CN220886171U - Calcium oxide feeding system - Google Patents

Abstract

The utility model discloses a calcium oxide feeding system. The technical problems of high cost caused by forklift maintenance, forklift oil consumption and wages of a forklift and low feeding efficiency are solved. The utility model comprises a plurality of electric vibrators connected from a raw material bin, and a conveying mechanism connected from the electric vibrators and connected to a feeding bin of a calcium oxide production line; the calcium oxide production line has many, and conveying mechanism includes the material conveying belt A that is located under the electric vibrator, and the promotion material conveying belt that connects from material conveying belt A to and from promoting material conveying belt and with every calcium oxide production line feeding bin butt joint's feed division conveying mechanism. The utility model has simple structure, scientific and reasonable design and convenient use, and can effectively reduce the labor intensity of workers and reduce the occurrence of feeding errors caused by human errors. Meanwhile, the feeding efficiency can be effectively improved, the feeding cost is reduced, and the influence on the ambient air in the feeding process can be effectively reduced.

Description

Calcium oxide feeding system

Technical Field

The utility model belongs to the technical field of calcium oxide production equipment, and particularly relates to a calcium oxide feeding system.

Background

The calcium oxide production line, the production line equipment of calcined lime, the front-end of the calcium oxide production line is provided with a feeding system, and the traditional calcium oxide production line feeding system generally goes to and from a raw material bin and the calcium oxide production line through a forklift to convey and add materials in a material bin into the calcium oxide production line. Compared with the early manual conveying and feeding, the efficiency and the safety are improved, but with the expansion of the production scale of manufacturers and the improvement of the environmental sanitation requirement of factories, the method of conveying and feeding by adopting a forklift cannot adapt to the requirement of large-scale industrial production of calcium oxide. At present, the method at least has the following defects: the forklift runs back and forth in the front field, sediment on tires splashes everywhere to cause environmental sanitation to become bad, black smoke can be emitted from an exhaust pipe in the operation process of the forklift, and the influence of the black smoke on the environmental air is large. In the process of conveying and feeding, the forklift can continuously generate oil consumption and maintenance cost of the forklift, and the wages of forklift operation workers are increased, so that the feeding cost of the calcium oxide production line is high.

Disclosure of utility model

The utility model aims to solve the technical problems that: provides a calcium oxide feeding system to at least solve the above part of technical problems.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

The calcium oxide feeding system comprises a plurality of electric vibrators connected from a raw material bin, and a conveying mechanism connected from the electric vibrators and connected to a feeding bin of a calcium oxide production line; the calcium oxide production line has many, and conveying mechanism includes the material conveying belt A that is located under the electric vibrator, and the promotion material conveying belt that connects from material conveying belt A to and from promoting material conveying belt and with every calcium oxide production line feeding bin butt joint's feed division conveying mechanism.

Further, the device also comprises a material conveying belt B which is connected to the material conveying belt A in an out-connection manner and is connected to the lifting material conveying belt.

Further, a plurality of electric vibrators connected from the raw material bin are arranged right above the material conveying belt B.

Further, belt scales are arranged on the material conveying belt A, the material conveying belt B and the lifting material conveying belt.

Further, the material distributing and conveying mechanism comprises a Y-shaped shunt pipe, the Y-shaped shunt pipe comprises a feeding hole and two discharging holes, the feeding hole of the Y-shaped shunt pipe is in butt joint with the discharging hole of the lifting conveying belt, and the discharging hole of the Y-shaped shunt pipe is in butt joint with the feeding bin of the calcium oxide production line.

Further, at least two Y-shaped shunt pipes are connected in multiple stages, one discharge port of the Y-shaped shunt pipe at the upper stage is butted with a feed bin on a calcium oxide production line, the other discharge port is butted with a feed port of the Y-shaped shunt pipe at the lower stage, and the two discharge ports of the Y-shaped shunt pipe at the last stage are respectively butted with the feed bin on the calcium oxide production line.

Further, a material conveying belt C is arranged between the Y-shaped shunt tube discharge port and the corresponding calcium oxide production line upper bin, and the Y-shaped shunt tube discharge port is in butt joint with the corresponding calcium oxide production line upper bin through the material conveying belt C; the conveying belt C is provided with a belt scale.

Further, the Y-shaped shunt tubes comprise a feeding pipe and two discharging pipes connected with the feeding pipe respectively, the feeding hole is formed in the feeding pipe, one discharging hole is formed in each discharging pipe, and a shunt mechanism for opening and closing the discharging pipes is arranged on each discharging pipe.

