CN218329191U - Belt type drying furnace for molecular sieve production - Google Patents

Abstract

The utility model discloses a belt drying furnace for molecular sieve production belongs to molecular sieve processing technology field, including the drying chamber, the inside upside of drying chamber is provided with the screening conveyer belt, and the inside both sides of screening conveyer belt are provided with drive roller one, the utility model discloses a material subassembly is dialled in the setting, cross the cab apron through the feeding with the molecular sieve after the granulation is accomplished and add the drying chamber, the screening conveyer belt is carried the molecular sieve, it drives the main shaft rotation to open the motor, the main shaft passes through the belt pulley and drives the belt rotation of countershaft, main shaft and countershaft rotate and drive a plurality of arcs and dial the board and rotate, a plurality of arcs are dialled the board and are rotated and can be stirred the molecular sieve on the screening conveyer belt, make the through-hole of undersize pass on the screening conveyer belt fall to waste material conveyer belt on the waste material transport away, dial the material subassembly through the setting and stir the effect better to the molecular sieve on the screening conveyer belt, improve the screening effect of screening conveyer belt to the molecular sieve.

Description

Belt type drying furnace for molecular sieve production

Technical Field

The utility model belongs to the technical field of molecular sieve processing, concretely relates to belt drying furnace for molecular sieve production.

Background

Molecular sieves are aluminosilicate compounds having a cubic lattice. The molecular sieve has a uniform microporous structure, and the pores have uniform diameter, can adsorb molecules with the diameter smaller than that of the pores into the pores, and have preferential adsorption capacity for polar molecules and unsaturated molecules, so that the molecular sieve can separate the molecules with different polarity degrees, different saturation degrees, different molecular sizes and different boiling points, namely has the function of sieving the molecules, and is called as the molecular sieve. The molecular sieve has the advantages of high adsorption capacity, strong thermal stability and the like which are not possessed by other adsorbents, so that the molecular sieve can be widely applied.

Chinese patent application number is 2020210169996 discloses belt dryer is used in molecular sieve production, including the drying chamber, the drying chamber the inside is provided with the screening conveyer belt, the drying chamber the inside is located the top interval of screening conveyer belt is provided with a set of material fork of dialling, the screening conveyer belt adopts the steel wire mesh screen material, the both ends of drying chamber along the direction one side of screening conveyer belt is installed the feeding and is crossed the cab apron, and the opposite side is installed and is unloaded the cab apron, the feeding cross the cab apron with it is provided with the backplate on the cab apron respectively to unload, the drying chamber the inside is provided with hot air circulation device, the drying chamber the inside is located the below of screening conveyer belt is provided with the waste material conveyer belt, the discharge end of waste material conveyer belt is connected with the waste material storehouse, sieves the drying to the molecular sieve raw materials after the granulation and once accomplishes, has avoided the dust to fly upward and work efficiency is high.

Above-mentioned patent of disclosing stirs the molecular sieve on the screening conveyer belt through setting up the material fork of dialling, thereby make the material of undersize fall into on the waste material conveyer belt from the sieve mesh of screening conveyer belt and transport away as the waste material, because there is the space between the material fork of dialling, stir the effect relatively poor to the molecular sieve on the screening conveyer belt, screening conveyer belt screening quality is lower, simultaneously the molecular sieve of undersize falls into behind the screening conveyer belt, the molecular sieve exists between the gap that gets into drive roller and screening conveyer belt, because drive roller and screening conveyer belt continuously rotate, receive the extrusion between the gap that the molecular sieve got into drive roller and screening conveyer belt, cause the damage to drive roller and screening conveyer belt.

SUMMERY OF THE UTILITY MODEL

For solving the problem that proposes among the above-mentioned background art, the utility model provides a belt drying furnace for molecular sieve production has and stirs effectual, the high characteristics of screening quality to the molecular sieve on the screening conveyer belt.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a belt drying furnace for molecular sieve production, including the drying chamber, the inside upside of drying chamber is provided with the screening conveyer belt, the inside both sides of screening conveyer belt are provided with drive roller one, screening conveyer belt downside is provided with the waste material conveyer belt, the inside both sides of waste material conveyer belt are provided with drive roller two, drying chamber one end downside is provided with waste material flitch down with the position that the waste material conveyer belt corresponds, waste material flitch upside is provided with the cab apron of unloading with the position that the screening conveyer belt corresponds under the waste material, the drying chamber is kept away from the one end of unloading the cab apron and is provided with the feeding cab apron of crossing with the position that the screening conveyer belt corresponds, drying chamber upper end one side is provided with the air heater, drying chamber upper end opposite side is provided with the dust remover, the inside upside of drying chamber is provided with the group material subassembly with the position that the screening conveyer belt corresponds.

