CN210787604U - Cement finished product homogenization system - Google Patents
Cement finished product homogenization system Download PDFInfo
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- CN210787604U CN210787604U CN201921639290.9U CN201921639290U CN210787604U CN 210787604 U CN210787604 U CN 210787604U CN 201921639290 U CN201921639290 U CN 201921639290U CN 210787604 U CN210787604 U CN 210787604U
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Abstract
The utility model discloses a cement finished product homogenizing system, belonging to the technical field of cement production and processing, the technical scheme is that the device comprises a ball mill and a packaging tank, the ball mill is provided with a plurality of devices, one side of a discharge port of the ball mill is provided with an input device, a homogenizing device and an output device, the input device is communicated with an outlet and a homogenizing device of the ball mill, the output device is communicated with inlets of the homogenizing device and the packaging tank, the homogenizing device comprises a first homogenizing warehouse, a collecting device and a second homogenizing warehouse, the number of the first homogenizing warehouse and the number of the input device are the same as that of the ball mill, the input device is communicated with the inlets of the ball mill and the first homogenizing warehouse, the collecting device is communicated with the outlet of the first homogenizing warehouse and the inlet of the second homogenizing warehouse, the output device is communicated with the outlet of the second homogenizing warehouse and the inlet of the packaging tank, and the.
Description
Technical Field
The utility model relates to a technical field of cement manufacture and processing, in particular to cement finished product homogenization system.
Background
The cement is a powdery hydraulic inorganic gel material, which is mixed with water to form a slurry, and the slurry can be hardened in air or water and can firmly bond sand, stone and other materials together. For a long time, cement is widely applied to engineering such as civil construction, water conservancy, national defense and the like.
The production process of the existing cement mainly comprises crushing, pre-homogenizing, raw material preparation, preheating decomposition, firing, cement grinding and cement packaging. Firstly, crushing cement raw materials such as limestone, clay, iron ore, coal and the like; in the process of storing and taking the raw materials, a scientific material stacking and taking technology is used to preliminarily homogenize the raw materials; mixing limestone raw materials, clay raw materials and a small amount of correction raw materials according to a certain proportion, grinding and blending to obtain raw materials with proper components; the raw materials enter a cyclone preheater to realize preheating and predecomposition; the raw material after preheating decomposition enters a rotary kiln to be burned as clinker; the clinker enters the cement powder grinding and is ground to a proper granularity, a corresponding grain composition is generated, the hydration area is enlarged, the hydration speed is accelerated, and the requirements of setting and hardening of cement paste are met; finally, the product can be transported out of the factory after being packaged.
The above prior art solutions have the following drawbacks: in the continuous production process, the chemical composition and mineral composition of cement have certain fluctuation, and cement components on different production lines can be different, so that the composition of a batch of cement finished products before leaving a factory is greatly different, and the performance of the cement can be influenced.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a cement finished product homogenization system reaches and makes a batch cement product constitute and the more even effect of performance.
The above technical purpose of the present invention can be achieved by the following technical solutions:
the utility model provides a cement finished product homogenization system, including ball mill and packing jar, the ball mill is provided with a plurality of, discharge gate one side of ball mill is provided with input device, homogenization device and output device, the export and the homogenization device of input device intercommunication ball mill, output device intercommunication homogenization device and the entry of packing jar, the homogenization device includes first homogenization storehouse, collect device and second homogenization storehouse, the number of first homogenization storehouse and input device all is the same with the number of ball mill, input device intercommunication ball mill and the entry of first homogenization storehouse, collect the export of device intercommunication first homogenization storehouse and the entry of second homogenization storehouse, output device intercommunication second homogenization storehouse export and the entry of packing jar.