Further, the diversion mechanism comprises a socket arranged on the discharge pipe and a plugboard inserted in the socket, and the discharge pipe is provided with an electric push rod; the discharging pipe is a rectangular square pipe, and the plugboard is connected with the electric push rod.

Further, a belt scale is arranged on the material conveying belt C.

Compared with the prior art, the utility model has the following beneficial effects:

1. the pollution of the forklift to the environment is reduced;

2. The feeding system is used for maintaining the maintenance of the oil consumption of the forklift and reducing the cost increased by the wages of the forklift workers;

3. The feeding efficiency is improved.

The utility model has simple structure, scientific and reasonable design and convenient use, and can effectively reduce the labor intensity of workers and reduce the occurrence of feeding errors caused by human errors. Meanwhile, the feeding efficiency can be effectively improved, the feeding cost is reduced, and the influence on the ambient air in the feeding process can be effectively reduced.

Drawings

Fig. 1 is a schematic structural diagram of a loading platform according to the present utility model.

Fig. 2 is a schematic view of a Y-shaped shunt tube according to the present utility model.

FIG. 3 is a schematic view of the tapping pipe structure of FIG. 2.

FIG. 4 is a schematic view of the socket structure of the tapping pipe of FIG. 3.

Wherein, the names corresponding to the reference numerals are:

1-a raw material bin; 2-an electric vibrator; feeding a 3-calcium oxide production line into a bin; 4-a material conveying belt A; 5-lifting a material conveying belt; 6, a material conveying belt B; 7-a belt scale; 8-Y-shaped shunt tubes; 9-a material conveying belt C; 10-feeding pipe; 11-a discharge pipe; 12-socket; 13-inserting plates; 14-electric push rod.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation or be constructed and operated in a specific orientation, and thus they should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; of course, it may be mechanically or electrically connected; in addition, the connection may be direct, indirect via an intermediate medium, or communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Example 1

As shown in fig. 1-4, the calcium oxide feeding system provided by the utility model comprises a plurality of electric vibrators 2 connected from a raw material bin 1, and a conveying mechanism connected from the electric vibrators 2 and connected to a material bin 3 on a calcium oxide production line; the calcium oxide production line has many, and conveying mechanism includes the conveying belt A4 that is located under the electric vibrator 2, and the promotion conveying belt 5 that connects from conveying belt A4 to and the feed divider conveying mechanism that connects from promotion conveying belt 5 and dock with every calcium oxide production line feeding bin 3.

The utility model has simple structure, scientific and reasonable design and convenient use, and can effectively reduce the labor intensity of workers and reduce the occurrence of feeding errors caused by human errors. Meanwhile, the feeding efficiency can be effectively improved, the feeding cost is reduced, and the influence on the ambient air in the feeding process can be effectively reduced.

Example 2

As shown in fig. 1-4, the calcium oxide feeding system provided by the utility model comprises a plurality of electric vibrators 2 connected from a raw material bin 1, and a conveying mechanism connected from the electric vibrators 2 and connected to a material bin 3 on a calcium oxide production line; the calcium oxide production line has many, and conveying mechanism includes the conveying belt A4 that is located under the electric vibrator 2, and the promotion conveying belt 5 that connects from conveying belt A4 to and the feed divider conveying mechanism that connects from promotion conveying belt 5 and dock with every calcium oxide production line feeding bin 3. And a material conveying belt B6 which is connected to the material conveying belt A4 and connected to the lifting material conveying belt 5.

In this embodiment 2, on the basis of embodiment 1, a more preferable structure of the calcium oxide feeding system is provided, specifically: and a material conveying belt B6 which is connected to the material conveying belt A4 and connected to the lifting material conveying belt 5. Through addding material conveying belt B6, can make the material conveying step journey longer to be applicable to the material loading of more calcium oxide production lines.

Example 3

As shown in fig. 1-4, the calcium oxide feeding system provided by the utility model comprises a plurality of electric vibrators 2 connected from a raw material bin 1, and a conveying mechanism connected from the electric vibrators 2 and connected to a material bin 3 on a calcium oxide production line; the calcium oxide production line has many, and conveying mechanism includes the conveying belt A4 that is located under the electric vibrator 2, and the promotion conveying belt 5 that connects from conveying belt A4 to and the feed divider conveying mechanism that connects from promotion conveying belt 5 and dock with every calcium oxide production line feeding bin 3. And a material conveying belt B6 which is connected to the material conveying belt A4 and connected to the lifting material conveying belt 5. A plurality of electric vibrators 2 connected from the raw material bin 1 are arranged right above the material conveying belt B6.

