CN212692258U - Controllable chemical industry raw and other materials cooling device of temperature - Google Patents

Abstract

The utility model discloses a temperature-controllable chemical raw material cooling device, which comprises a cooling cylinder which freely rotates along the central axis of the cooling cylinder, a stirring shaft which is arranged in the cooling cylinder and is superposed with the central axis of the cooling cylinder, stirring blades which are uniformly distributed on the stirring shaft, cooling water pipes which are uniformly arranged in the inner wall of the cooling cylinder, a cooling fan which is arranged at one end port of the cooling cylinder, a driving mechanism which is used for driving the cooling cylinder, the stirring shaft and the cooling fan, and the cooling cylinder and the stirring shaft are arranged in opposite directions; the two ends of the cooling cylinder are provided with ventilation grids, the cooling cylinder and the stirring shaft are nested and installed in a relative rotating mode, and the parts of the two ends of the stirring shaft, which are led out of the cooling cylinder, are nested and installed with cooling fans in a relative rotating mode. The utility model discloses have to chemical raw and other materials cooling efficiency height, convenient beneficial effect who controls chemical raw and other materials temperature.

Description

Controllable chemical industry raw and other materials cooling device of temperature

Technical Field

The utility model relates to a chemical production equipment technical field, specific controllable chemical industry raw and other materials cooling device of temperature that says so.

Background

In the chemical industry production process, the pretreated chemical raw materials need to be cooled for use in the next process, but when the chemical raw materials are cooled, in order to improve the production efficiency of chemical products, the chemical raw materials need to be efficiently cooled; meanwhile, due to the production requirement of the next process, the temperature of the raw material subjected to cooling treatment is often required to be preliminarily controlled. Therefore, it is necessary to design a chemical raw material cooling device which has high cooling efficiency for chemical raw materials and is convenient to control the temperature of the chemical raw materials.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned weak point that exists among the prior art, the utility model aims at providing a chemical raw material cooling device to chemical raw material cooling efficiency height, convenient control to chemical raw material temperature.

The utility model discloses a realize that the technical scheme that above-mentioned purpose adopted is: the utility model provides a controllable chemical industry raw and other materials cooling device of temperature which characterized in that: the cooling device comprises a cooling cylinder which freely rotates along the central axis of the cooling cylinder, a stirring shaft which is arranged in the cooling cylinder and is superposed with the central axis of the cooling cylinder, stirring blades which are uniformly distributed on the stirring shaft, cooling water pipes which are uniformly arranged in the inner wall of the cooling cylinder, a cooling fan which is arranged at one end port of the cooling cylinder, and a driving mechanism which is used for driving the cooling cylinder, the stirring shaft and the cooling fan, wherein the cooling cylinder and the stirring shaft are arranged in opposite rotating directions;

the cooling device comprises a cooling cylinder, a stirring shaft, a cooling shaft, mounting blocks, cooling water pipes, mounting bearings, a cooling fan and a fan, wherein the mounting blocks protruding inwards are uniformly arranged on the inner side wall of the cooling cylinder, the cooling water pipes are correspondingly arranged in the mounting blocks, the two ends of the cooling cylinder are provided with air permeable grids, the sizes of air permeable holes of the air permeable grids are smaller than the sizes of chemical raw material particles, the two ends of the cooling cylinder are provided with the mounting bearings and are nested with the stirring shaft in a relative rotation mode, and the two ends of the stirring shaft are led out of the cooling cylinder, and the;

the end of the outer side of the cylinder body of the cooling cylinder is provided with a material passing hole and is provided with a sealing cover in a matched mode, and the cooling water pipe bypasses the material passing hole in the cooling cylinder.

Furthermore, the stirring shaft is further provided with a mounting base and a mounting bracket, wherein the mounting base is horizontally arranged and is fixedly connected with the mounting bracket, and parts of two ends of the stirring shaft, which are led out of the cooling cylinder, are horizontally nested and mounted on the mounting bracket in a relative rotation mode.

