CN215796221U - Drying agent kiln outlet storage sealing box - Google Patents

Abstract

The utility model discloses a drying agent kiln outlet storage sealing box which comprises a cooling sealing box, wherein a cooling box conveying roller set is arranged on the cooling sealing box; the cooling box conveying roller group comprises a plurality of cooling box conveying roller bodies; the cooling seal box is provided with a cooling storage material through hole and a seal door assembly; the lifting layering assembly comprises a lifting frame and a lifting driving device; the lifting driving device drives the lifting frame to move along the Z direction; the lifting frame comprises at least two layered bearing components, the layered bearing components are relatively fixed, and the layered bearing components are arranged between two adjacent cooling box conveying roller bodies; the layered bearing assembly includes a layered connector and a bottom bearing. This scheme is deposited the multiunit saggar through vertical layering, replaces horizontal interval to deposit the multiunit saggar, can effectively reduce the length that the seal box was stored to the drier kiln export to reduce the whole required factory building area who occupies of seal box is stored to the drier kiln export.

Description

Drying agent kiln outlet storage sealing box

Technical Field

The utility model relates to the technical field of drying agent production and storage equipment, in particular to a drying agent kiln outlet storage sealing box.

Background

After the drying agent is heated by the kiln and becomes a finished product, the drying agent comes out of the kiln, the surface temperature of the drying agent is higher, a storage space is required to be reserved for a period of time, and then the drying agent is cooled, and in addition, if the drying agent is directly exposed in the air, the drying agent can easily absorb moisture in the air due to the characteristics of the drying agent, so that the product is scrapped. Therefore, after being sintered, the drying agent is usually required to be placed in a sealable storage space for cooling.

In order to improve the production efficiency of a factory, the prior art generally uses a desiccant cooling storage box to contain the desiccant after being discharged from the furnace, and the existing desiccant cooling storage box is usually long in length so as to require a plurality of saggars loaded with the desiccant, and the long desiccant cooling storage box occupies a large factory area.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is as follows: an outlet storage enclosure for a desiccant kiln is provided to address one or more of the technical problems of the prior art, and to provide at least one advantageous alternative or creation.

The solution of the utility model for solving the technical problem is as follows:

the drying agent kiln outlet storage sealing box is provided with an X direction, a Y direction and a Z direction which are mutually orthogonal; the desiccant kiln outlet storage seal box comprises:

a cooling seal box provided with a cooling storage feed port;

a sealing door assembly for closing the cooling seal box;

the material conveying assembly comprises a material conveying line arranged in the cooling seal box, the material conveying line is provided with a feeding end and a discharging end, and the feeding end is in butt joint with the cooling storage material through hole;

the lifting and layering assembly comprises a lifting frame and a lifting driving device, the lifting frame is arranged in the cooling seal box, and the lifting driving device drives the lifting frame to move along the Z direction; the lifting frame comprises at least two bottom bearing pieces, the bottom bearing pieces are arranged at intervals along the Z direction, and the bottom bearing pieces are used for bearing materials at the discharge end.

Through the scheme, after the drying agent is sintered, the drying agent is conveyed to the cooling seal box from the kiln, the saggar filled with the drying agent is conveyed to the position above the bottom supporting piece, then the lifting driving device is started to drive the lifting frame to ascend, so that the bottom supporting piece is driven to ascend, the process is continued until all the bottom supporting pieces bear the saggar and are lifted to the position above the material conveying component, and then the seal door assembly seals the cooling seal box to cool the saggar and the drying agent. This scheme is deposited the multiunit saggar through vertical layering, replaces horizontal interval to deposit the multiunit saggar, can effectively reduce the length that the seal box was stored to the drier kiln export to reduce the whole required factory building area who occupies of seal box is stored to the drier kiln export.

As a further improvement of the above technical solution, the lifting frame further comprises a layered connecting member, the plurality of bottom supporting members arranged along the Z direction are all fixed relative to the layered connecting member, and the layered connecting member and the plurality of bottom supporting members are combined to form a layered supporting assembly; the number of the layered bearing assemblies is at least two, and the layered bearing assemblies are arranged at intervals along the X direction; two adjacent be provided with the structure reinforcement between the layering bearing subassembly, the both ends of structure reinforcement respectively with two layering connecting piece fixed connection, the quantity of structure reinforcement is at least two, and is a plurality of the structure reinforcement equipartition in the both ends of layering connecting piece.