In this embodiment 3, on the basis of embodiment 2, a more preferable structure of the calcium oxide feeding system is provided, specifically: a plurality of electric vibrators 2 connected from the raw material bin 1 are arranged right above the material conveying belt B6. Through addding electric vibrator 2, can effectively improve former feed bin 1's ejection of compact efficiency to can satisfy the material loading of more calcium oxide production lines, and then can realize calcium oxide mass production.

Example 4

As shown in fig. 1-4, the calcium oxide feeding system provided by the utility model comprises a plurality of electric vibrators 2 connected from a raw material bin 1, and a conveying mechanism connected from the electric vibrators 2 and connected to a material bin 3 on a calcium oxide production line; the calcium oxide production line has many, and conveying mechanism includes the conveying belt A4 that is located under the electric vibrator 2, and the promotion conveying belt 5 that connects from conveying belt A4 to and the feed divider conveying mechanism that connects from promotion conveying belt 5 and dock with every calcium oxide production line feeding bin 3. And a material conveying belt B6 which is connected to the material conveying belt A4 and connected to the lifting material conveying belt 5. A plurality of electric vibrators 2 connected from the raw material bin 1 are arranged right above the material conveying belt B6. The conveying belt A4, the conveying belt B6 and the lifting conveying belt 5 are respectively provided with a belt scale 7.

In this embodiment 4, on the basis of embodiment 3, a more preferable structure of the calcium oxide feeding system is provided, specifically: the conveying belt A4, the conveying belt B6 and the lifting conveying belt 5 are respectively provided with a belt scale 7. Through addding belt weigher 7, can realize the ration and be calcium oxide production line material loading, make the material loading more accurate, avoid extravagant material, can also reduce manual operation, avoid the human error and reduce manufacturing cost.

Example 5

As shown in fig. 1-4, the calcium oxide feeding system provided by the utility model comprises a plurality of electric vibrators 2 connected from a raw material bin 1, and a conveying mechanism connected from the electric vibrators 2 and connected to a material bin 3 on a calcium oxide production line; the calcium oxide production line has many, and conveying mechanism includes the conveying belt A4 that is located under the electric vibrator 2, and the promotion conveying belt 5 that connects from conveying belt A4 to and the feed divider conveying mechanism that connects from promotion conveying belt 5 and dock with every calcium oxide production line feeding bin 3. The material distributing and conveying mechanism comprises a Y-shaped shunt pipe 8, the Y-shaped shunt pipe 8 comprises a feeding hole and two discharging holes, the feeding hole of the Y-shaped shunt pipe 8 is in butt joint with the discharging hole of the lifting conveying belt 5, and the discharging hole of the Y-shaped shunt pipe 8 is in butt joint with the feeding bin 3 of the calcium oxide production line.

In this embodiment 5, on the basis of embodiment 1, a more preferable structure of the material-distributing and conveying mechanism is given, specifically: the material distributing and conveying mechanism comprises a Y-shaped shunt pipe 8, the Y-shaped shunt pipe 8 comprises a feeding hole and two discharging holes, the feeding hole of the Y-shaped shunt pipe 8 is in butt joint with the discharging hole of the lifting conveying belt 5, and the discharging hole of the Y-shaped shunt pipe 8 is in butt joint with the feeding bin 3 of the calcium oxide production line. Through addding branch material conveying mechanism, make every calcium oxide production line go up the calcium oxide that feed bin 3 can receive and not surpass maximum bearing capacity, effectively alleviate the transportation burden.

Example 6

As shown in fig. 1-4, the calcium oxide feeding system provided by the utility model comprises a plurality of electric vibrators 2 connected from a raw material bin 1, and a conveying mechanism connected from the electric vibrators 2 and connected to a material bin 3 on a calcium oxide production line; the calcium oxide production line has many, and conveying mechanism includes the conveying belt A4 that is located under the electric vibrator 2, and the promotion conveying belt 5 that connects from conveying belt A4 to and the feed divider conveying mechanism that connects from promotion conveying belt 5 and dock with every calcium oxide production line feeding bin 3. The material distributing and conveying mechanism comprises a Y-shaped shunt pipe 8, the Y-shaped shunt pipe 8 comprises a feeding hole and two discharging holes, the feeding hole of the Y-shaped shunt pipe 8 is in butt joint with the discharging hole of the lifting conveying belt 5, and the discharging hole of the Y-shaped shunt pipe 8 is in butt joint with the feeding bin 3 of the calcium oxide production line.

