CN209835659U - Calcium hydroxide preparation integration complete sets - Google Patents

Abstract

The utility model belongs to the technical field of calcium hydroxide processing technique and specifically relates to a calcium hydroxide preparation integration complete sets, including first mounting bracket, storage case, second mounting bracket and retort, install on the top position of first mounting bracket and forge burning furnace, install the hopper on the below position of storage case, the hopper is installed on the second mounting bracket, the discharge gate of hopper and the feed inlet of mixing box communicate with each other, mixing box installs on the second mounting bracket, install the defeated material casing on the below position of mixing box, the retort is installed on the right side below position of second mounting bracket, install agitator motor on the top position of retort, the output shaft of agitator motor passes through the shaft coupling and is connected with rotating between the inside (mixing) shaft of retort; the utility model discloses in, through setting up the storage case, motor and baffle uncap, the device adopts the integrated design, has increased the automation level of device, and is efficient, and the manual work is practiced thrift in safe environmental protection.

Description

Calcium hydroxide preparation integration complete sets

Technical Field

The utility model relates to a calcium hydrate processing technology field specifically is a calcium hydrate preparation integration complete sets.

Background

Calcium hydroxide is widely applied in the fields of scientific research and development, industrial production, medicine production and food production, so that the demand for calcium hydroxide is huge, and calcium oxide powder and water are prepared into slurry for grinding in the production process of preparing calcium hydroxide, so that the demand for a complete calcium hydroxide preparation device is increasing day by day.

When the existing device is used, the automation level is low, the processing quality is poor, the traditional slurry mixing process adopts manual weighing of powder with certain quality and water with certain quality to mix, the labor productivity of the process is low, the production intensity is high, the production yield is influenced, the enterprise cost is increased, and the additional value of the enterprise cost is reduced, so that the integrated complete equipment for preparing calcium hydroxide is provided aiming at the problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a calcium hydrate preparation integration complete sets to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

an integrated complete set of equipment for preparing calcium hydroxide comprises a first mounting frame, a storage box, a second mounting frame and a reaction tank, wherein a calcining furnace is mounted at the position above the first mounting frame, a crushing box is mounted at the position below the calcining furnace, a discharge port of the calcining furnace is hermetically connected with a feed inlet of the crushing box through a guide pipe, a discharge port below the crushing box is communicated with a feed inlet of a material lifting machine, a discharge port of the material lifting machine is communicated with the storage box mounted above the second mounting frame, a hopper is mounted at the position below the storage box, the hopper is mounted on the second mounting frame, a pressure sensor is mounted between the hopper and the second mounting frame, a filter screen is mounted at the discharge port below the hopper, a baffle is mounted at the position below the hopper, the baffle is connected with the hopper in a sliding manner, and a rack is connected at the position on the left side of the baffle, the device is characterized in that a cover opening motor is installed above the rack, the cover opening motor is installed on a second installation frame, a gear is installed on an output shaft of the cover opening motor, the gear and the rack are meshed and connected, a discharge hole of the hopper is communicated with a feed inlet of a mixing box, the mixing box is installed on the second installation frame, a conveying shell is installed on the lower position of the mixing box, the feed inlet on the upper left side of the conveying shell is communicated with a discharge hole on the lower side of the mixing box, the conveying motor is installed on the second installation frame on the left side of the conveying shell and is connected with a conveying screw rod in the conveying shell, the discharge hole on the lower right side of the conveying shell is hermetically connected with a feed inlet of a reaction tank through a guide pipe, the reaction tank is installed on the lower right side of the second installation frame, and a stirring motor is installed on the upper position of the reaction, the output shaft of the stirring motor is rotatably connected with the stirring shaft inside the reaction tank through a shaft coupling, and stirring blades are installed on the stirring shaft.

Preferably, a drying box is installed below the reaction tank, a feed inlet of the drying box is connected with a discharge outlet of the reaction tank in a sealing manner through a material guide pipe, an exhaust fan is installed at the left side of the drying box, an air inlet of the exhaust fan is connected with an exhaust hole of the calcining furnace in a sealing manner through an air guide pipe, and an air outlet of the exhaust fan is connected with an air inlet of the drying box in a sealing manner through an air guide pipe.