Furthermore, the driving mechanism comprises a first transmission gear fixedly connected to the outer side wall of the cooling cylinder, a second transmission gear fixedly connected to the cooling fan, a third transmission gear fixedly connected to the stirring shaft, a first rotating gear meshed and connected with the first transmission gear, a second rotating gear connected with the second transmission gear through a chain, a third rotating gear connected with the third transmission gear through a chain, a power shaft which is arranged on the mounting bracket in a nested manner in a relative rotating mode and fixedly connected with the first rotating gear, the second rotating gear and the third rotating gear, and a driving motor which is in power connection with the power shaft and is arranged on the mounting base.

Furthermore, a driving gear is fixedly connected to the power shaft, a power gear is fixedly connected to a rotating shaft of the driving motor, and the power gear is meshed with the driving gear.

Further, the number of teeth of first drive gear is 15 ~ 35 times of the number of teeth of first drive gear, the number of teeth of second drive gear is 3 ~ 15 times of the number of teeth of second drive gear, the number of teeth of third drive gear is 10 ~ 25 times of the number of teeth of third drive gear.

Further, each group the upper reaches end, the low reaches end of condenser tube all are linked together with water inlet, delivery port respectively through turning to the structure, turn to the structure and include first annular communicating structure, second annular communicating structure, first annular communicating structure and second annular communicating structure with the nested joint of relative pivoted mode, annular communicating groove has all been seted up on the relative side of first annular communicating structure, second annular structure, and two sets of annular communicating groove combination constitute annular communicating pipe, the last annular communicating groove of first annular structure with each group that corresponds condenser tube is linked together, the last annular communicating groove of second annular structure is linked together with water inlet or delivery port, the axis of rotation is passed by the central through-hole of first annular structure, second annular structure, radiator fan installs in condenser tube's water inlet one side.

Further, install temperature sensor in the cooling cylinder, water inlet department installs the suction pump, temperature sensor, suction pump, the equal signal data connection of driving motor have the singlechip.

The utility model has the advantages that: the driving motor works to drive the power shaft to rotate, and further drive the cooling cylinder, the stirring shaft and the stirring blades arranged on the stirring shaft, and the cooling fan to rotate, cold water is introduced into the cooling water pipe and flows through the cooling cylinder to cool chemical raw materials in the cooling water pipe, cold air pressurized by the cooling fan is introduced from one end of the cooling cylinder to the other end of the cooling cylinder to cool the chemical raw materials in the cooling water pipe, the first transmission gear is directly meshed with the first transmission gear, the second third transmission gear is connected with the third transmission gear through a chain, the cooling cylinder and the stirring shaft are ensured to rotate in opposite directions, the chemical raw materials are ensured to be continuously overturned in the cooling cylinder, the contact time between the chemical raw materials and air and the inner wall of the cooling cylinder is prolonged, and the cooling efficiency of the chemical raw materials is comprehensively improved;

temperature sensor detects the temperature of the inside chemical industry raw and other materials of cooling cylinder and transmits temperature data to the singlechip, and the singlechip receives temperature data and to its analytic processing, and when the first specified value of setting for of temperature data, control suction pump, driving motor stop work, the convenient temperature to carrying out refrigerated chemical industry raw and other materials controls.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged detail view of portion A of FIG. 1;

fig. 3 is a schematic cross-sectional structure diagram of the cooling cylinder, the stirring shaft and the stirring blade.

In the figure: the device comprises a cooling cylinder 1, a stirring shaft 2, a stirring blade 3, a cooling water pipe 4, a cooling fan 5, a mounting block 6, a ventilating grid 7, a mounting bearing 8, a sealing cover 9, a mounting base 10, a mounting bracket 11, a first transmission gear 12, a second transmission gear 13, a third transmission gear 14, a first rotation gear 15, a second rotation gear 16, a third rotation gear 17, a power shaft 18, a driving motor 19, a driving gear 20, a power gear 21, a water inlet 22, a water outlet 23, a steering structure 24, a first annular communication structure 25, a second annular communication structure 26 and an annular communication pipe 27.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, a temperature-controllable chemical raw material cooling apparatus is characterized in that: the cooling device comprises a cooling cylinder 1 which freely rotates along the central axis of the cooling cylinder 1, a stirring shaft 2 which is arranged in the cooling cylinder 1 and is coincided with the central axis of the cooling cylinder 1, stirring blades 3 which are uniformly distributed on the stirring shaft 2, cooling water pipes 4 which are uniformly arranged in the inner wall of the cooling cylinder 1, a cooling fan 5 which is arranged at one end port of the cooling cylinder 1 and a driving mechanism which is used for driving the cooling cylinder 1, the stirring shaft 2 and the cooling fan 5, wherein the cooling cylinder 1 and the stirring shaft 2 are arranged in opposite directions;

