CN214469790U - Bentonite drying equipment convenient to maintain - Google Patents

Abstract

The utility model relates to a bentonite processing technology field, concretely relates to bentonite drying equipment convenient to maintain, which comprises a frame, be provided with rotary furnace body in the frame, rotary furnace body's both sides respectively are provided with a bearing packing ring, bearing packing ring's bottom is provided with bearing seat, be provided with elevating system between bearing packing ring and the bearing seat, rotary furnace body's middle part is provided with and is used for the drive rotary furnace body pivoted power unit, rotary furnace body's both ends are provided with feed inlet and discharge gate respectively, rotary furnace body is close to the one end setting of discharge gate and is used for inclosed rotary furnace body's first head, be provided with the air inlet on the first head, rotary furnace body is close to the one end of feed inlet and is provided with and is used for inclosed rotary furnace body's second head, be provided with the gas vent on the second head. The bentonite drying equipment convenient to maintain occupies a small area, and is convenient to maintain in the use process.

Description

Bentonite drying equipment convenient to maintain

Technical Field

The utility model relates to a bentonite processing technology field especially relates to a bentonite drying equipment convenient to maintain.

Background

The bentonite is a non-metal mineral product with montmorillonite as a main mineral component, and the montmorillonite structure is 2: the crystal structure of the type 1 has better ion exchange performance because certain cations, such as Cu, Mg, Na, K and the like, exist in a layered structure formed by montmorillonite unit cells, and the cations have unstable effects with the montmorillonite unit cells and are easy to exchange with other cations. Foreign countries have been applied to more than 100 departments in 24 fields of industrial and agricultural production, and more than 300 products exist, so that the soil is called as 'universal soil'.

In the processing process of the artificial sodium bentonite, the water content of the sodium bentonite is 40%, the water content of the sodium bentonite needs to be adjusted, and the adjustment mode is mainly drying through a drying kiln, so that the water content is reduced to 10%. The drying kiln is a large-scale drying device used in industrial production, has wide application in the production of cement industry, metallurgical industry, wood drying, brick and tile drying and the like, and has better drying effect. But current drying kiln is too big in volume, generally need to build when the installation and overhaul the platform, nevertheless overhauls the interval of platform and drying kiln body and can not adjust, is difficult for the operation when overhauing the bottom of rotary kiln furnace body.

SUMMERY OF THE UTILITY MODEL

For solving the technical problem, an object of the utility model is to provide a bentonite drying equipment convenient to maintain, bentonite drying equipment area convenient to maintain is less, and is convenient for maintain in the use.

In order to achieve the technical effects, the utility model adopts the following technical scheme:

the utility model provides a bentonite drying equipment convenient to maintain, includes the frame, be provided with the rotary furnace body in the frame, the both sides of rotary furnace body respectively are provided with a bearing packing ring, the bottom of bearing packing ring is provided with the bearing seat, be provided with elevating system between bearing packing ring and the bearing seat, the middle part of rotary furnace body is provided with and is used for the drive rotary furnace body pivoted power unit, the both ends of rotary furnace body are provided with feed inlet and discharge gate respectively, the one end setting that the rotary furnace body is close to the discharge gate is used for inclosed the first head of rotary furnace body, be provided with the air inlet on the first head, the one end that the rotary furnace body is close to the feed inlet is provided with and is used for inclosed the second head of rotary furnace body, be provided with the gas vent on the second head.

Furthermore, the power mechanism comprises a first gear sleeved on the outer side of the rotary furnace body and a second gear arranged at the bottom of the rotary furnace body, the second gear is meshed with the first gear, and a driving motor used for driving the second gear to rotate is further arranged on the rack.

Further, the output end of the driving motor is provided with a first belt pulley, a second belt pulley is coaxially arranged on the second gear, and the first belt pulley is in transmission connection with the second belt pulley.

Furthermore, an arc-shaped supporting plate is arranged at the bottom of the supporting gasket, a plurality of supporting rollers are arranged at the top of the arc-shaped supporting plate, the supporting rollers are uniformly arranged on the arc-shaped supporting plate at intervals and are parallel to the rotary furnace body, and the lifting mechanism is arranged between the arc-shaped supporting plate and the supporting seat.