Through above-mentioned scheme, two layering bearing subassemblies can be connected to the structural reinforcement, and the holistic structural strength of reinforcing crane avoids lift layering assembly during operation layering bearing subassembly to take place the skew, guarantees layering bearing subassembly.

As a further improvement of the above technical solution, the number of the layered connecting pieces of each layered bearing assembly is two, the two layered connecting pieces are arranged along the Y direction, and two ends of the bottom bearing piece in the Y direction are respectively fixedly connected with the two layered connecting pieces.

Through the scheme, the layered connecting pieces are respectively arranged on two sides of the bottom bearing piece, and one end of the bottom bearing piece is prevented from being suspended, so that the suspended end of the bottom bearing piece is prevented from inclining downwards under the action of the saggar and the gravity of the saggar.

As a further improvement of the above technical solution, the material conveying assembly includes a plurality of cooling box conveying roller bodies, the cooling box conveying roller bodies extend along the Y direction, and the plurality of cooling box conveying roller bodies are linearly arranged along the X direction; the layered bearing assembly is arranged between the two adjacent cooling box conveying roller bodies in a penetrating mode.

Through above-mentioned scheme, through setting up material conveying component into roller transport structure, be favorable to the heat dissipation of transportation casket-like bowl. And set up layering bearing subassembly and carry the roll body between and go up and down from two adjacent cooling box, enable the stable falling in bottom bearing piece top of sagger ability and by bottom bearing piece lifting.

As a further improvement of the above technical solution, the sealing door assembly includes a door panel assembly and a door panel driving member, the door panel driving member is fixed to the cooling seal box, and the door panel driving member drives the door panel assembly to be close to or far from the cooling storage material passing opening.

Through above-mentioned scheme, door plant driving piece drive door plant subassembly seals the cooling and stores logical material mouth, makes the cooling seal box sealed, avoids external steam and drier contact.

As a further improvement of the above technical scheme, the door plant subassembly includes drive plate body and sealed plate body, the drive plate body with the door plant driving piece is connected, the drive plate body with be provided with two at least door plant connecting rods that are parallel to each other between the sealed plate body, the both ends of door plant connecting rod respectively with the drive plate body and the sealed plate body is articulated, the sealed plate body set up in the drive plate body is close to one side of logical material mouth is stored in the cooling, the cooling seal box is provided with the locating part, the sealed plate body is kept away from the terminal surface of door plant driving piece with the locating part butt.

Through above-mentioned scheme, the door plant driving piece drives behind the drive plate body downstream to the particular position, and sealing plate body and locating part butt, sealing plate body are spacing by the locating part, and unable downstream can only follow the X direction motion, along with drive plate body downstream, sealing plate body moves to the direction motion of being close to the cooling storage feed opening along the X direction, and the packing force of sealing plate body and cooling seal incasement wall is adjusted to accessible door plant driving piece, makes the sealing performance of cooling seal incasement stronger.

As a further improvement of the above technical scheme, the drying agent kiln outlet storage sealing box further comprises a waste heat recovery box; the waste heat recovery box is provided with a waste heat box conveying assembly, a sagger conveying channel extending along the X direction is arranged above the waste heat box conveying assembly, and the waste heat box conveying assembly is in butt joint with the cooling box conveying roller set; the waste heat recovery tank is provided with a waste heat recovery pipeline, and the waste heat recovery pipeline is communicated with the waste heat recovery tank; the waste heat recovery case with cooling seal case fixed connection, the waste heat recovery case with the cooling is stored and is led to the material mouth and be linked together, the waste heat recovery case is equipped with the waste heat recovery feed inlet, the waste heat recovery feed inlet set up in the waste heat recovery case is kept away from the one end that the material mouth was led to in the cooling storage.

Through the scheme, the waste heat recovery box is arranged in front of the cooling sealing box, waste heat of the sintered drying agent can be recovered through the waste heat recovery pipeline before cooling, unnecessary energy consumption is reduced, and the production cost of a factory is reduced.

As a further improvement of the above technical scheme, the waste heat recovery tank is further provided with a material blocking assembly, the material blocking assembly is arranged below the waste heat recovery pipeline, and the material blocking assembly is arranged at one end of the waste heat recovery tank close to the cooling seal tank; the material blocking assembly comprises a material blocking driving part and a material blocking part used for blocking sagger transportation, the material blocking driving part is relatively fixed with the waste heat recovery box, and the material blocking driving part drives the material blocking part to enter or be separated from the sagger transportation channel.