By adopting the technical scheme, after the cement finished product is ground into powder by the ball mill, the powder enters the first homogenizing warehouse through the input device for homogenization, all the mixed cement in the first homogenizing warehouse is gathered together and enters the second homogenizing device for homogenization, and then the cement is conveyed to the packaging tank through the output device for packaging. The first homogenizing warehouse and the second homogenizing warehouse are arranged for batch homogenizing, so that cement finished products are mixed more uniformly, and the cement finished products in each ball mill can be extracted. The homogenizing device uniformly mixes a batch of cement finished products before leaving a factory, so that the cement finished products have more uniform product composition, and the performance of cement is prevented from being influenced.
The utility model discloses further set up to: the input device comprises a first air conveying device and a first hoister, the first air conveying device is communicated with an outlet of the ball mill and an inlet of the first hoister, and an outlet of the first hoister is communicated with an inlet of the first homogenizing bank.
Through adopting above-mentioned technical scheme, because first homogenization storehouse is high too, and the entry setting in first homogenization storehouse is at its top, and it is difficult to directly carry the cement in the ball mill to use first air supply unit simply in first homogenization storehouse, so use first air supply unit earlier and carry the cement in the ball mill to first homogenization storehouse below, the entrance of the first homogenization storehouse is carried with cement to rethread first lifting machine, realizes the transportation process of cement.
The utility model discloses further set up to: first wind send device to include conveyer pipe and baffle, the length direction of conveyer pipe is the same with the length direction of baffle, the baffle level sets up inside the conveyer pipe and separates into pay-off passageway and air supply passageway with the conveyer pipe, the pay-off passageway is located air supply passageway top, air supply passageway passes through baffle and the one-way intercommunication of pay-off passageway, the pay-off passageway one end of first wind send device and the export intercommunication of ball mill, the other end communicates with the entry of first lifting machine, the one end fixedly connected with first air-blower that the air supply passageway of first wind send device is close to the ball mill.
Through adopting above-mentioned technical scheme, cement is carried to the pay-off passageway, and the air supply passageway air feed circulation, and wind energy accessible baffle that first air-blower provided flows to the pay-off passageway from the air supply passageway, and cement can not flow to the air supply passageway from the pay-off passageway through the baffle, and the flow of wind drives cement and flows in the pay-off passageway, carries the cement finished product in the ball mill to first lifting machine to realize the transportation process of cement.
The utility model discloses further set up to: the collecting device comprises a second air conveying device and a second elevator, the number of the second air conveying devices is the same as that of the first homogenizing storehouses, the second air conveying device and the first air conveying device are identical in internal structure and respectively comprise a conveying pipe, a partition plate, a conveying channel and an air supply channel, one end of the conveying channel of the second air conveying device is communicated with an outlet of the first homogenizing storehouses, the other end of the conveying channel is communicated with an inlet of the second elevator, and an outlet of the second elevator is communicated with an inlet of the second homogenizing storehouses.
Through adopting above-mentioned technical scheme, the height of second homogenization storehouse is too high, and the entry setting of second homogenization storehouse is at its top, and the export setting of first homogenization storehouse is in its bottom, only adopt second wind to send the device to be difficult to carry the entry to the second homogenization storehouse with the cement after mixing in the first homogenization storehouse, so use the second wind to send the device all to carry the entrance to the second lifting machine with the cement after mixing in every first homogenization storehouse earlier, the rethread second lifting machine carries the entrance to the second homogenization storehouse with cement, realize the transportation process between first homogenization storehouse and the second homogenization storehouse.
The utility model discloses further set up to: and one end of the air supply channel of the second air supply device, which is close to the first homogenizing chamber, is fixedly connected with a first connecting pipe, and the other end of the first connecting pipe is communicated with one end of the air supply channel of the first air supply device, which is close to the first homogenizing chamber.
Through adopting above-mentioned technical scheme, the wind energy that first air-blower provided gets into first connecting pipe from the one end that first pneumatic conveyor's air supply passageway is close to first lifting machine, gets into the air supply passageway of second pneumatic conveyor through first connecting pipe, provides power for second pneumatic conveyor to carry the cement after will mixing through first homogenization storehouse to the second lifting machine.
