CN209549918U - It is burnt into material screen subsystem - Google Patents

Abstract

The utility model proposes firing material screen subsystems, it is simple with structure, it is easy to use, the high advantage of the efficiency of separation, including material storing box, first rotary screen and the second rotary screen, the discharge port of material storing box connects the first rotary screen, second rotary screen is located at the underface of the first rotary screen, the center of first rotary screen and the second rotary screen is passed through by same root shaft, first conveyer belt is provided with below first rotary screen, the lower section of second rotary screen is respectively arranged with the second conveyer belt and third conveyer belt from high to low, first rotary screen is consistent with the structure of the second rotary screen, the top array of first rotary screen is provided with baffle, the outside of first rotary screen is provided with baffle, the side wall of baffle is provided with discharge port, discharge port connects first conveyer belt；The utility model includes two layers of filter screen, so that Classification of materials is more accurate, and then is continued when carrying out firing processing behind, the uniform specification of finished product is more preferable.

Description

It is burnt into material screen subsystem

Technical field

The utility model relates to material separation device fields, particularly relate to firing material screen subsystem.

Background technique

Firing is to be heat-treated silicate product under certain condition, is allowed to that a series of physical chemical change occurs, Expected mineral composition and microstructure are formed, thus the process for reaching fixed profile and obtaining required properties, material firing The physical and chemical changes such as Shi Fasheng dehydration, decomposition, chemical combination have sufficient mechanical strength and other required performances, no Same mesh number, the use that the material of size is played are different, reprocess in order to facilitate the later period to firing material, before firing It needs to sort material, the screening system that our factory uses at present can only once sort a kind of material of mesh number, for fine The screening of change needs to carry out repeatedly to sort operation, and efficiency is extremely low, is this problem of customer service, it is necessary to which research and development firing material screen, which divides, is System.

Summary of the invention

The utility model proposes firing material screen subsystems, have the advantages that structure is simple, easy to use, the efficiency of separation is high.

The technical solution of the utility model is achieved in that firing material screen subsystem, including material storing box, the first rotary screen The first rotary screen is connected with the discharge port of the second rotary screen, material storing box, the second rotary screen is located at the underface of the first rotary screen, the The center of one rotary screen and the second rotary screen is passed through by same root shaft, is provided with first conveyer belt below the first rotary screen, The lower section of second rotary screen is respectively arranged with the second conveyer belt and third conveyer belt, the first rotary screen and the second rotation from high to low The structure of sieve is consistent, and the top array of the first rotary screen is provided with baffle, and the outside of the first rotary screen is provided with baffle, baffle Side wall is provided with discharge port, and discharge port connects first conveyer belt.

The both ends of the shaft are protruded into bearing, and shaft connects motor.

The diameter of second rotary screen is greater than the diameter of the first rotary screen, and the width of the third conveyer belt is greater than second The diameter of rotary screen.

The bottom array of the baffle is provided with material spilling hole, and material spilling hole connects material containing bag.

The conveying direction of the first conveyer belt and material are consistent from the discharging direction of discharge port outside the first rotary screen, institute The conveying direction for stating the second conveyer belt is consistent from the discharging direction of discharge port outside the second rotary screen with material, the third conveying The conveying direction of the conveying direction of band and the second conveyer belt is on the contrary, the first conveyer belt, the second conveyer belt, third conveyer belt Conveying direction is non-interference.

The bottom of first rotary screen and the second rotary screen is provided with the consistent slope of structure, and the height on slope is along Direction of one rotary screen from outside to center gradually decreases.

The utility model is respectively provided with filter screen in the bottom of the first rotary screen and the second rotary screen, the second rotary screen bottom Filter screen mesh number is bigger than the filter screen mesh number of the first rotary screen bottom, and the material of filtering is thinner, and material by sieving twice It is divided into three groups according to size afterwards, the maximum material of size is retained in the first rotary screen, is transported through first conveyer belt, size is medium Material leak down to be retained in the second rotary screen out of first rotary screen, transported through the second conveyer belt, smallest size of material according to It is secondary to pass through the first rotary screen and the second rotary screen, it falls on third conveyer belt and transports；Material storing box time opening is to the first rotary screen Interior charging, the non-interference influence of the conveying direction of three conveyer belts, the convenient material finished to screening are entered not by firing process Same firing link improves firing efficiency.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the main view of the utility model.

Fig. 2 is the top view of the first rotary screen.

Fig. 3 is A-A cross-sectional view of Fig. 2.

Fig. 4 is the top view of baffle.

Fig. 5 is the top view of the second rotary screen.

Fig. 6 be first conveyer belt, the second conveyer belt, third conveyer belt conveying direction schematic diagram.

In figure: 1, the first rotary screen 2, the second rotary screen 3, shaft 4, first conveyer belt 5, the second conveyer belt 6, third conveyer belt 7, slope 8, discharge port 9, baffle 10, baffle 11, material containing bag 12, material spilling hole 13, storage Hopper.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are under that premise of not paying creative labor Every other embodiment obtained, fall within the protection scope of the utility model.

As shown in Fig. 1,2,5, the utility model embodiment provides firing material screen subsystem, including material storing box 13, first Rotary screen 1 and the second rotary screen 2, the discharge port of material storing box 13 connect the first rotary screen 1, and the second rotary screen 2 is located at the first rotation The center of the underface of sieve 1, the first rotary screen 1 and the second rotary screen 2 is passed through by same root shaft 3, the lower section of the first rotary screen 1 It is provided with first conveyer belt 4, the lower section of the second rotary screen 2 is respectively arranged with the second conveyer belt 5 and third conveyer belt from high to low 6, the first rotary screen 1 is consistent with the structure of the second rotary screen 2, and the top array of the first rotary screen 1 is provided with baffle 10, the first rotation The outside for turning sieve 1 is provided with baffle 9, and the side wall of baffle 9 is provided with discharge port 8, and discharge port 8 connects first conveyer belt 4.