the inner side wall of the cooling cylinder 1 is uniformly provided with mounting blocks 6 protruding inwards, cooling water pipes 4 are correspondingly arranged inside the mounting blocks 6, air permeable grids 7 are arranged at two ends of the cooling cylinder 1, the sizes of air permeable holes of the air permeable grids 7 are smaller than the sizes of chemical raw material particles, mounting bearings 8 are arranged at two ends of the cooling cylinder 1 and are nested with the stirring shaft 2 in a relative rotation mode, and cooling fans 5 are nested with the portions, out of the cooling cylinder 1, of the stirring shaft 2 in the relative rotation mode;

the barrel body outside end of cooling cylinder 1 is seted up and is led to the material mouth and supporting installation has sealed lid 9, and condenser tube 4 is arranged around leading to the material mouth in cooling cylinder 1.

The utility model is also provided with a mounting base 10 and a mounting bracket 11, the mounting base 10 is horizontally arranged and is fixedly connected with the mounting bracket 11, and the parts of the two ends of the stirring shaft 2, which are led out of the cooling cylinder 1, are horizontally nested and mounted on the mounting bracket 11 in a relative rotation mode, so that the mounting stability of the cooling cylinder 1 and the stirring shaft 2 is ensured;

the driving mechanism comprises a first transmission gear 12 fixedly connected to the outer side wall of the cooling cylinder 1, a second transmission gear 13 fixedly connected to the cooling fan 5, a third transmission gear 14 fixedly connected to the stirring shaft 2, a first rotating gear 15 in meshed connection with the first transmission gear 12, a second rotating gear 16 connected with the second transmission gear 13 through a chain, a third rotating gear 17 connected with the third transmission gear 14 through a chain, a power shaft 18 which is nested and installed on the installation support 11 in a relative rotating mode and fixedly connected with the first rotating gear 15, the second rotating gear 16 and the third rotating gear 17, and a driving motor 19 which is in power connection with the power shaft 18 and installed on the installation base 10;

a driving gear 20 is further fixedly connected to the power shaft 18, a power gear 21 is fixedly connected to a rotating shaft of the driving motor 19, the power gear 21 is meshed with the driving gear 20, the driving motor 19 works to drive the power shaft 18 to rotate, further, the first rotating gear 15 drives the first transmission gear 12 and the cooling cylinder 1 to rotate, the second rotating gear 16 drives the second transmission gear 13 and the cooling fan 5 to rotate, the third rotating gear 17 drives the third transmission gear 14, the stirring shaft 2 and the stirring blade 3 to rotate, the first transmission gear 12 is directly meshed with the first rotating gear 15, the second third transmission gear 14 is connected with the third rotating gear 17 through a chain, and the cooling cylinder 1 and the stirring shaft 2 are ensured to rotate in opposite directions;

the number of teeth of the first transmission gear 12 is 15-35 times that of the first rotation gear 15, so that the cooling cylinder 1 is ensured to rotate at a lower rotating speed, the number of teeth of the second rotation gear 16 is 3-15 times that of the second transmission gear 13, the cooling fan 5 is ensured to rotate at a higher rotating speed, the number of teeth of the third transmission gear 14 is 10-25 times that of the third rotation gear 17, and the stirring shaft 2 and the stirring blade 3 are ensured to rotate at a lower rotating speed;