Preferably, dial the material subassembly and include that support frame, motor, main shaft, countershaft, belt pulley, drive belt and arc dial the board, wherein, one side that the dust remover is close to the air heater is provided with the support frame, and the support frame upper end is provided with the motor, and the motor output is provided with the main shaft, and one side that the main shaft is close to the air heater is provided with the countershaft, and countershaft surperficial upside and main shaft surperficial upside all have the belt pulley through the welding, are provided with drive belt between two belt pulleys, and main shaft surperficial downside all is provided with a plurality of arcs and dials the board with countershaft surperficial downside.

Preferably, the main shaft and the drying chamber and the auxiliary shaft and the drying chamber are rotatably connected through bearings, and the adjacent arc-shaped shifting plates form a sixty-degree angle.

Preferably, the arc shifting plate is tangent to the screening conveyer belt, the main shaft is tangent to the screening conveyer belt, and the auxiliary shaft is tangent to the screening conveyer belt.

Preferably, the positions of the two sides in the screening conveying belt corresponding to the first driving roller are provided with a baffle seat, the two sides of one end, away from the first driving roller, of the baffle seat are provided with side plates, the side plates are connected with the drying chamber through fixing bolts, and one end, away from the side plates, of the baffle seat is provided with an arc-shaped groove corresponding to the first driving roller.

Preferably, curb plate and shelves seat formula structure as an organic whole of welding, shelves seat and drive roller between the installation is accomplished and all tangent between shelves seat and the screening conveyer belt.

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

1. the utility model discloses a material subassembly is dialled in the setting, the molecular sieve after accomplishing the granulation is crossed the feed and is added the drying chamber in, the screening conveyer belt is carried the molecular sieve, it drives the main shaft rotation to open the motor, the main shaft passes through the belt pulley and drives the countershaft rotation with the drive belt, main shaft and countershaft rotate and drive a plurality of arcs and dial the board rotation, a plurality of arcs are dialled the board and are rotated and to be stirred the molecular sieve on the screening conveyer belt, the through-hole that makes the molecular sieve of undersize pass on the screening conveyer belt drops and transports away as the waste material on the waste material conveyer belt, it is better to stir the effect to the molecular sieve on the screening conveyer belt through setting group material subassembly, improve the screening effect of screening conveyer belt to the molecular sieve.

2. The utility model discloses a set up the shelves seat, fill in the inside both sides of screening conveyer belt and the position that the drive roller corresponds with two shelves seats, pass through fixing bolt with the curb plate again and fix in the drying chamber, reach the effect of going on fixing to the shelves seat, because shelves seat one end is provided with the arc wall that corresponds with drive roller one, and shelves seat upper end and lower extreme are tangent with the screening conveyer belt, the shelves seat can not influence the normal operation of drive roller one and screening conveyer belt, can play the effect of blockking to the gap between drive roller one and the screening conveyer belt through setting up the shelves seat, avoid the molecular sieve to get into and receive the extrusion between the gap of drive roller one and screening conveyer belt, cause the damage to drive roller one and screening conveyer belt.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a sectional perspective view of the drying chamber of the present invention;

FIG. 3 is a perspective view of the arc-shaped shifting plate of the present invention;

FIG. 4 is a perspective view of the utility model;

in the figure: 1. a drying chamber; 2. a waste blanking plate; 3. a discharge transition plate; 4. a hot air blower; 5. a material poking component; 51. a support frame; 52. a motor; 53. a main shaft; 54. a counter shaft; 55. a belt pulley; 56. a drive belt; 57. an arc-shaped shifting plate; 6. a dust remover; 7. a feed transition plate; 8. screening the conveying belt; 9. a first driving roller; 10. a scrap conveyor belt; 11. a second driving roller; 12. a gear seat; 13. an arc-shaped slot; 14. a side plate; 15. and fixing the bolt.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