Through above-mentioned scheme, keep off the material assembly and be used for keeping off the casket-like bowl and continue to advance, make the casket-like bowl spacing in waste heat recovery pipeline's below, guarantee that the waste heat energy of casket-like bowl is by better recovery of waste heat recovery pipeline.

As a further improvement of the above technical scheme, the waste heat tank conveying assembly comprises a plurality of waste heat tank conveying roller bodies, and the plurality of waste heat tank conveying roller bodies are arranged along the X direction; the material blocking assembly is arranged between the adjacent waste heat box conveying roller bodies, the material blocking driving part and the end face of the waste heat recovery box in the Z direction are relatively fixed, and the material blocking driving part drives the material blocking part to move along the Z direction.

Through above-mentioned scheme, through setting up waste heat box transport assembly into the form of conveying roller transportation, after the casket-like bowl was spacing, the friction between roll body and the casket-like bowl will be little in the belt transportation relatively, can effectively improve the life of casket-like bowl. The material blocking part can extend out from the position between two adjacent waste heat box conveying roller bodies in a conveying mode of conveying rollers, material blocking can be realized through one material blocking driving part arranged on the waste heat box conveying assembly, the two material blocking parts on the front side and the rear side are prevented from being driven by the two material blocking driving parts respectively, and the manufacturing cost of the machine is prevented from being increased; if two keep off material driving piece wherein arbitrary one can't work, lead to the casket-like bowl only one by keeping off the material piece spacing to lead to the deflection of casket-like bowl, keep off material driving piece drive through setting up and keep off the deflection that the material piece can avoid the casket-like bowl from upwards wearing out between two adjacent waste heat box conveying roller bodies.

As a further improvement of the technical scheme, the lifting driving device comprises a lifting driving piece, a lifting chain wheel and a lifting chain, the lifting driving piece is relatively fixed with the cooling seal box, the lifting driving piece drives the lifting chain wheel to rotate, the lifting chain wheel is meshed with the lifting chain, the lifting chain is connected with the lifting frame, and the lifting chain drives the lifting frame to move along the Z direction.

Through above-mentioned scheme, the lift driving piece drive lift chain commentaries on classics rotates to drive the motion of lift chain, and then drive the crane up-and-down motion.

The utility model has the beneficial effects that: this scheme is deposited the multiunit saggar through vertical layering, replaces horizontal interval to deposit the multiunit saggar, can effectively reduce the length that the seal box was stored to the drier kiln export to reduce the whole required factory building area who occupies of seal box is stored to the drier kiln export.

The utility model is used for the technical field of drying agent production and storage equipment.

Drawings

In order to more clearly illustrate the technical solution in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. It is clear that the described figures are only some embodiments of the utility model, not all embodiments, and that a person skilled in the art can also derive other designs and figures from them without inventive effort.

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present invention;

FIG. 2 is a schematic view of a half-section of an embodiment of the present invention;

FIG. 3 is a schematic diagram of the overall construction of a lift subassembly according to an embodiment of the present invention;

FIG. 4 is a schematic view of the overall structure of a sealing door assembly according to an embodiment of the present invention;

FIG. 5 is a schematic side view of a sealing door assembly according to an embodiment of the utility model.

In the figure, 100, a sealed box is cooled; 110. the cooling box conveys the roller body; 120. cooling, storing and feeding the material; 130. a limiting member; 200. a sealing door assembly; 210. a door panel assembly; 211. a drive plate body; 212. a sealing plate body; 213. a door panel connecting rod; 214. a sealing strip; 220. a door panel driving member; 300. a lifting layering assembly; 310. a lifting frame; 311. a layered support assembly; 312. a layered connector; 313. a bottom support; 314. a structural reinforcement; 320. a lift drive; 321. a lifting drive member; 322. a lifting sprocket; 323. a lifting chain; 324. a balancing weight; 400. a waste heat recovery tank; 411. a sagger transport channel; 412. the waste heat box conveying roller body; 420. a waste heat recovery pipeline; 430. a material stopping assembly; 431. a material blocking driving part; 432. keep off the material piece.