Preferably, a water tank is installed at the right side of the mixing box, the water tank is installed on the second installation frame, a water outlet of the water tank is in sealing connection with a water inlet of the water pump through a water guide pipe, and a water outlet of the water pump is in sealing connection with a water inlet of the mixing box through a water guide pipe.

Preferably, a waste pipe is installed at the right side of the hopper, the installation position of the waste pipe corresponds to the installation position of a scraper inside the hopper, the scraper is connected with one end of a transmission rod through a hinge, the other end of the transmission rod is hinged with the hopper, one end, far away from the transmission rod, of the scraper is hinged with a piston rod of an electric cylinder through a hinge, and the electric cylinder is installed on the side wall of the hopper.

Preferably, a controller is installed at the position below the second mounting frame and is electrically connected with the cover opening motor and the material conveying motor respectively.

Compared with the prior art, the beneficial effects of the utility model are that:

1. in the utility model, through the matching use between the cover opening motor, the gear, the rack, the mixing box and the material conveying screw rod, the device can realize quantitative material conveying, and simultaneously realize premix material when conveying the material, thereby increasing the reaction efficiency, reducing the time for mixing carbon monoxide and water in the reaction tank, increasing the reaction quality, improving the work efficiency, and avoiding the problem of incomplete reaction caused by too much material once feeding when mixing the material;

2. in the utility model, by arranging the electric cylinder, the scraper and the filter screen, after the carbon monoxide powder in the storage box is conveyed, the opening of the waste pipe is opened, the electric cylinder works, the electric cylinder is matched with the scraper to remove massive carbon monoxide in the hopper, and the massive carbon monoxide is discharged from the waste pipe, so that the problem that reaction quality is influenced due to overlarge raw materials is avoided during reaction;

3. the utility model discloses in, through setting up first mounting bracket, second mounting bracket and air exhauster, the carbon dioxide gas of air exhauster in with the calcining furnace carries out the drying in the drying cabinet, because the carbon dioxide gas in the calcining furnace is high temperature gas, consequently, can carry out its abundant drying, the emission of waste gas has been reduced, the make full use of to the energy has been increased, the cyclic utilization of device has been increased, the device adopts the integrated design simultaneously, the occupation of land space has been reduced, the compactness between each workshop section has been improved, economic benefits has been increased, safety and environmental protection, the automation level is high.

Drawings

FIG. 1 is the overall structure of the present invention

FIG. 2 is an assembly view of the storage bin of FIG. 1 in accordance with the present invention;

figure 3 is a top view of the hopper of figure 2 according to the present invention;

FIG. 4 is a schematic view showing the internal structure of the reaction tank of FIG. 1 according to the present invention;

FIG. 5 is an assembly view of the water tank of FIG. 1 in accordance with the present invention;

fig. 6 is an assembly view of the feeding screw of fig. 1 according to the present invention.

In the figure: 1-a first mounting rack, 2-a calcining furnace, 3-a crushing box, 4-a material lifting machine, 5-a material storage box, 6-a water tank, 7-a second mounting rack, 8-a mixing box, 9-a material conveying screw, 10-a reaction tank, 11-a drying box, 12-a controller, 13-an exhaust fan, 14-a hopper, 15-a pressure sensor, 16-a rack, 17-a baffle, 18-a cover opening motor, 19-a gear, 20-a transmission rod, 21-a scraping plate, 22-a waste pipe, 23-an electric cylinder, 24-a hinge, 25-a filter screen, 26-a stirring motor, 27-a stirring shaft, 28-stirring fan blades, 29-a water pump, 30-a material conveying motor and 31-a material conveying shell.