The both ends of the shaft 3 are protruded into bearing, and shaft 3 connects motor, and when motor rotates forward, shaft 3 drives the first rotation Turn sieve 1 and the second rotary screen 2 rotates clockwise, material is assembled under the action of baffle to the center of rotary screen, in the process The material that size is greater than rotary screen bottom screen mesh number falls out of rotary screen, and large granular materials stay in the first rotary screen 1, in Equal granule materials stay in the second rotary screen 2, and small particles material is fallen on third conveyer belt 6；Motor reversal later, 3 band of shaft Dynamic first rotary screen 1 and the second rotary screen 2 rotate counterclockwise, and the material in rotary screen is thrown out of into baffle, in rotary screen It is transported under drive through discharge port 8.

The diameter of second rotary screen 2 is greater than the diameter of the first rotary screen 1, and material guarantees that it entirely falls in the when falling In two rotary screens 2, the width of the third conveyer belt 6 is greater than the diameter of the second rotary screen 2, and material falls on its whole when falling It transports on third conveyer belt 6, is fallen except equipment when preventing material from falling, not only influence construction environment, also cause material wave Take.

As shown in Figure 3,4, the bottom array of the baffle 9 is provided with material spilling hole 12, and material spilling hole 12 connects material containing bag 11, has When material accidentally enters the gap between baffle 9 and rotary screen, so that it is fallen into material containing bag 11 along material spilling hole 12 rapidly and is collected, Its accumulated plugging between gap is prevented, the rotation of rotary screen is influenced.

As shown in fig. 6, the conveying direction and material of the first conveyer belt 4 going out from 1 outside discharge port 8 of the first rotary screen Expect that direction is consistent, the discharging direction of the conveying direction and material of second conveyer belt 5 from 2 outside discharge port 8 of the second rotary screen Unanimously, the conveying direction of the conveying direction of the third conveyer belt 6 and the second conveyer belt 5 is on the contrary, to fall on the conveyor belt Material is carried away at the first time, prevents its accumulation；The conveying side of the first conveyer belt 4, the second conveyer belt 5, third conveyer belt 6 To non-interference, facilitate and place the Classification of materials of various sizes.

The bottom of first rotary screen 1 and the second rotary screen 2 is provided with the consistent slope 7 of structure, the height on slope 7 It is gradually decreased along direction of first rotary screen 1 from outside to center, when rotary screen rotates clockwise, the setting on slope 7 is more convenient So that material is assembled to rotary screen center, prevent material from throwing away out of rotary screen in screening process.

The utility model includes two layers of filter screen, so that Classification of materials is more accurate, and then continues be burnt into behind and add The uniform specification in working hour, finished product is more preferable；The discharge port time opening of the utility model material storing box 13, motor timing belt turn axis 3 forward and backwards, after motor completes a positive and negative rotation period, discharge port is opened, so that material completes category filter in batch；This Utility model completes three layers of size separation of material by a procedure, greatly improves efficiency.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this Within the spirit and principle of utility model, any modification, equivalent replacement, improvement and so on should be included in the utility model Protection scope within.

Claims (6)

1. it is burnt into material screen subsystem, including material storing box (13), the first rotary screen (1) and the second rotary screen (2), material storing box (13) Discharge port connects the first rotary screen (1), and the second rotary screen (2) is located at the underface of the first rotary screen (1), it is characterised in that: the The center of one rotary screen (1) and the second rotary screen (2) is passed through by same root shaft (3), and the first rotary screen is provided with below (1) First conveyer belt (4), the lower section of the second rotary screen (2) are respectively arranged with the second conveyer belt (5) and third conveyer belt from high to low (6), the first rotary screen (1) is consistent with the structure of the second rotary screen (2), and the top array of the first rotary screen (1) is provided with baffle (10), the outside of the first rotary screen (1) is provided with baffle (9), and the side wall of baffle (9) is provided with discharge port (8), discharge port (8) It connects first conveyer belt (4).

2. firing material screen subsystem according to claim 1, it is characterised in that: axis is protruded at the both ends of the shaft (3) In holding, shaft (3) connects motor.

3. firing material screen subsystem according to claim 1, it is characterised in that: the diameter of second rotary screen (2) is big Diameter in the first rotary screen (1), the width of the third conveyer belt (6) are greater than the diameter of the second rotary screen (2).

4. firing material screen subsystem according to claim 1, it is characterised in that: the bottom array of the baffle (9) is arranged Have material spilling hole (12), material spilling hole (12) connects material containing bag (11).

5. firing material screen subsystem according to claim 1, it is characterised in that: the conveying side of the first conveyer belt (4) To, the conveying side of second conveyer belt (5) consistent with the discharging direction of material from the external discharge port (8) of the first rotary screen (1) To, the conveying side of the third conveyer belt (6) consistent with the discharging direction of material from the external discharge port (8) of the second rotary screen (2) To the conveying direction with the second conveyer belt (5) on the contrary, the first conveyer belt (4), the second conveyer belt (5), third conveyer belt (6) Conveying direction it is non-interference.

6. firing material screen subsystem according to claim 1, it is characterised in that: first rotary screen (1) and the second rotation The bottom for turning sieve (2) is provided with the consistent slope of structure (7), the height of slope (7) along the first rotary screen (1) from outside in The direction of the heart gradually decreases.