Referring to fig. 1-4, the present invention provides the following technical solutions: the utility model provides a belt drying furnace for molecular sieve production, including drying chamber 1, the inside upside of drying chamber 1 is provided with screening conveyer belt 8, the inside both sides of screening conveyer belt 8 are provided with drive roller 9, 8 downside of screening conveyer belt are provided with waste material conveyer belt 10, the inside both sides of waste material conveyer belt 10 are provided with drive roller two 11, the position that 1 one end downside of drying chamber and waste material conveyer belt 10 correspond is provided with waste material blanking plate 2, 2 upsides of waste material blanking plate are provided with the cab apron 3 of unloading with the position that screening conveyer belt 8 corresponds, one end that cab apron 3 was crossed in the unloading was kept away from to drying chamber 1 is provided with cab apron 7 with the feeding with the position that screening conveyer belt 8 corresponds, 1 upper end one side of drying chamber is provided with air heater 4, 1 upper end opposite side of drying chamber is provided with dust remover 6, the position that 1 inside upside of drying chamber and screening conveyer belt 8 correspond is provided with group material subassembly 5.

Specifically, the material stirring assembly 5 comprises a support frame 51, a motor 52, a main shaft 53, an auxiliary shaft 54, a belt pulley 55, a driving belt 56 and arc stirring plates 57, wherein the support frame 51 is arranged on one side of the dust remover 6 close to the air heater 4, the motor 52 is arranged at the upper end of the support frame 51, the main shaft 53 is arranged at the output end of the motor 52, the auxiliary shaft 54 is arranged on one side of the main shaft 53 close to the air heater 4, the belt pulley 55 is welded on the upper side of the surface of the auxiliary shaft 54 and the upper side of the surface of the main shaft 53, the driving belt 56 is arranged between the two belt pulleys 55, and the arc stirring plates 57 are arranged on the lower side of the surface of the main shaft 53 and the lower side of the surface of the auxiliary shaft 54.

Through adopting above-mentioned technical scheme, it is better to stir the effect to the molecular sieve on the screening conveyer belt 8 through setting up to dial material subassembly 5, improves the screening effect of screening conveyer belt 8 to the molecular sieve.

Specifically, the main shaft 53 and the drying chamber 1 and the auxiliary shaft 54 and the drying chamber 1 are rotatably connected through bearings, and adjacent arc-shaped shifting plates 57 form a sixty-degree angle.

By adopting the technical scheme, the main shaft 53 and the auxiliary shaft 54 can rotate on the drying chamber 1, and the adjacent arc-shaped shifting plates 57 form a sixty-degree angle so that the arc-shaped shifting plates 57 can be distributed at equal intervals.

Specifically, the arc-shaped shifting plate 57 is tangent to the screening conveyer belt 8, the main shaft 53 is tangent to the screening conveyer belt 8, and the auxiliary shaft 54 is tangent to the screening conveyer belt 8.

By adopting the technical scheme, the arc-shaped shifting plate 57, the main shaft 53 and the auxiliary shaft 54 cannot influence the normal operation of the screening conveyer belt 8.

When the device is used, when the molecular sieve is dried, the device is installed at a proper position, the first driving roller 9 and the second driving roller 11 respectively drive the screening conveyer belt 8 and the waste conveyer belt 10 to operate, the granulated molecular sieve is added into the drying chamber 1 through the feeding transition plate 7, the screening conveyer belt 8 carries out conveying and screening on the molecular sieve, undersized molecular sieve falls into the waste conveyer belt 10 and is carried away as waste, the dust remover 6 carries out dust removal treatment on dust in the drying chamber 1, the hot air blower 4 blows out hot air and carries out drying treatment on the molecular sieve on the screening conveyer belt 8, the screened and dried molecular sieve is discharged out of the drying chamber 1 through the discharging transition plate 3, the material stirring assembly 5 is arranged, the granulated molecular sieve is added into the drying chamber 1 through the feeding transition plate 7, the screening conveyer belt 8 carries out undersized conveying and screening on the molecular sieve, the motor 52 is started to drive the main shaft 53 to rotate through the belt pulley 55 and the driving belt 56, the main shaft 53 and the driving belt 56 to drive the auxiliary shaft 54 to rotate, the main shaft 53 and the auxiliary shaft 54 to drive the plurality of the stirring plates 57 to rotate, the rotation of the plurality of the stirring plates 57 can carry out screening on the molecular sieve 8, the molecular sieve, the screening component, the screening on the molecular sieve, the screening waste material, the screening conveyer belt 8, the screening through stirring assembly, the stirring effect of the screening on the screening waste is improved, and the screening by stirring, and the stirring of the molecular sieve is improved by stirring, and the stirring of the molecular sieve 8, and the stirring assembly 5.