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. 1-6, the present invention provides a technical solution:

an integrated complete set of equipment for preparing calcium hydroxide comprises a first mounting frame 1, a storage box 5, a second mounting frame 7 and a reaction tank 10, wherein a calcining furnace 2 is mounted at the position above the first mounting frame 1, a crushing box 3 is mounted at the position below the calcining furnace 2, a discharge port of the calcining furnace 2 is hermetically connected with a feed port of the crushing box 3 through a guide pipe, a discharge port below the crushing box 3 is communicated with a feed port of a material lifting machine 4, a discharge port of the material lifting machine 4 is communicated with the storage box 5 mounted above the second mounting frame 7, a hopper 14 is mounted at the position below the storage box 5, the hopper 14 is mounted on the second mounting frame 7, a pressure sensor 15 is mounted between the hopper 14 and the second mounting frame 7, a filter screen 25 is mounted at the discharge port below the hopper 14, a baffle 17 is mounted at the position below the hopper 14, the reaction tank is characterized in that the baffle 17 is in sliding connection with the hopper 14, a rack 16 is connected to the left side of the baffle 17, an uncovering motor 18 is installed on the upper position of the rack 16, the uncovering motor 18 is installed on the second mounting frame 7, a gear 19 is installed on an output shaft of the uncovering motor 18, the gear 19 is meshed with the rack 16, a discharge port of the hopper 14 is communicated with a feed port of a mixing box 8, the mixing box 8 is installed on the second mounting frame 7, a material conveying shell 31 is installed on the lower position of the mixing box 8, the feed port on the upper left side of the material conveying shell 31 is communicated with a discharge port on the lower side of the mixing box 8, a material conveying motor 30 is installed on the second mounting frame 7 on the left side of the material conveying shell 31, the material conveying motor 30 is connected with a material conveying screw 9 inside the material conveying shell 31, the discharge port on the lower right side of the material conveying shell 31 is in sealing connection, retort 10 is installed on the right side below position of second mounting bracket 7, install agitator motor 26 on retort 10's the top position, agitator motor 26's output shaft passes through the shaft coupling and rotates between the inside (mixing) shaft 27 of retort 10 to be connected, install stirring fan blade 28 on the (mixing) shaft 27.

A drying box 11 is arranged at the lower position of the reaction tank 10, a feed inlet of the drying box 11 is hermetically connected with a discharge outlet of the reaction tank 10 through a material guide pipe, an exhaust fan 13 is arranged at the left side position of the drying box 11, an air inlet of the exhaust fan 13 is hermetically connected with an exhaust hole of the calcining furnace 2 through an air guide pipe, an air outlet of the exhaust fan 13 is hermetically connected with an air inlet of the drying box 11 through an air guide pipe, the exhaust fan 13 conveys the carbon dioxide gas in the calcining furnace 2 into the drying box 11 for drying, because the carbon dioxide gas in the calcining furnace 2 is high-temperature gas, the carbon dioxide gas can be fully dried, the discharge amount of waste gas is reduced, the full utilization of energy is increased, the cyclic utilization rate of the device is increased, meanwhile, the device adopts an integrated design, the occupied space is reduced, and the compactness among all working sections is improved, the economic benefit is increased, the safety and environmental protection are realized, the automation level is high, the water tank 6 is installed at the right side position of the mixing box 8, the water tank 6 is installed on the second installation frame 7, the water outlet of the water tank 6 is in sealing connection with the water inlet of the water pump 29 through a water guide pipe, the water outlet of the water pump 29 is in sealing connection with the water inlet of the mixing box 8 through a water guide pipe, the waste pipe 22 is installed at the right side position of the hopper 14, the installation position of the waste pipe 22 corresponds to the installation position of the scraper 21 inside the hopper 14, the scraper 21 is connected with one end of the transmission rod 20 through the hinge 24, the other end of the transmission rod 20 is hinged with the hopper 14, one end of the scraper 21, which is far away from the transmission rod 20, is hinged with the piston rod of the electric cylinder 23 through the hinge 24, the electric cylinder 23 is installed on the side, the opening of the waste pipe 22 is opened, the electric cylinder 23 works, the electric cylinder 23 is matched with the scraper 21 to remove massive carbon monoxide in the hopper 14, the massive carbon monoxide is discharged from the waste pipe 22, the problem that reaction quality is affected due to overlarge raw materials during reaction is avoided, a controller 12 is arranged at the lower part of the second mounting rack 7, the controller 12 is respectively electrically connected with a cover opening motor 18 and a material conveying motor 30, and the cover opening motor 18, a gear 19, a rack 16, a mixing box 8 and a material conveying screw 9 are matched for use, so that the device can realize quantitative material conveying, meanwhile, the premix is realized while material conveying is carried out, the reaction efficiency is increased, the time for mixing carbon monoxide and water in the reaction tank 10 is reduced, the reaction quality is increased, the working efficiency is improved, and the problem of incomplete reaction caused by too much material once feeding is avoided during material mixing.

