water storage layer (32) for carrying out next heat absorption, the gas inside the gas expansion and contraction cavity (40) is contracted along with the reduction of temperature, and then the sliding piston (41) moves so that the control baffle (43) and the water inlet control plate (34) exchange the control water exchange tank (38) and the water inlet pipe (33) again to be blocked and stopped;

the first connecting hole (31) and the water outlet hole (37) are arranged at two ends of the mixing drum (1) so as to enable water to be exchanged thoroughly.

2. The energy recovery type chemical material mixing device according to claim 1, wherein: the connecting hole shaft (11) is provided with a matched motor.

3. The energy recovery type chemical material mixing device according to claim 1, wherein: the connecting hole shaft (11) corresponds to the connecting flower head (10).

4. The energy recovery type chemical material mixing device according to claim 1, wherein: the first feeding hole (13) and the second feeding hole (14) are provided with feeding devices.