Example 2

The present embodiment is different from embodiment 1 in that: the inside both sides of screening conveyer belt 8 and the position that drive roller 9 corresponds are provided with shelves seat 12, and the one end both sides that drive roller 9 was kept away from to shelves seat 12 are provided with curb plate 14, are connected through fixing bolt 15 between curb plate 14 and the drying chamber 1, and shelves seat 12 is kept away from 14 one end of curb plate and is provided with the arc wall 13 that corresponds with drive roller 9.

Through adopting above-mentioned technical scheme, can play the effect of blockking to the gap between drive roller 9 and the screening conveyer belt 8 through setting up shelves seat 12, avoid receiving the extrusion between the molecular sieve gets into the gap of drive roller 9 and screening conveyer belt 8, cause the damage to drive roller 9 and screening conveyer belt 8.

Specifically, the side plate 14 and the retainer 12 are of a welded integrated structure, and after the retainer 12 is installed, the retainer 12 is tangent to the first driving roller 9 and the retainer 12 is tangent to the screening conveyor belt 8.

Through adopting above-mentioned technical scheme, curb plate 14 is more sturdy and durable with shelves seat 12 formula structure as an organic whole of welding, and shelves seat 12 can not influence the normal operating of drive roller 9 and screening conveyer belt 8.

During the use of this embodiment, through setting up shelves seat 12, fill in the inside both sides of screening conveyer belt 8 and the position that drive roller 9 corresponds with two shelves seats 12, fix curb plate 14 in drying chamber 1 through fixing bolt 15 again, reach the effect of fixing shelves seat 12, because shelves seat 12 one end is provided with the arc wall 13 that corresponds with drive roller 9, and shelves seat 12 upper end and lower extreme are tangent with screening conveyer belt 8, shelves seat 12 can not influence the normal operating of drive roller 9 and screening conveyer belt 8, can play the effect of blockking to the gap between drive roller 9 and the screening conveyer belt 8 through setting up shelves seat 12, avoid receiving the extrusion between the gap that the molecular sieve got into drive roller 9 and screening conveyer belt 8, cause the damage to drive roller 9 and screening conveyer belt 8.

The utility model discloses well motor 52 is the prior art that has disclosed, and the model of chooseing for use is YS71/80.

The utility model discloses well drying chamber 1, flitch 2 under the waste material, the cab apron 3 of unloading, air heater 4, dust remover 6, cab apron 7 is crossed in the feeding, screening conveyer belt 8, drive roller 9, the structure and the theory of operation of waste material conveyer belt 10 and drive roller two 11 disclose in chinese patent application number 2020210169996 discloses belt dryer for the molecular sieve production, its theory of operation is that it moves with waste material conveyer belt 10 through drive roller 9 and drive roller two 11 respectively to drive screening conveyer belt 8, the molecular sieve after accomplishing the granulation passes through feeding during cab apron 7 adds drying chamber 1, screening conveyer belt 8 carries out the screening to the molecular sieve, the molecular sieve of undersize falls into on waste material conveyer belt 10 and transports as waste material, dust remover 6 removes dust to the dust in the drying chamber 1, air heater 4 blows off hot-blast, carry out drying process to the molecular sieve on the screening conveyer belt 8, the molecular sieve after accomplishing the screening and drying discharges drying cab apron 3 and discharge drying chamber 1 through unloading.