The model of the controller 12 is 36MT-3PG-EN, the model of the exhaust fan 13 is 130FLJ, the model of the pressure sensor 15 is PXM309-020G10V, the model of the cover opening motor 18, the model of the stirring motor 26 and the model of the material conveying motor 20 are Y160M1-2, the model of the water pump 29 is an NBG series water pump, the model of the electric cylinder 23 is CASM-32-LS, the model of the material lifting machine 4 is jy-SLJ159-1, and the model of the crushing box 3 is a PCF series crusher.

The working process is as follows: when the device is used, an external power supply is connected, raw materials are placed in a calcining furnace 2 for calcining, calcium monoxide and carbon dioxide are prepared at the moment, the calcium monoxide falls into a crushing box 3 for crushing treatment, the treated calcium monoxide is conveyed into a storage box 5 by a material lifting machine 4, a pressure sensor 15 below the storage box 5 senses the weight of carbon monoxide powder in the storage box 5, a baffle 17 blocks a discharge port of a hopper 14 in an initial state, after the material conveying is finished, a stirring motor 26 and a material conveying motor 30 work at the moment, the stirring motor 26 drives a stirring shaft 27 to rotate, the material conveying motor 30 drives a material conveying screw 9 to rotate, a cover opening motor 18 works at the moment, the cover opening motor 18 drives a gear 19 to rotate, the gear 19 is meshed with a rack 16, the rack 16 drives the baffle 17 to open a cover, and the carbon monoxide powder is conveyed into a mixing box 8 after being filtered by a filter screen 25, at the moment, the water pump 29 conveys water in the water tank 6 to the mixing box 8 to realize primary mixing of carbon monoxide powder, mixed solution liquid is conveyed to the reaction tank 10 under the driving of the conveying screw rod 9, meanwhile, the pressure sensor 15 senses the pressure change inside the storage box 5, when the specified conveying capacity is reached, the cover opening motor 18 rotates reversely, the cover opening motor 18 drives the gear 19 to rotate reversely, the gear 19 is meshed with the rack 16, the rack 16 drives the baffle 17 to do cover closing action to finish quantitative conveying, in the process, the cover opening motor 18, the gear 19, the rack 16, the mixing box 8 and the conveying screw rod 9 are matched for use, so that the device can realize quantitative conveying, simultaneously realize premixing while conveying, the reaction efficiency is increased, the time of carbon monoxide and water in the reaction tank 10 is reduced, the reaction quality is increased, and the working efficiency is improved, the problem that excessive materials are fed at one time to cause incomplete reaction is solved, moreover, after carbon monoxide powder in the storage box 5 is conveyed, an opening of the waste material pipe 22 is opened, the electric cylinder 23 works, the electric cylinder 23 is matched with the scraper 21 to remove massive carbon monoxide in the hopper 14, the massive carbon monoxide is discharged from the waste material pipe 22, the problem that reaction quality is affected due to overlarge raw materials during reaction is avoided, a finished product after reaction is discharged into the drying box 11, carbon dioxide gas in the calcining furnace 2 is conveyed into the drying box 11 by the exhaust fan 13 to be dried, and the carbon dioxide gas in the calcining furnace 2 is high-temperature gas, so that the sufficient drying can be performed, the discharge amount of waste gas is reduced, the full utilization of energy is increased, and the cyclic utilization rate of the device is increased, meanwhile, the device adopts an integrated design, so that the occupied space is reduced, the compactness among all working sections is improved, the economic benefit is increased, and the device is safe, environment-friendly and high in automation level.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a calcium hydrate preparation integration complete sets, includes first mounting bracket (1), storage case (5), second mounting bracket (7) and retort (10), its characterized in that: the calcining furnace (2) is installed at the upper position of the first installation frame (1), the crushing box (3) is installed at the lower position of the calcining furnace (2), the discharge hole of the calcining furnace (2) is hermetically connected with the feed inlet of the crushing box (3) through a guide pipe, the discharge hole of the lower position of the crushing box (3) is communicated with the feed inlet of the material lifting machine (4), the discharge hole of the material lifting machine (4) is communicated with the material storage box (5) installed above the second installation frame (7), the hopper (14) is installed at the lower position of the material storage box (5), the hopper (14) is installed on the second installation frame (7), a pressure sensor (15) is installed between the hopper (14) and the second installation frame (7), a filter screen (25) is installed at the discharge hole of the lower position of the hopper (14), a baffle plate (17) is installed at the lower position of the hopper (14), sliding connection between baffle (17) and hopper (14), be connected with rack (16) on the left side position of baffle (17), install motor (18) of uncapping on the top position of rack (16), motor (18) of uncapping installs on second mounting bracket (7), install gear (19) on the output shaft of motor (18) of uncapping, the meshing is connected between gear (19) and rack (16), the discharge gate of hopper (14) communicates with each other with the feed inlet of mixing box (8), mixing box (8) are installed on second mounting bracket (7), install defeated material casing (31) on the below position of mixing box (8), the feed inlet of defeated material casing (31) upper left side communicates with each other with the discharge gate of mixing box (8) below, install defeated material motor (30) on defeated material casing (31) the left second mounting bracket (7), defeated material motor (30) are connected with defeated material screw rod (9) of defeated material casing (31) inside, sealing connection between the feed inlet that the discharge gate of defeated material casing (31) right side below passes through passage guide and retort (10), install on the right side below position of second mounting bracket (7) retort (10), install agitator motor (26) on the top position of retort (10), the output shaft of agitator motor (26) passes through and rotates between shaft coupling and inside (mixing) shaft (27) of retort (10) to be connected, install stirring fan blade (28) on (mixing) shaft (27).