The utility model discloses further set up to: the output device comprises a third air conveying device, the third air conveying device and the first air conveying device are identical in internal structure and comprise a conveying pipe, a partition plate, a feeding channel and an air supply channel, one end of the feeding channel of the third air conveying device is communicated with an outlet of the second homogenizing warehouse, the other end of the feeding channel of the third air conveying device is communicated with an inlet of the packaging can, and a second air blower is fixedly connected to one end, close to the second homogenizing warehouse, of the third air conveying device.
Through adopting above-mentioned technical scheme, the second air-blower provides wind energy for third air supply device, and wind gets into the air supply passageway of third air supply device from the air-blower, will transport to the packing jar through the cement after the second homogenization storehouse mixes to realize the transportation process between second homogenization storehouse and the packing jar.
The utility model discloses further set up to: the output device further comprises a spiral conveyor, a metering scale is arranged on the packaging tin, a backflow port is formed in the side face of the packaging tin, an inlet of the spiral conveyor is communicated with the backflow port, and an outlet of the spiral conveyor is communicated with a feeding channel of the third pneumatic conveying device.
Through adopting above-mentioned technical scheme, need measure cement before the packing that dispatches from the factory, unnecessary cement flows back to the third pneumatic conveying device in through screw conveyer during the measurement, forms the closed loop of measurement process, avoids causing the waste of cement.
The utility model discloses further set up to: and one end of an air supply channel of the third air supply device, which is close to the packaging tin, is fixedly connected with a second connecting pipe, the other end of the second connecting pipe is positioned on one side of the ball mill in the length direction, and the pipe orifice of the second connecting pipe is vertical to the length direction of the ball mill.
Through adopting above-mentioned technical scheme, the wind energy that the second air-blower provided is carried cement to packing jar after through the air supply passageway of third pneumatic conveyor, and unnecessary wind gets into the second connecting pipe, reachs one side of ball mill through the second connecting pipe to blow on the ball mill, cool down the ball mill, make the cement finished product that the ball mill ground out more even, and realized the recycle of wind energy, practiced thrift the energy.
The utility model discloses further set up to: horizontal containing grooves are formed in the side faces of outlets of the first homogenizing chamber and the second homogenizing chamber, baffle plates matched with the containing grooves are inserted into the containing grooves, and air cylinders are horizontally fixed on one side, close to the notches of the containing grooves, of the baffle plates.
Through adopting above-mentioned technical scheme, the flexible steerable baffle of cylinder is at storage tank internal horizontal slip, controls ejection of compact speed through the export size of controlling first homogenization storehouse and second homogenization storehouse, plays the control action to the production process in first homogenization storehouse and second homogenization storehouse.
To sum up, the utility model discloses a beneficial technological effect does:
1. the cement finished products are mixed again before leaving the factory by arranging the homogenizing device, so that the cement finished products have more uniform product composition, and the performance of the cement is prevented from being influenced;
2. the spiral conveyor is arranged to enable the excess cement to return to the feeding channel of the third air conveying device again during metering, so that a closed loop of the metering process is formed, and the waste of cement is avoided;
3. a second connecting pipe is arranged at one end, close to the packaging can, of an air supply channel of the third air supply device and is communicated to one side of the ball mill, so that wind energy is fully utilized, waste of the wind energy is avoided, and meanwhile, the ball mill is cooled, so that the ball mill is more uniform in discharging;
4. the discharging speed of the first homogenizing device and the second homogenizing device is controlled by matching the accommodating groove and the baffle plate, so that different production working conditions are adapted.
Drawings
FIG. 1 is a schematic structural diagram of a cement product homogenizing system of the present invention;
FIG. 2 is a partial schematic view for showing an input device;
FIG. 3 is a partial schematic view for showing the internal structure of the first air-moving device;
FIG. 4 is a partial schematic view for showing the pooling device;
FIG. 5 is a partial schematic view for showing an output device;
FIG. 6 is a partial schematic view for illustrating a baffle;
fig. 7 is a partial schematic view for showing the scale.
