CN216470206U - Feeding system used between anhydrous stemming stirring device and forming device - Google Patents

Abstract

The utility model discloses a feeding system used between an anhydrous stemming stirring device and a forming device, which comprises a belt conveying system and a spiral feeding system; the feeding end and the discharging end of the belt conveying system are respectively positioned at the discharging port of the stirring device and the feeding end of the spiral feeding system; and the discharge end of the spiral feeding system is positioned at the feed inlet of the forming device. The feeding system provided by the utility model can be well suitable for long-distance transmission between the anhydrous stemming stirring device and the forming device.

Description

Feeding system used between anhydrous stemming stirring device and forming device

[ technical field ] A

The utility model belongs to the technical field of anhydrous stemming production, and particularly relates to a feeding system used between an anhydrous stemming stirring device and a forming device.

[ background of the utility model ]

The anhydrous stemming refers to stemming which is prepared by taking tar, resin and the like as adhesives and corundum, bauxite, clay, silicon carbide, coke powder and the like as raw materials and is widely applied to blast furnace tapholes and slag holes.

The existing anhydrous stemming production generally comprises the procedures of raw material crushing, material mixing, stirring, forming, cutting, packaging and the like, and the anhydrous stemming material has certain viscosity, and particularly has larger viscosity under the condition of higher temperature. In the stirring process, owing to under the high-speed stirring effect, and contain material such as a large amount of tar in the raw materials, resin, pitch, material temperature obtains certain promotion, consequently has certain viscidity, the forming device generally adopts the spiral feed mode, and because industrial production's agitating unit and forming device size are all great, certain distance has between agitating unit discharge gate and the forming device feed inlet, if whole adoption spiral feed, it blocks up to have sticky stemming material to lead to the feed screw easily, influences normal production.

[ Utility model ] content

The utility model aims to provide a feeding system used between an anhydrous stemming stirring device and a forming device to solve the defects of the prior art.

The purpose of the utility model is realized by the following technical scheme:

a feeding system used between an anhydrous stemming stirring device and a forming device comprises a belt conveying system and a spiral feeding system;

the feeding end and the discharging end of the belt conveying system are respectively positioned at the discharging port of the stirring device and the feeding end of the spiral feeding system;

and the discharge end of the spiral feeding system is positioned at the feed inlet of the forming device.

Preferably, the belt conveying system comprises rollers at two ends, a carrier roller in the middle, and a conveying belt wound on the upper and lower surfaces of the rollers and the carrier roller.

Preferably, the height of the roller at the discharge end of the belt conveyor system is lower than the height of its adjacent idler.

Preferably, first striker plates are arranged above the left side and the right side of the conveying belt.

Preferably, the first material baffle is an inclined baffle inclined outwards from the left side and the right side of the conveying belt.

Preferably, the belt conveying system further comprises a first support for supporting the rollers, a second support for supporting the carrier rollers, and a third support for supporting the first striker plate, wherein the second support is located on the first support, and the third support is located on the second support.

Preferably, the spiral feeding system comprises a bottom plate, second material baffles positioned on the left side and the right side of the bottom plate, double screws positioned between the bottom plate and the second material baffles, and a driving motor positioned on the outer side of the second material baffles, wherein the driving motor and the double screws are driven by chains or belts.

Preferably, the second baffle plate is an inclined baffle plate inclined outwards from the left side and the right side of the bottom plate.

The utility model combines and adopts two conveying modes of belt conveying and spiral conveying, particularly, a linear belt conveying system is arranged at the end of the stirring device, and the conveying distance of the belt conveying system is long, the conveying capacity is large, so that the problem that the viscosity of the stirred anhydrous stemming material is increased due to the rise of the temperature and the blockage of a spiral conveying screw is avoided; the spiral feeding system is arranged at the end of the forming device, so that the effects of mixing and crushing materials can be achieved, the forming is facilitated, the material metering control is facilitated, and the spiral feeding system can be well butted with a feed inlet of the forming device due to the compact structure.

[ description of the drawings ]

FIG. 1 is a schematic structural view of a feeding system provided by the present invention;

the device comprises a conveying belt 11, a first material baffle 12, a roller 13, a carrier roller 14, a first support 15, a second support 16 and a third support 17;

21-screw rod, 22-second baffle plate, 23-driving motor, 24-driving chain;

3-stirring device, 31-discharge port;

4-forming device.

[ detailed description ] embodiments

The utility model discloses a feeding system used between an anhydrous stemming stirring device and a forming device, which comprises a belt conveying system and a spiral feeding system as shown in figure 1;

the feeding end and the discharging end of the belt conveying system are respectively positioned at the discharging port 31 of the stirring device 3 and the feeding end of the spiral feeding system;

the discharge end of the spiral feeding system is positioned at the feed inlet of the forming device 4;

specifically, as shown in fig. 1, the feeding end of the belt conveying system is located right below the discharge port of the stirring device, and the discharging end is located right above the feeding end of the double-screw conveying system; the discharge end of the double-helix conveying system is positioned in a feed port of the forming device; the anhydrous stemming material after stirring can enter the feeding end of the belt conveying system from the discharge port 3, then is conveyed by the belt conveying system, enters the feeding end of the spiral feeding system from the discharge end of the belt conveying system, is conveyed to the feeding port of the forming device by the spiral feeding system, and enters the forming device through the feeding port for subsequent processing and production.