In this embodiment 6, on the basis of embodiment 5, a more preferable structure of the material-distributing and conveying mechanism is given, specifically: at least two Y-shaped shunt pipes 8 are arranged, the Y-shaped shunt pipes 8 are connected in multiple stages, one discharge port of the Y-shaped shunt pipe 8 at the upper stage is butted with the upper bin 3 of the calcium oxide production line, the other discharge port is butted with the feed port of the Y-shaped shunt pipe 8 at the lower stage, and the two discharge ports of the Y-shaped shunt pipe 8 at the last stage are respectively butted with the upper bin 3 of the calcium oxide production line. Through the Y-shaped shunt tube 8 additionally arranged, the discharging speed is further slowed down, and the receiving pressure of the storage bin 3 on the calcium oxide production line is greatly reduced.

Example 7

As shown in fig. 1-4, the calcium oxide feeding system provided by the utility model comprises a plurality of electric vibrators 2 connected from a raw material bin 1, and a conveying mechanism connected from the electric vibrators 2 and connected to a material bin 3 on a calcium oxide production line; the calcium oxide production line has many, and conveying mechanism includes the conveying belt A4 that is located under the electric vibrator 2, and the promotion conveying belt 5 that connects from conveying belt A4 to and the feed divider conveying mechanism that connects from promotion conveying belt 5 and dock with every calcium oxide production line feeding bin 3. The material distributing and conveying mechanism comprises a Y-shaped shunt pipe 8, the Y-shaped shunt pipe 8 comprises a feeding hole and two discharging holes, the feeding hole of the Y-shaped shunt pipe 8 is in butt joint with the discharging hole of the lifting conveying belt 5, and the discharging hole of the Y-shaped shunt pipe 8 is in butt joint with the feeding bin 3 of the calcium oxide production line. A material conveying belt C9 is arranged between the discharge port of the Y-shaped shunt pipe 8 and the material feeding bin 3 of the corresponding calcium oxide production line, and the discharge port of the Y-shaped shunt pipe 8 is in butt joint with the material feeding bin 3 of the corresponding calcium oxide production line through the material conveying belt C9.

In this embodiment 7, on the basis of embodiment 6, a more preferable structure of the material-distributing and conveying mechanism is provided, specifically: a material conveying belt C9 is arranged between the discharge port of the Y-shaped shunt pipe 8 and the material feeding bin 3 of the corresponding calcium oxide production line, and the discharge port of the Y-shaped shunt pipe 8 is in butt joint with the material feeding bin 3 of the corresponding calcium oxide production line through the material conveying belt C9. The material conveying belt C9 is additionally arranged to further buffer between the discharge port of the Y-shaped shunt pipe 8 and the material bin 3 on the corresponding calcium oxide production line, so that the material loading of more calcium oxide production lines is facilitated.

Example 8

As shown in fig. 1-4, the calcium oxide feeding system provided by the utility model comprises a plurality of electric vibrators 2 connected from a raw material bin 1, and a conveying mechanism connected from the electric vibrators 2 and connected to a material bin 3 on a calcium oxide production line; the calcium oxide production line has many, and conveying mechanism includes the conveying belt A4 that is located under the electric vibrator 2, and the promotion conveying belt 5 that connects from conveying belt A4 to and the feed divider conveying mechanism that connects from promotion conveying belt 5 and dock with every calcium oxide production line feeding bin 3. The material distributing and conveying mechanism comprises a Y-shaped shunt pipe 8, the Y-shaped shunt pipe 8 comprises a feeding hole and two discharging holes, the feeding hole of the Y-shaped shunt pipe 8 is in butt joint with the discharging hole of the lifting conveying belt 5, and the discharging hole of the Y-shaped shunt pipe 8 is in butt joint with the feeding bin 3 of the calcium oxide production line. The Y-shaped shunt tube 8 comprises a feeding tube 10 and two discharging tubes 11 connected with the feeding tube 10 respectively, wherein a feeding hole is formed in the feeding tube 10, each discharging tube 11 is provided with a discharging hole, and the discharging tube 11 is provided with a shunt mechanism for opening and closing the discharging tube 11.