In the figure, 1, a ball mill; 2. an input device; 21. a first air-conveying device; 211. a delivery pipe; 212. a partition plate; 213. a feed channel; 214. an air supply channel; 22. a first hoist; 3. a homogenizing device; 31. a first homogenization silo; 311. a containing groove; 312. a baffle plate; 313. a cylinder; 32. a collection device; 321. a second air supply device; 322. a second hoist; 33. a second homogenization silo; 4. an output device; 41. a third air supply device; 42. a screw conveyor; 5. packaging can; 51. weighing; 52. a return port; 6. a first blower; 7. a second blower; 8. a first connecting pipe; 9. a second connecting pipe.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings.
Referring to fig. 1, a cement finished product homogenizing system comprises a ball mill 1, an input device 2, a homogenizing device 3, an output device 4 and a packaging can 5, wherein the input device 8 is provided with the device 2 to communicate the ball mill 1 with the homogenizing device 3, and the output device 4 is provided with the homogenizing device 3 with the packaging can 5.
Referring to fig. 1, two ball mills 1 are arranged in parallel, and the ball mills 1 are horizontally fixed on the ground. The input device 2 is provided with two, and the input device 2 comprises a first air supply device 21 and a first hoisting machine 22.
Referring to fig. 2 and 3, the first air supply device 21 includes a delivery pipe 211 and a partition 212, the length direction of the delivery pipe 211 is the same as the length direction of the partition 212, the partition 212 is horizontally disposed inside the delivery pipe 211 and divides the delivery pipe 211 into a feed passage 213 and an air supply passage 214, the feed passage 213 is located above the air supply passage 214, and the air supply passage 214 is in one-way communication with the feed passage 213 through the partition 212. One end of a feeding channel 213 of the first air supply device 21 is communicated with an outlet of the ball mill 1, the other end is communicated with an inlet of the first elevator 22, the inlet of the first elevator 22 is communicated with the homogenizing device 3, one end of an air supply channel 214 of the first air supply device 21, which is close to the ball mill 1, is provided with a first air blower 6, and the first air blower 6 is fixedly arranged on the ground.
The cement finished product in the ball mill 1 enters the feeding channel 213 of the first air supply device 21, the first air blower 6 provides wind energy for the air supply channel 214 of the first air supply device 21, the wind can enter the feeding channel 213 from the air supply channel 214 through the partition plate 212, so that the cement finished product is driven to flow in the feeding channel 213 of the first air supply device 21 and is conveyed to the inlet of the first lifting machine 22, the first lifting machine 22 conveys the cement to the homogenizing device 3, and the conveying process of the cement from the ball mill 1 to the homogenizing device 3 is realized. The cement can not enter the air supply channel 214 from the feeding channel 213 through the partition plate 212, so that the flowing of the air is not influenced, and the power can be continuously provided for the cement conveying.
Referring to fig. 4, the homogenizing apparatus 3 includes a first homogenizing silo 31, a pooling device 32 and a second homogenizing silo 33, the first homogenizing silo 31 and the second homogenizing silo 33 are fixedly disposed on the ground, the first homogenizing silo 31 is provided with two, an inlet of the first homogenizing silo 31 communicates with an outlet of the first elevator 22, the pooling device 32 communicates an outlet of the first homogenizing silo 31 with an inlet of the second homogenizing silo 33, and an outlet of the second homogenizing silo 33 communicates with the output device 4.
Referring to fig. 4 and 6, inlets of the first homogenizing silo 31 and the second homogenizing silo 33 are both arranged at the top end, an outlet is arranged at the bottom end, a horizontal containing groove 311 is formed in one side of the outlet ends of the first homogenizing silo 31 and the second homogenizing silo 33, the containing groove 311 is respectively communicated with the outlets of the first homogenizing silo 31 and the second homogenizing silo 33, a baffle 312 matched with the containing groove 311 is arranged in the containing groove 311, an air cylinder 313 is fixedly connected to one end, close to the notch of the containing groove 311, of the baffle 312, and the air cylinder 313 is relatively fixed with the ground.