Further, the both ends of arc layer board articulate respectively has first staple bolt and second staple bolt, first staple bolt is kept away from the one end of arc layer board and the one end that the second staple bolt was kept away from the arc layer board are passed through industry hasp and are dismantled the connection.

Furthermore, the lifting mechanism comprises a speed reducing motor fixedly connected with the bearing seat, the output end of the speed reducing motor is provided with a transmission worm, a first worm wheel and a second worm wheel are respectively meshed with the two sides of the transmission worm, a first transmission rod and a second transmission rod are arranged in the middle of the first worm wheel and the second worm wheel in a penetrating way, the two ends of the first transmission rod and the second transmission rod are respectively hinged with a first connecting rod and a second connecting rod, the end parts of the first connecting rod and the second connecting rod are respectively provided with a first long hole and a second long hole, the two sides of the bottom of the arc-shaped supporting plate are respectively and vertically provided with a first connecting rod and a second connecting rod, the first connecting rod and the second connecting rod are connected with the bearing seat in a sliding mode, a first hinge shaft matched with the first long hole is arranged on the first connecting rod, and a second hinge shaft matched with the second long hole is arranged on the second connecting rod.

Compared with the prior art, the beneficial effects of the utility model are that: the two ends of the rotary furnace body are respectively provided with the feed inlet and the discharge outlet, and high-temperature flue gas is guided in along the opposite direction of the movement of the material, so that the material is overturned in the rotary furnace body to be in full contact with the high-temperature flue gas, and the drying efficiency is improved. Simultaneously, still set up elevating system respectively through the both ends at the rotary furnace body and go up and down with this rotary furnace body of drive to in overhaul the maintenance to the bottom of furnace body and actuating mechanism, reduced the degree of difficulty of overhauing and maintaining effectively, be favorable to improving this drying equipment's life.

Drawings

Fig. 1 is a schematic view of an overall structure of a bentonite drying apparatus convenient for maintenance according to an embodiment of the present invention;

fig. 2 is a front view of a bentonite drying apparatus convenient for maintenance according to an embodiment of the present invention;

fig. 3 is a schematic view of a cross-sectional structure at a-a of a bentonite drying apparatus convenient for maintenance according to an embodiment of the present invention;

the reference signs are: 10, a rotary furnace body, 11, a feeding hole, 12, a first seal head, 121, an air inlet, 13, a second seal head, 14, a first gear, 20, a driving motor, 21, a first belt pulley, 22, a second belt pulley, 23, a second gear, 30, a bearing washer, 31, an arc-shaped supporting plate, 311, a mounting groove, 32, a supporting roller, 33, a first connecting rod, 331, a first hinge shaft, 34, a second connecting rod, 341, a second hinge shaft, 41, a first hoop, 42, a second hoop, 43, an industrial hasp, 50, a bearing seat, 51, a speed reduction motor, 52, a transmission worm, 53, a first worm wheel, 531, a first transmission rod, 532, a first connecting rod, 532a first long hole, 54, a second worm wheel, 541, a second transmission rod, 542, a second connecting rod, 542a and a second long hole.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1-3, the bentonite drying equipment convenient to maintain that this embodiment provided, includes the frame, be provided with rotary furnace body 10 in the frame, rotary furnace body 10's both ends are provided with feed inlet 11 and discharge gate respectively, rotary furnace body 10 is close to the one end setting of discharge gate and is used for airtightly rotary furnace body 10's first head 12, be provided with air inlet 121 on first head 12, rotary furnace body 10 is close to the one end of feed inlet 11 and is provided with and is used for airtightly rotary furnace body 10's second head 13, be provided with the gas vent on second head 13. In the present embodiment, the