the upstream end and the downstream end of each group of cooling water pipes 4 are respectively communicated with the water inlet 22 and the water outlet 23 through a steering structure 24, the steering structure 24 comprises a first annular communicating structure 25 and a second annular communicating structure 26, the first annular communicating structure 25 and the second annular communicating structure 26 are nested and clamped in a relative rotating mode, annular communicating grooves are formed in opposite side surfaces of the first annular communicating structure 25 and the second annular communicating structure, the two groups of annular communicating grooves are combined to form an annular communicating pipe 27, the annular communicating grooves in the first annular structure are communicated with the corresponding groups of cooling water pipes 4, the annular communicating grooves in the second annular structure are communicated with the water inlet 22 or the water outlet 23, the rotating shaft penetrates through central through holes of the first annular structure and the second annular structure to ensure that the cooling water pipes 4 are stably communicated with the water inlet 22 and the water outlet 23, and the driving motor 19 is prevented from driving the cooling cylinder 1, When the stirring shaft 2 and the cooling fan 5 rotate, spatial interference occurs between the stirring shaft and the cooling water pipe 4, the water inlet 22 and the water outlet 23; the cooling fan 5 is arranged at one side of the water inlet 22 of the cooling water pipe 4, so that cold air pressurized by the cooling fan 5 is introduced from one end of the cooling cylinder 1 to the other end of the cooling cylinder, and chemical raw materials in the cooling cylinder are cooled;

install temperature sensor in the cooling cylinder 1, water inlet 22 department installs the suction pump, temperature sensor, the suction pump, the equal signal data connection of driving motor 19 has the singlechip, temperature sensor detects the temperature of 1 inside chemical raw and other materials of cooling cylinder and transmits temperature data to the singlechip, the singlechip receives temperature data and to its analysis processes, when the first specified value of setting for of temperature data, control suction pump, 19 stop work of driving motor, the convenient temperature to carrying out refrigerated chemical raw and other materials controls.

The utility model discloses a theory of operation is: when in use, chemical raw materials needing cooling treatment are filled into the cooling cylinder 1 through the sealing cover 9, cold water is introduced into the cooling water pipe 4 and flows through the cooling cylinder 1 to cool the chemical raw materials, the driving motor 19 is started to work to drive the power shaft 18 to rotate, the first transmission gear 12 and the cooling cylinder 1 are further driven to rotate through the first rotating gear 15, the second transmission gear 13 and the cooling fan 5 are driven to rotate through the second rotating gear 16, the third transmission gear 14, the stirring shaft 2 and the stirring blade 3 are driven to rotate through the third rotating gear 17, cold air pressurized by the cooling fan 5 is introduced into the other end from one end of the cooling cylinder 1 to cool the chemical raw materials, the first transmission gear 12 is directly meshed with the first rotating gear 15, and the second third transmission gear 14 is connected with the third rotating gear 17 through a chain, the cooling cylinder 1 and the stirring shaft 2 are ensured to rotate in opposite directions, and the cooling efficiency of chemical raw materials is improved;

the temperature sensor detects the temperature of chemical raw materials in the cooling cylinder 1 and transmits temperature data to the single chip microcomputer, the single chip microcomputer receives the temperature data and analyzes and processes the temperature data, and when the temperature data is a first set specific value, the water suction pump and the driving motor 19 are controlled to stop working, so that the temperature of the chemical raw materials to be cooled is conveniently controlled;

after cooling chemical raw materials, controlling the driving motor 19 to drive the cooling cylinder 1 to enable the upper sealing cover 9 to rotate to the bottom position, closing the driving motor 19, and opening the sealing cover 9 to take out the cooled materials.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. The utility model provides a controllable chemical industry raw and other materials cooling device of temperature which characterized in that: the cooling device comprises a cooling cylinder (1) which freely rotates along a self central shaft, a stirring shaft (2) which is arranged in the cooling cylinder (1) and is superposed with the central shaft of the cooling cylinder (1), stirring blades (3) which are uniformly distributed on the stirring shaft (2), cooling water pipes (4) which are uniformly arranged in the inner wall of the cooling cylinder (1), a cooling fan (5) which is arranged at one end port of the cooling cylinder (1) and a driving mechanism which is used for driving the cooling cylinder (1), the stirring shaft (2) and the cooling fan (5), wherein the rotating directions of the cooling cylinder (1) and the stirring shaft (2) are opposite;