Referring to fig. 3 and 4, the pooling device 32 includes two second air-sending devices 321 and two second hoists 322, and the second hoists 322 are disposed at a side of the second homogenizing silo 33 adjacent to the first homogenizing silo 31. The second air supply device 321 has the same structure as the internal structure of the first air supply device 21, and includes a delivery pipe 211 and a partition 212, and the partition 212 horizontally partitions the delivery pipe 211 into a feed passage 213 and an air supply passage 214. One end of the feeding channel 213 of the second air supply device 321 is communicated with the outlet of the first homogenizing silo 31, the other end is communicated with the inlet of the second hoisting machine 322, the outlet of the second hoisting machine 322 is communicated with the inlet of the second homogenizing silo 33, one end of the air supply channel 214 of the second air supply device 321 close to the first homogenizing silo 31 is fixedly communicated with a first connecting pipe 8, and the other end of the first connecting pipe 8 is communicated with one end of the air supply channel 214 of the first air supply device 21 close to the first homogenizing silo 31.
The first homogenizing silo 31 mixes the cement products in each ball mill 1, and conveys the cement products from the outlet of the first homogenizing silo 31 to the feeding channel 213 of the second air supply device 321, the wind energy provided by the first blower 6 flows through the air supply channel 214 of the first air supply device 21 and the first connecting pipe 8 and enters the air supply channel 214 of the second air supply device 321, so as to drive the cement products to flow in the feeding channel 213 of the second air supply device 321 and convey the cement products to the inlet of the second hoister 322, the second hoister 322 conveys the cement vertically upwards to the inlet of the second homogenizing silo 33 and enters the second homogenizing silo 33 to mix all the cement, and the composition and performance of the cement products before leaving the factory are more uniform.
Referring to fig. 3 and 5, the output device 4 includes a third air supply device 41 and a screw conveyor 42, a scale 51 is provided in the packaging can 5, the third air supply device 41 has the same internal structure as the first air supply device 21, and includes a delivery pipe 211 and a partition 212, and the partition 212 horizontally divides the delivery pipe 211 into a feed channel 213 and an air supply channel 214. One end of a feeding channel 213 of the third air supply device 41 is communicated with an outlet of the second homogenizing warehouse 33, the other end of the feeding channel is communicated with an inlet of the packaging can 5, one end, close to the second homogenizing warehouse 33, of an air supply channel 214 of the third air supply device 41 is fixedly communicated with a second air blower 7, the second air blower 7 is fixedly arranged on the ground, one end, close to the packaging can 5, of the air supply channel 214 of the third air supply device 41 is fixedly communicated with a second connecting pipe 9, the other end of the second connecting pipe 9 is located on one side of the ball mill 1 in the length direction, and a pipe orifice, close to one end of the ball mill 1, of the second connecting pipe 9 is perpendicular to.
Referring to fig. 5 and 7, a return opening 52 is provided on the side surface of the packaging can 5, the inlet of the screw conveyor 42 is communicated with the return opening 52, and the outlet of the screw conveyor 42 is communicated with the feeding channel 213 of the third air supply device 41. During metering, redundant cement enters the screw conveyor 42 from the return port 52 and is conveyed into the feeding channel 213 of the third air conveying device 41, so that a closed loop in the metering process is formed, and waste of the cement is avoided.
After the cement is homogenized by the second homogenizing silo 33, the cement enters the feeding channel 213 of the third air supply device 41, and the wind energy provided by the second air blower 7 enters the air supply channel 214 of the third air supply device 41, so that the cement finished product is driven to flow in the feeding channel 213 of the third air supply device 41 and is conveyed to the inlet of the packaging can 5, and the conveying process of the cement from the homogenizing device 3 to the packaging can 5 is realized.