In this embodiment 8, on the basis of embodiment 5, a more preferable structure of the material-distributing and conveying mechanism is provided, specifically: the Y-shaped shunt tube 8 comprises a feeding tube 10 and two discharging tubes 11 connected with the feeding tube 10 respectively, wherein a feeding hole is formed in the feeding tube 10, each discharging tube 11 is provided with a discharging hole, and the discharging tube 11 is provided with a shunt mechanism for opening and closing the discharging tube 11. Through the additional diversion mechanism for opening and closing the discharging pipe 11, when the calcium oxide conveyed by the conveying belt C9 reaches a negative point or the storage bin 3 on the calcium oxide production line is temporarily filled, the Y-shaped diversion pipe 8 can be timely closed to convey the calcium oxide to the storage bin 3 on the other calcium oxide production line or stop conveying, so that the conveying pressure is reduced.

Example 9

As shown in fig. 1-4, the calcium oxide feeding system provided by the utility model comprises a plurality of electric vibrators 2 connected from a raw material bin 1, and a conveying mechanism connected from the electric vibrators 2 and connected to a material bin 3 on a calcium oxide production line; the calcium oxide production line has many, and conveying mechanism includes the conveying belt A4 that is located under the electric vibrator 2, and the promotion conveying belt 5 that connects from conveying belt A4 to and the feed divider conveying mechanism that connects from promotion conveying belt 5 and dock with every calcium oxide production line feeding bin 3. The material distributing and conveying mechanism comprises a Y-shaped shunt pipe 8, the Y-shaped shunt pipe 8 comprises a feeding hole and two discharging holes, the feeding hole of the Y-shaped shunt pipe 8 is in butt joint with the discharging hole of the lifting conveying belt 5, and the discharging hole of the Y-shaped shunt pipe 8 is in butt joint with the feeding bin 3 of the calcium oxide production line. The Y-shaped shunt tube 8 comprises a feeding tube 10 and two discharging tubes 11 connected with the feeding tube 10 respectively, wherein a feeding hole is formed in the feeding tube 10, each discharging tube 11 is provided with a discharging hole, and the discharging tube 11 is provided with a shunt mechanism for opening and closing the discharging tube 11. The diversion mechanism comprises a socket 12 arranged on the discharge pipe 11 and a plugboard 13 inserted in the socket 12, and an electric push rod 14 is arranged on the discharge pipe 11; the discharging pipe 11 is a rectangular square pipe, and the plugboard 13 is connected with the electric push rod 14.

In this embodiment 9, on the basis of embodiment 8, a more preferable structure of the material-distributing and conveying mechanism is given, specifically: the diversion mechanism comprises a socket 12 arranged on the discharge pipe 11 and a plugboard 13 inserted in the socket 12, and an electric push rod 14 is arranged on the discharge pipe 11; the discharging pipe 11 is a rectangular square pipe, and the plugboard 13 is connected with the electric push rod 14. The opening and closing of the discharge port are completed through the additionally arranged jack 12, the plugboard 13 and the electric push rod 14, so that the purpose of diversion is achieved.

Example 10

As shown in fig. 1-4, the calcium oxide feeding system provided by the utility model comprises a plurality of electric vibrators 2 connected from a raw material bin 1, and a conveying mechanism connected from the electric vibrators 2 and connected to a material bin 3 on a calcium oxide production line; the calcium oxide production line has many, and conveying mechanism includes the conveying belt A4 that is located under the electric vibrator 2, and the promotion conveying belt 5 that connects from conveying belt A4 to and the feed divider conveying mechanism that connects from promotion conveying belt 5 and dock with every calcium oxide production line feeding bin 3. The belt conveyer C9 is provided with a belt scale 7.

The embodiment 10 provides a more preferable structure of the material-distributing and conveying mechanism based on the embodiment 1, specifically: the belt conveyer C9 is provided with a belt scale 7. Through addding belt weigher 7, can realize the ration and be calcium oxide production line material loading, make the material loading more accurate, avoid extravagant material, can also reduce manual operation, avoid the human error and reduce manufacturing cost.

The PLC electric control cabinet is preferably a Germany Siemens S7-300 series PLC electric control cabinet.

The PLC electric control cabinet of the calcium oxide feeding system is electrically connected with the electric vibrator 2, the material conveying belt A4, the lifting material conveying belt 5, the material conveying belt B6, the belt scale 7, the material conveying belt C9 and the electric push rod 14 respectively.