The utility model discloses a theory of operation and use flow: when the molecular sieve is dried, the device is installed at a proper position, the driving roller I9 and the driving roller II 11 respectively drive the screening conveyer belt 8 and the waste conveyer belt 10 to operate, the granulated molecular sieve is added into the drying chamber 1 through the feeding transition plate 7, the screening conveyer belt 8 carries out conveying and screening on the molecular sieve, the undersized molecular sieve falls onto the waste conveyer belt 10 to be taken away as waste, the dust remover 6 carries out dust removal treatment on dust in the drying chamber 1, the hot air blower 4 blows hot air to carry out drying treatment on the molecular sieve on the screening conveyer belt 8, the screened and dried molecular sieve is discharged out of the drying chamber 1 through the discharging transition plate 3, the granulated molecular sieve is added into the drying chamber 1 through the feeding transition plate 7 through the setting of the material stirring component 5, the screening conveyer belt 8 carries out conveying and screening on the molecular sieve, the motor 52 is started to drive the main shaft 53 to rotate, the main shaft 53 drives the auxiliary shaft 54 to rotate through the belt pulley 55 and the driving belt 56, the main shaft 53 and the auxiliary shaft 54 drive the plurality of arc-shaped stirring plates 57 to rotate, the plurality of arc-shaped stirring plates 57 can stir the molecular sieve on the screening conveyer belt 8, so that the undersized molecular sieve passes through the through hole on the screening conveyer belt 8 and falls onto the waste conveyer belt 10 to be transported away as waste, the stirring effect of the molecular sieve on the screening conveyer belt 8 is better through the arrangement of the stirring assembly 5, the screening effect of the screening conveyer belt 8 on the molecular sieve is improved, the two gear seats 12 are plugged into the positions corresponding to the driving roller one 9 on the two sides inside the screening conveyer belt 8 through the arrangement of the gear seats 12, the side plates 14 are fixed in the drying chamber 1 through the fixing bolts 15, the effect of fixing the gear seats 12 is achieved, because one end of the gear seat 12 is provided with the arc-shaped groove 13 corresponding to the driving roller one 9, and the upper end and the lower end of the gear seat 12 are tangent to the screening conveyer belt 8, shelves seat 12 can not influence the normal operating of a drive roller 9 and screening conveyer belt 8, can play the effect of blockking to the gap between a drive roller 9 and the screening conveyer belt 8 through setting up shelves seat 12, avoids receiving the extrusion between the molecular sieve gets into the gap of a drive roller 9 and screening conveyer belt 8, causes the damage to a drive roller 9 and screening conveyer belt 8.

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

Claims (6)

1. A belt drying furnace for molecular sieve production, which comprises a drying chamber, and is characterized in that: the inside upside of drying chamber is provided with the screening conveyer belt, the inside both sides of screening conveyer belt are provided with drive roller one, screening conveyer belt downside is provided with the waste material conveyer belt, the inside both sides of waste material conveyer belt are provided with drive roller two, the position that drying chamber one end downside and waste material conveyer belt correspond is provided with waste material flitch down, waste material flitch upside is provided with the cab apron of unloading with the position that the screening conveyer belt corresponds under the waste material, the one end that the cab apron was kept away from to unload is provided with the feeding cab apron with the position that the screening conveyer belt corresponds in the drying chamber, drying chamber upper end one side is provided with the air heater, drying chamber upper end opposite side is provided with the dust remover, the inside upside of drying chamber is provided with the group material subassembly with the position that the screening conveyer belt corresponds.

2. The belt drying furnace for molecular sieve production according to claim 1, characterized in that: the material stirring assembly comprises a support frame, a motor, a main shaft, an auxiliary shaft, belt pulleys, a driving belt and arc stirring plates, wherein the support frame is arranged on one side of the dust remover close to the air heater, the motor is arranged at the upper end of the support frame, the main shaft is arranged at the output end of the motor, the auxiliary shaft is arranged on one side of the main shaft close to the air heater, the belt pulleys are welded on the upper side of the surface of the auxiliary shaft and the upper side of the surface of the main shaft, the driving belt is arranged between the two belt pulleys, and the arc stirring plates are arranged on the lower side of the surface of the main shaft and the lower side of the surface of the auxiliary shaft.

3. The belt drying furnace for molecular sieve production according to claim 2, characterized in that: the main shaft and the drying chamber and the auxiliary shaft and the drying chamber are rotatably connected through bearings, and sixty-degree angles are formed between adjacent arc-shaped shifting plates.

4. The belt drying furnace for molecular sieve production according to claim 2, characterized in that: the arc shifting plate is tangent to the screening conveyer belt, the main shaft is tangent to the screening conveyer belt, and the auxiliary shaft is tangent to the screening conveyer belt.

5. The belt drying furnace for molecular sieve production according to claim 1, characterized in that: the screening conveyer belt is characterized in that a gear seat is arranged on the two sides inside the screening conveyer belt and in a position corresponding to the first driving roller, side plates are arranged on the two sides of one end, away from the first driving roller, of the gear seat, the side plates are connected with the drying chamber through fixing bolts, and an arc-shaped groove corresponding to the first driving roller is formed in one end, away from the side plates, of the gear seat.

6. The belt drying furnace for molecular sieve production according to claim 5, characterized in that: the side plate and the gear seat are of a welded integrated structure, and the gear seat is tangent to the driving roller I and the gear seat and the screening conveyer belt after the gear seat is installed.

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