2. The integrated complete set of equipment for preparing calcium hydroxide according to claim 1, characterized in that: the drying box is characterized in that a drying box (11) is installed at the position below the reaction tank (10), a feeding hole of the drying box (11) is connected with a discharging hole of the reaction tank (10) in a sealing mode through a material guide pipe, an exhaust fan (13) is installed at the position on the left side of the drying box (11), an air inlet of the exhaust fan (13) is connected with an exhaust hole of the calcining furnace (2) in a sealing mode through an air guide pipe, and an air outlet of the exhaust fan (13) is connected with the air inlet of the drying box (11) in a sealing mode through the air guide pipe.

3. The integrated complete set of equipment for preparing calcium hydroxide according to claim 1, characterized in that: install water tank (6) on the right side position of compounding case (8), install on second mounting bracket (7) water tank (6), sealing connection between the water inlet of delivery port through aqueduct and water pump (29) of water tank (6), sealing connection between the water inlet of delivery port through aqueduct and compounding case (8) of water pump (29).

4. The integrated complete set of equipment for preparing calcium hydroxide according to claim 1, characterized in that: install waste pipe (22) on the right side position of hopper (14), the mounted position of waste pipe (22) corresponds with the mounted position of scraper blade (21) inside hopper (14), scraper blade (21) are connected with transfer line (20) one end through hinge (24), the transfer line (20) other end is articulated with hopper (14), scraper blade (21) are kept away from transfer line (20) one end and are passed through the piston rod hinge of hinge (24) with electric jar (23), electric jar (23) are installed on the lateral wall of hopper (14).

5. The integrated complete set of equipment for preparing calcium hydroxide according to claim 1, characterized in that: a controller (12) is installed below the second mounting frame (7), and the controller (12) is electrically connected with the cover opening motor (18) and the material conveying motor (30) respectively.