After the wind energy provided by the second air blower 7 enters the air supply channel 214 of the third air supply device 41 and conveys the cement to the packaging can 5, the redundant wind flows to one side of the ball mill 1 along the second connecting pipe 9 and flows to the surface of the ball mill 1 vertically, so that the ball mill 1 is cooled, the wind energy is recycled, and the waste of the wind energy is avoided.
The implementation principle of the embodiment is as follows: the cement product in the ball mill 1 enters the feeding channel 213 of the first air supply device 21, the first blower 6 provides wind energy to the air supply channel 214 of the first air supply device 21, the wind drives the cement product to flow in the feeding channel 213 of the first air supply device 21 and is conveyed to the inlet of the first elevator 22, the first elevator 22 conveys the cement to the first homogenizing silo 31, the first homogenizing silo 31 mixes the cement product in the ball mill 1 and conveys the cement product from the outlet of the first homogenizing silo 31 to the feeding channel 213 of the second air supply device 321, the wind energy provided by the first blower 6 flows through the air supply channel 214 of the first air supply device 21 and the first connecting pipe 8 to enter the air supply channel 214 of the second air supply device 321, so as to drive the cement product to flow in the feeding channel 213 of the second air supply device 321 and is conveyed to the inlet of the second elevator 322, the second elevator 322 conveys the cement vertically upwards to the second homogenizing silo 33, the second homogenizing silo 33 mixes all the cement, the cement enters the feeding channel 213 of the third air supply device 41 from the outlet of the second homogenizing silo 33, the wind energy provided by the second air blower 7 enters the air supply channel 214 of the third air supply device 41, and therefore the cement finished products are driven to flow in the feeding channel 213 of the third air supply device 41 and are conveyed to the packaging tank 5 for metering, and the conveying process of the whole homogenizing system is completed. During metering, the excess cement is conveyed into the feeding channel 213 of the third pneumatic conveying device 41 through the screw conveyer 42 to form a closed loop in the metering process, so that the waste of the cement is avoided. After the air energy entering the air supply channel 214 of the third air supply device 41 conveys the cement to the metering pump, the cement flows to one side of the ball mill 1 along the third connecting pipe and vertically flows to the surface of the ball mill 1, so that the temperature of the ball mill 1 is reduced.
The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.
Claims (9)
1. The utility model provides a cement finished product homogenization system, includes ball mill (1) and packing jar (5), ball mill (1) is provided with a plurality of, its characterized in that: the automatic packaging device is characterized in that an input device (2), a homogenizing device (3) and an output device (4) are arranged on one side of a discharge port of the ball mill (1), the input device (2) is communicated with an outlet of the ball mill (1) and the homogenizing device (3), the output device (4) is communicated with inlets of the homogenizing device (3) and the packaging tin (5), the homogenizing device (3) comprises a first homogenizing warehouse (31), a collecting device (32) and a second homogenizing warehouse (33), the number of the first homogenizing warehouse (31) and the number of the input device (2) are the same as that of the ball mill (1), the input device (2) is communicated with inlets of the ball mill (1) and the first homogenizing warehouse (31), the collecting device (32) is communicated with an outlet of the first homogenizing warehouse (31) and an inlet of the second homogenizing warehouse (33), and the output device (4) is communicated with an outlet of the second homogenizing warehouse (33) and an inlet of the packaging tin.
2. A cement product homogenizing system as claimed in claim 1 wherein: the input device (2) comprises a first air supply device (21) and a first lifting machine (22), the first air supply device (21) is communicated with an outlet of the ball mill (1) and an inlet of the first lifting machine (22), and an outlet of the first lifting machine (22) is communicated with an inlet of the first homogenizing bank (31).