In this embodiment, two sides of the rotary furnace body 10 are respectively provided with a bearing gasket 30, the bottom of the bearing gasket 30 is provided with a bearing seat 50, the bearing gasket 30 is rotatably connected with the bearing seat 50, a lifting mechanism is arranged between the bearing gasket 30 and the bearing seat 50, and the middle of the rotary furnace body 10 is provided with a power mechanism for driving the rotary furnace body 10 to rotate. Specifically, the power mechanism comprises a first gear 14 sleeved outside the rotary furnace body 10 and a second gear 23 arranged at the bottom of the rotary furnace body 10, the second gear 23 is meshed with the first gear 14, and a driving motor 20 for driving the second gear 23 to rotate is further arranged on the rack. The output end of the driving motor 20 is provided with a first belt pulley 21, a second belt pulley 22 is coaxially arranged on the second gear 23, and the first belt pulley 21 is in transmission connection with the second belt pulley 22. When the rotary furnace is specifically implemented, the bentonite material enters the interior of the rotary furnace body 10 through the feeding hole 11, the driving motor 20 is started to drive the first belt pulley 21 to drive the second belt pulley 22 and the second gear 23 to be meshed, and the second gear 23 is meshed with the first gear 14 to drive the rotary furnace body 10 to rotate, so that the bentonite material inside the rotary furnace body 10 is driven to overturn until the bentonite material is discharged from the discharging hole. The high temperature flue gas then gets into the inside of rotary furnace body 10 through air inlet 121, and the rethread gas vent is discharged, and at this in-process, the bentonite material is for high temperature flue gas motion to improve drying efficiency.

In this embodiment, the bottom of bearing packing ring 30 is provided with arc layer board 31, mounting groove 311 has been seted up at the top of arc layer board 31, be provided with a plurality of bearing rollers 32 in the mounting groove 311, bearing roller 32 interval sets up evenly on the arc layer board 31 just bearing roller 32 is on a parallel with rotary furnace body 10 sets up, elevating system sets up between arc layer board 31 and the bearing seat 50, bearing roller 32 plays the supporting role to bearing packing ring 30, and does benefit to and reduces rotational friction. Specifically, the lifting mechanism includes with support seat 50 fixed connection's gear motor 51, gear motor 51's output is provided with drive worm 52, the both sides of drive worm 52 are engaged with first worm wheel 53 and second worm wheel 54 respectively, the middle part of first worm wheel 53 and second worm wheel 54 all runs through and is provided with first transfer line 531 and second transfer line 541, just first transfer line 531 and first worm wheel 53 fixed connection, second transfer line 541 and second worm wheel 54 fixed connection. The both ends of first transfer line 531 and second transfer line 541 articulate respectively has first connecting rod 532 and second connecting rod 542, first slot hole 532a and second slot hole 542a have been seted up respectively to the tip of first connecting rod 532 and second connecting rod 542, the bottom both sides of arc layer board 31 are provided with head rod 33 and second connecting rod 34 respectively vertically, head rod 33, second connecting rod 34 all with bearing seat 50 sliding connection. Specifically, a plurality of sliding grooves are formed in the supporting seat 50, and the first connecting rod 33 and the second connecting rod 34 are slidably mounted in the sliding grooves. The bottom of the first connecting rod 33 is provided with a first hinge shaft 331 matched with the first long hole 532a, and the bottom of the second connecting rod 34 is provided with a second hinge shaft 341 matched with the second long hole 542 a. Specifically, the first hinge shaft 331 is sleeved inside the long hole and rotatably connected to the first link 532, and the second hinge shaft 341 is sleeved inside the long hole and rotatably connected to the second link 542. In specific implementation, the reduction motor 51 is started to drive the first worm wheel 53 and the second worm wheel 54 to rotate through the transmission worm 52, the first worm wheel 53 and the second worm wheel 54 synchronously rotate and respectively drive the first transmission rod 531 and the second transmission rod 541 to rotate, the first transmission rod 531 drives the first link 532 to rotate, the second transmission rod 541 drives the second link 542 to rotate, and finally the arc-shaped supporting plate 31 is driven to smoothly ascend and descend through the first link 532 and the second link 542.

In this embodiment, in order to facilitate the fixing of the rotary furnace body 10 when the arc-shaped supporting plate 31 drives the rotary furnace body 10 to rise, the two ends of the arc-shaped supporting plate 31 are respectively hinged with a first anchor ear 41 and a second anchor ear 42, the first anchor ear 41 and the second anchor ear 42 are both arc-shaped, and one end of the first anchor ear 41 far away from the arc-shaped supporting plate 31 and one end of the second anchor ear 42 far away from the arc-shaped supporting plate 31 are detachably connected through an industrial buckle 43. In specific implementation, the first anchor ear 41 and the second anchor ear 42 can be connected by the industrial hasp 43, so that the first anchor ear 41, the second anchor ear 42 and the arc-shaped supporting plate 31 can be mutually matched to fix the rotary furnace body 10, thereby ensuring the safety of the rotary furnace body 10 during lifting.