the cooling device is characterized in that mounting blocks (6) protruding towards the inner side are uniformly arranged on the inner side wall of the cooling cylinder (1), the cooling water pipes (4) are correspondingly arranged inside the mounting blocks (6), ventilating grids (7) are arranged at two ends of the cooling cylinder (1), the size of ventilating holes of the ventilating grids (7) is smaller than that of chemical raw material particles, mounting bearings (8) are arranged at two ends of the cooling cylinder (1) and are nested with the stirring shaft (2) in a relative rotation mode, and the cooling fan (5) is nested with the part, which is led out of the cooling cylinder (1), of the stirring shaft (2) and led out of the cooling cylinder (1) in a relative rotation mode;

the cooling cylinder is characterized in that a material passing hole is formed in the outer side end of the cylinder body of the cooling cylinder (1) and a sealing cover (9) is installed in a matched mode, and the cooling water pipe (4) bypasses the material passing hole in the cooling cylinder (1).

2. The apparatus for cooling chemical raw material with controllable temperature according to claim 1, wherein: the stirring shaft is characterized by further comprising a mounting base (10) and a mounting support (11), wherein the mounting base (10) is horizontally arranged and fixedly connected with the mounting support (11), and parts of two ends of the stirring shaft (2) which penetrate out of the cooling cylinder (1) are horizontally nested and mounted on the mounting support (11) in a relative rotating mode.

3. A temperature-controllable chemical raw material cooling device according to claim 2, characterized in that: the driving mechanism comprises a first transmission gear (12) fixedly connected to the outer side wall of the cooling cylinder (1), a second transmission gear (13) fixedly connected to the cooling fan (5), a third transmission gear (14) fixedly connected to the stirring shaft (2), a first rotating gear (15) connected with the first transmission gear (12) in a meshed mode, a second rotating gear (16) connected with the second transmission gear (13) through a chain, a third rotating gear (17) connected with the third transmission gear (14) through a chain, a power shaft (18) fixedly connected with the first rotating gear (15), the second rotating gear (16) and the third rotating gear (17) and mounted on the mounting support (11) in a relatively rotating mode in a nested mode, and a driving motor (19) dynamically connected with the power shaft (18) and mounted on the mounting base (10).

4. A temperature-controllable chemical raw material cooling device according to claim 3, characterized in that: the power shaft (18) is also fixedly connected with a driving gear (20), a power gear (21) is fixedly connected with a rotating shaft of the driving motor (19), and the power gear (21) is meshed with the driving gear (20).

5. A temperature-controllable chemical raw material cooling device according to claim 3, characterized in that: the number of teeth of first drive gear (12) is 15 ~ 35 times of first drive gear (15) number of teeth, second drive gear (16) number of teeth is 3 ~ 15 times of second drive gear (13) number of teeth, third drive gear (14) number of teeth is 10 ~ 25 times of third drive gear (17) number of teeth.

6. A temperature-controllable chemical raw material cooling device according to claim 4, characterized in that: the upstream end and the downstream end of each group of cooling water pipes (4) are respectively communicated with a water inlet (22) and a water outlet (23) through a steering structure (24), the steering structure (24) comprises a first annular communicating structure (25) and a second annular communicating structure (26), the first annular communicating structure (25) and the second annular communicating structure (26) are nested and clamped in a relative rotating mode, annular communicating grooves are respectively formed in opposite side surfaces of the first annular communicating structure (25) and the second annular structure, two groups of annular communicating grooves are combined to form an annular communicating pipe (27), the annular communicating groove in the first annular structure is communicated with each corresponding group of cooling water pipes (4), the annular communicating groove in the second annular structure is communicated with the water inlet (22) or the water outlet (23), and the rotating shaft passes through a central through hole of the first annular structure and the central through hole of the second annular structure, the heat radiation fan (5) is arranged at one side of the water inlet (22) of the cooling water pipe (4).

7. The apparatus for cooling chemical raw material with controllable temperature according to claim 6, wherein: install temperature sensor in cooling cylinder (1), water inlet (22) department installs the suction pump, temperature sensor, suction pump, the equal signal data connection of driving motor (19) have the singlechip.

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