3. A cement product homogenizing system as claimed in claim 2 wherein: the first air supply device (21) comprises a conveying pipe (211) and a partition plate (212), the length direction of the conveying pipe (211) is the same as that of the partition plate (212), the partition plate (212) is horizontally arranged inside the conveying pipe (211) and divides the conveying pipe (211) into a feeding channel (213) and an air supply channel (214), the feeding channel (213) is located above the air supply channel (214), the air supply channel (214) is communicated with the feeding channel (213) in a one-way mode through the partition plate (212), one end of the feeding channel (213) of the first air supply device (21) is communicated with an outlet of the ball mill (1), the other end of the feeding channel (213) of the first air supply device (21) is communicated with an inlet of a first lifting machine (22), and one end, close to the ball mill (1), of the air supply channel (214) of the first air.
4. A cement product homogenizing system as claimed in claim 3 wherein: the collecting device (32) comprises second air conveying devices (321) and a second lifting machine (322), the number of the second air conveying devices (321) is the same as that of the first homogenizing storehouses (31), the internal structures of the second air conveying devices (321) and the first air conveying devices (21) are the same, the second air conveying devices and the first air conveying devices all comprise material conveying pipes, partition plates (212), material conveying channels (213) and air supply channels (214), one ends of the material conveying channels (213) of the second air conveying devices (321) are communicated with outlets of the first homogenizing storehouses (31), the other ends of the material conveying channels are communicated with inlets of the second lifting machine (322), and outlets of the second lifting machine (322) are communicated with inlets of the second homogenizing storehouses (33).
5. A cement product homogenizing system according to claim 4, characterized in that: one end, close to the first homogenizing bank (31), of an air supply channel (214) of the second air supply device (321) is fixedly connected with a first connecting pipe (8), and the other end of the first connecting pipe (8) is communicated with one end, close to the first homogenizing bank (31), of the air supply channel (214) of the first air supply device (21).
6. A cement product homogenizing system as claimed in claim 3 wherein: the output device (4) comprises a third air conveying device (41), the third air conveying device (41) and the first air conveying device (21) are identical in internal structure and comprise a material conveying pipe, a partition plate (212), a material conveying channel (213) and an air supply channel (214), one end of the material conveying channel (213) of the third air conveying device (41) is communicated with an outlet of the second homogenizing warehouse (33), the other end of the material conveying channel is communicated with an inlet of the packaging can (5), and one end, close to the second homogenizing warehouse (33), of the third air conveying device (41) is fixedly connected with a second air blower (7).
7. A cement product homogenizing system according to claim 6, characterized in that: the output device (4) further comprises a spiral conveyor (42), a weighing scale (51) is arranged on the packaging can (5), a return opening (52) is formed in the side face of the packaging can (5), an inlet of the spiral conveyor (42) is communicated with the return opening (52), and an outlet of the spiral conveyor (42) is communicated with a feeding channel (213) of the third air conveying device (41).
8. A cement product homogenizing system according to claim 6, characterized in that: and an air supply channel (214) of the third air supply device (41) is fixedly connected with a second connecting pipe (9) at one end close to the packaging can (5), the other end of the second connecting pipe (9) is positioned on one side of the length direction of the ball mill (1), and the pipe orifice of the second connecting pipe (9) is vertical to the length direction of the ball mill (1).
9. A cement product homogenizing system as claimed in claim 1 wherein: horizontal containing grooves (311) are formed in the side faces of outlets of the first homogenizing silo (31) and the second homogenizing silo (33), a baffle plate (312) matched with the containing grooves (311) is inserted into the containing grooves (311), and an air cylinder (313) is horizontally fixed on one side, close to a notch of the containing grooves (311), of the baffle plate (312).
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CN201921639290.9U CN210787604U (en) | 2019-09-28 | 2019-09-28 | Cement finished product homogenization system |
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CN201921639290.9U CN210787604U (en) | 2019-09-28 | 2019-09-28 | Cement finished product homogenization system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113713645A (en) * | 2021-09-09 | 2021-11-30 | 宁波铧洲科技有限公司 | Machine for producing high-concentration hypochlorous acid water |
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2019
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113713645A (en) * | 2021-09-09 | 2021-11-30 | 宁波铧洲科技有限公司 | Machine for producing high-concentration hypochlorous acid water |
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