In the present embodiment, the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solutions of the present invention can be modified or replaced by equivalents without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the scope of the claims of the present invention. The technology, shape and construction parts which are not described in detail in the present invention are all known technology.

Claims (6)

1. The utility model provides a bentonite drying equipment convenient to maintain which characterized in that: comprises a frame, a rotary furnace body (10) is arranged on the frame, two sides of the rotary furnace body (10) are respectively provided with a bearing gasket (30), the bottom of the bearing gasket (30) is provided with a bearing seat (50), a lifting mechanism is arranged between the bearing gasket (30) and the bearing seat (50), the middle part of the rotary furnace body (10) is provided with a power mechanism for driving the rotary furnace body (10) to rotate, two ends of the rotary furnace body (10) are respectively provided with a feed inlet (11) and a discharge outlet, one end of the rotary furnace body (10) close to the discharge outlet is provided with a first seal head (12) for sealing the rotary furnace body (10), the first seal head (12) is provided with an air inlet (121), one end of the rotary furnace body (10) close to the feed inlet (11) is provided with a second seal head (13) for sealing the rotary furnace body (10), and an exhaust port is arranged on the second seal head (13).

2. The bentonite drying equipment convenient for maintenance as claimed in claim 1, wherein: the power mechanism comprises a first gear (14) sleeved on the outer side of the rotary furnace body (10) and a second gear (23) arranged at the bottom of the rotary furnace body (10), the second gear (23) is meshed with the first gear (14), and a driving motor (20) used for driving the second gear (23) to rotate is further arranged on the rack.

3. The bentonite drying equipment convenient for maintenance as claimed in claim 2, wherein: the output end of the driving motor (20) is provided with a first belt pulley (21), a second belt pulley (22) is coaxially arranged on the second gear (23), and the first belt pulley (21) is in transmission connection with the second belt pulley (22).

4. The bentonite drying equipment convenient for maintenance as claimed in claim 1, wherein: the bottom of bearing packing ring (30) is provided with arc layer board (31), the top of arc layer board (31) is provided with a plurality of bearing rollers (32), bearing roller (32) interval sets up evenly on arc layer board (31) just bearing roller (32) are on a parallel with rotary furnace body (10) sets up, elevating system sets up between arc layer board (31) and bearing seat (50).

5. The bentonite drying equipment convenient for maintenance as claimed in claim 4, wherein: the both ends of arc layer board (31) articulate respectively has first staple bolt (41) and second staple bolt (42), first staple bolt (41) are kept away from the one end of arc layer board (31) and second staple bolt (42) are kept away from the one end of arc layer board (31) is passed through industry hasp (43) and can be dismantled the connection.

6. The bentonite drying equipment convenient for maintenance as claimed in claim 4, wherein: the lifting mechanism comprises a speed reducing motor (51) fixedly connected with the bearing seat (50), the output end of the speed reducing motor (51) is provided with a transmission worm (52), two sides of the transmission worm (52) are respectively meshed with a first worm wheel (53) and a second worm wheel (54), the middle parts of the first worm wheel (53) and the second worm wheel (54) are respectively provided with a first transmission rod (531) and a second transmission rod (541) in a penetrating way, two ends of the first transmission rod (531) and the second transmission rod (541) are respectively hinged with a first connecting rod (532) and a second connecting rod (542), the end parts of the first connecting rod (532) and the second connecting rod (542) are respectively provided with a first long hole (532a) and a second long hole (542a), two sides of the bottom of the arc-shaped supporting plate (31) are respectively and vertically provided with a first connecting rod (33) and a second connecting rod (34), the first connecting rod (33) and the second connecting rod (34) are both in sliding connection with the bearing seat (50), a first hinge shaft (331) matched with the first long hole (532a) is arranged on the first connecting rod (33), and a second hinge shaft (341) matched with the second long hole (542a) is arranged on the second connecting rod (34).

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