The utility model combines and adopts two conveying modes of belt conveying and spiral conveying, particularly, a linear belt conveying system is arranged at the end of the stirring device, and the conveying distance of the belt conveying system is long, the conveying capacity is large, so that the problem that the viscosity of the stirred anhydrous stemming material is increased due to the rise of the temperature and the blockage of a spiral conveying screw is avoided; the spiral feeding system is arranged at the end of the forming device, so that the effects of mixing and crushing materials can be achieved, the forming is facilitated, the material metering control is facilitated, and the spiral feeding system can be well butted with a feed inlet of the forming device due to the compact structure.

Therefore, the feeding system provided by the utility model can be well suitable for long-distance transmission between the anhydrous stemming stirring device and the forming device.

Preferably, the belt conveying system may adopt the following structure: the conveying device comprises rollers 13 positioned at two ends, a carrier roller 14 positioned in the middle and a conveying belt 11 wound on the upper and lower surfaces of the rollers and the carrier roller, wherein the conveying belt is driven to convey from a feeding end to a discharging end through the rotation of the rollers and the carrier roller.

It is further preferred that the height of the roller at the discharge end of the belt conveyor system is lower than the height of its adjacent idler, i.e. at the discharge end, the direction of belt transport is downwardly inclined, facilitating the dumping of anhydrous stemming material into the screw feed system.

Preferably, the left and right sides top of conveyer all is equipped with first striker plate 12, prevents that the stemming material from dropping in transportation process.

Preferably, the belt conveying system further includes a first bracket 15 for supporting the roller, a second bracket 16 for supporting the idler, and a third bracket 17 for supporting the first striker plate, the second bracket being located on the first bracket, and the third bracket being located on the second bracket. The first support, the second support and the third support can well support the roller, the carrier roller and the first material baffle plate, and the roller, the carrier roller and the first material baffle plate are reasonable in structural design and small in occupied area.

Preferably, the spiral feeding system comprises a bottom plate, second baffle plates 22 positioned at the left and right sides of the bottom plate, double screws 21 positioned between the bottom plate and the second baffle plates, and a driving motor 23 positioned at the outer side of the second baffle plates, wherein the driving motor and the double screws are driven by a chain 24 or a belt. The driving motor positioned at the outer side can drive the double screws to rotate through the chain or the belt, and carries the materials to enter the feeding port of the forming device forwards.

Preferably, the first striker plate 12 is an inclined baffle inclined outwards from the left side and the right side of the conveyor belt, and the second striker plate page or leaf is an inclined baffle inclined outwards from the left side and the right side of the bottom plate, so that the conveying capacity can be improved.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the utility model. It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the utility model. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (8)

1. A feeding system used between an anhydrous stemming stirring device and a forming device is characterized by comprising a belt conveying system and a spiral feeding system;

the feeding end and the discharging end of the belt conveying system are respectively positioned at the discharging port of the stirring device and the feeding end of the spiral feeding system;

and the discharge end of the spiral feeding system is positioned at the feed inlet of the forming device.

2. The feeding system for use between an anhydrous stemming stirring device and a shaping device according to claim 1,

the belt conveying system comprises rollers at two ends, a carrier roller in the middle and a conveying belt wound on the upper and lower surfaces of the rollers and the carrier roller.

3. The feeding system for use between an anhydrous stemming stirring device and a shaping device according to claim 2,

the height of the roller at the discharge end of the belt conveying system is lower than that of the adjacent carrier roller.

4. The feeding system for use between an anhydrous stemming stirring device and a shaping device according to claim 3,

first striker plates are arranged above the left side and the right side of the conveying belt.

5. The feeding system for use between an anhydrous stemming stirring device and a shaping device according to claim 4,

the first material baffle is an inclined baffle which is formed by inclining outwards at the left side and the right side of the conveying belt.

6. The feeding system for use between an anhydrous stemming stirring device and a shaping device according to claim 4,

the belt conveying system further comprises a first support used for supporting the roller, a second support used for supporting the carrier roller and a third support used for supporting the first striker plate, the second support is located on the first support, and the third support is located on the second support.

7. The feeding system for use between an anhydrous stemming stirring device and a shaping device according to claim 1,

the spiral feeding system comprises a bottom plate, second material blocking plates positioned on the left side and the right side of the bottom plate, double screws positioned between the bottom plate and the second material blocking plates, and a driving motor positioned on the outer side of the second material blocking plates, wherein the driving motor and the double screws are in transmission through chains or belts.

8. The feeding system for use between an anhydrous stemming stirring device and a shaping device according to claim 7,

the second baffle plate is an inclined baffle plate which is inclined outwards from the left side and the right side of the bottom plate.

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