The PLC electric control cabinet related to the invention is respectively connected with the electric vibrator 2, the material conveying belt A4, the lifting material conveying belt 5, the material conveying belt B6, the belt scale 7, the material conveying belt C9 and the electric push rod 14, which are the prior known electric equipment, and can be directly purchased and used in the market, so that regarding the PLC electric control cabinet 15, the structure, the circuit and the control principle of the PLC electric control cabinet 15 respectively connected with the electric vibrator 2, the material conveying belt A4, the lifting material conveying belt 5, the material conveying belt B6, the belt scale 7, the material conveying belt C9 and the electric push rod 14 are not repeated here.

Finally, it should be noted that: the above embodiments are merely preferred embodiments of the present utility model for illustrating the technical solution of the present utility model, but not limiting the scope of the present utility model; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the corresponding technical solutions; that is, even though the main design concept and spirit of the present utility model is modified or finished in an insubstantial manner, the technical problem solved by the present utility model is still consistent with the present utility model, and all the technical problems are included in the protection scope of the present utility model; in addition, the technical scheme of the utility model is directly or indirectly applied to other related technical fields, and the technical scheme is included in the scope of the utility model.

Claims (10)

1. The calcium oxide feeding system is characterized by comprising a plurality of electric vibrators (2) connected out of a raw material bin (1), and a conveying mechanism connected out of the electric vibrators (2) and connected into a material bin (3) on a calcium oxide production line; the calcium oxide production line has many, and conveying mechanism includes material conveying belt A (4) that are located under electric vibrator (2), and material conveying belt (5) that promotes that follow material conveying belt A (4) connects to and the feed bin (3) butt joint on each calcium oxide production line are gone up from promoting material conveying belt (5) and are connected.

2. A calcium oxide feeding system according to claim 1, further comprising a feeding belt B (6) which is connected to the lifting feeding belt (5) and is connected to the feeding belt a (4).

3. The calcium oxide feeding system according to claim 2, wherein a plurality of electric vibrators (2) connected out from the raw material bin (1) are arranged right above the feeding belt B (6).

4. A calcium oxide feeding system according to claim 3, characterized in that the feeding belt a (4), the feeding belt B (6) and the lifting feeding belt (5) are provided with belt scales (7).

5. The calcium oxide feeding system according to claim 1, wherein the material distributing and conveying mechanism comprises a Y-shaped shunt tube (8), the Y-shaped shunt tube (8) comprises a feeding hole and two discharging holes, the feeding hole of the Y-shaped shunt tube (8) is in butt joint with the discharging hole of the lifting conveying belt (5), and the discharging hole of the Y-shaped shunt tube (8) is in butt joint with the feeding bin (3) on the calcium oxide production line.

6. The calcium oxide feeding system according to claim 5, wherein at least two Y-shaped shunt pipes (8) are arranged, the Y-shaped shunt pipes (8) are connected in multiple stages, one discharge port of the Y-shaped shunt pipe (8) at the upper stage is in butt joint with a feeding bin (3) on a calcium oxide production line, the other discharge port is in butt joint with a feeding port of the Y-shaped shunt pipe (8) at the lower stage, and the two discharge ports of the Y-shaped shunt pipe (8) at the last stage are respectively in butt joint with the feeding bin (3) on the calcium oxide production line.

7. A calcium oxide feeding system according to claim 5 or 6, characterized in that a feeding belt C (9) is arranged between the discharge port of the Y-shaped shunt tube (8) and the corresponding calcium oxide production line upper bin (3), and the discharge port of the Y-shaped shunt tube (8) is in butt joint with the corresponding calcium oxide production line upper bin (3) through the feeding belt C (9).

8. A calcium oxide feeding system according to claim 5, characterized in that the Y-shaped shunt tube (8) comprises a feeding tube (10) and two discharging tubes (11) connected with the feeding tube (10) respectively, the feeding openings are arranged on the feeding tube (10), one discharging opening is arranged on each discharging tube (11), and a shunt mechanism for opening and closing the discharging tube (11) is arranged on each discharging tube (11).

9. The calcium oxide feeding system according to claim 8, wherein the diversion mechanism comprises a socket (12) arranged on the discharging pipe (11) and a plugboard (13) inserted into the socket (12), and an electric push rod (14) is arranged on the discharging pipe (11); the discharging pipe (11) is a rectangular square pipe, and the plugboard (13) is connected with the electric push rod (14).

10. A calcium oxide feeding system according to claim 1, characterized in that the conveyor belt C (9) is provided with a belt scale (7).