Detailed Description

The conception, the specific structure, and the technical effects produced by the present invention will be clearly and completely described below in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the features, and the effects of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and those skilled in the art can obtain other embodiments without inventive effort based on the embodiments of the present invention, and all embodiments are within the protection scope of the present invention. In addition, all the coupling/connection relationships mentioned herein do not mean that the components are directly connected, but mean that a better coupling structure can be formed by adding or reducing coupling accessories according to specific implementation conditions. All technical characteristics in the utility model can be interactively combined on the premise of not conflicting with each other.

Referring to fig. 1 to 5, an outlet storage seal box of a desiccant kiln is provided with an X direction, a Y direction, and a Z direction, which are orthogonal to each other. Wherein the X-direction and the Y-direction are set as the horizontal direction, and the Z-direction is set as the vertical direction.

The desiccant kiln exit storage seal box comprises a frame, a cooling seal box 100, a lifting and lowering layer assembly 300, a seal door assembly 200 and a waste heat recovery box 400. The cooling seal box 100 and the waste heat recovery box 400 are both fixedly connected with the frame. The cooling seal box 100 and the waste heat recovery box 400 are arranged along the X direction, and the cooling seal box 100 and the waste heat recovery box 400 are tightly and fixedly connected.

The end surface of the waste heat recovery box 400 far away from the cooling seal box 100 is provided with a waste heat recovery feed inlet. A waste heat tank conveying assembly and a material blocking assembly 430 are arranged in the waste heat recovery tank 400. A sagger transportation channel 411 is arranged in the waste heat recovery box 400, the sagger transportation channel 411 is a virtual rectangular parallelepiped channel (shown by a dotted line frame in fig. 2), and the sagger transportation channel 411 is arranged above the waste heat box transportation assembly and extends along the X direction. The saggars are transported in the X direction in the saggar transport path 411.

The upper end surface of the waste heat recovery tank 400 is provided with three waste heat recovery pipelines 420, and two ends of the waste heat recovery pipelines 420 are respectively communicated with the waste heat recovery system and the waste heat recovery tank 400.

The waste heat tank conveying assembly is disposed at a lower portion of the waste heat recovery tank 400. The waste heat box conveying assembly comprises a plurality of waste heat box conveying roller bodies 412, the waste heat box conveying roller bodies 412 extend along the Y direction, and the plurality of waste heat box conveying roller bodies 412 are arranged along the X direction. The plurality of waste heat tank conveying roller bodies 412 are synchronously rotated by chain transmission, and are provided with driving motors which are fixedly installed at the lower parts of the waste heat recovery tanks 400 and drive the chains to rotate.

The baffle assembly 430 is disposed below the waste heat recovery pipe 420 closest to the cooling seal box 100, and the baffle assembly 430 is disposed between two adjacent waste heat box conveying roller bodies 412 closest to one end of the cooling seal box 100. The stock stop assembly 430 includes a stock stop drive 431 and a stock stop 432 for stopping the transportation of the sagger. The material blocking driving part 431 is installed on the lower end face of the waste heat recovery tank 400, and a guide sleeve and a guide rod are arranged between the material blocking part 432 and the waste heat recovery tank 400, so that the material blocking part 432 cannot deflect around an axis parallel to the Z direction in the movement process. The material blocking driving part 431 drives the material blocking part 432 to move into or out of the sagger transportation channel 411 along the Z direction (in other embodiments, the material blocking driving part 431 may also be installed on the upper end surface of the waste heat recovery box 400, at this time, the material blocking driving part 431 drives the material blocking part 432 to move along the Z direction; the material blocking driving part 431 may also be installed on the front end surface and/or the rear end surface of the waste heat recovery box 400, and the material blocking driving part 431 drives the material blocking part 432 to move into or out of the sagger transportation channel 411 along the Y direction.

The cooling seal box 100 is provided with a cooling storage material inlet 120 near the end surface of the waste heat recovery box 400, and the cooling storage material inlet 120 is communicated with the waste heat recovery box 400.

The cooling seal box 100 is internally provided with a cooling box conveying roller group which is provided with a feeding end and a discharging end, wherein the feeding end is arranged on one side of the cooling seal box 100 close to the waste heat recovery box 400, and the discharging end is arranged far away from the waste heat recovery box 400. The number of the cooling box conveying roller sets is two, the two cooling box conveying roller sets are arranged along the X direction, and the feeding end of the cooling conveying roller set at the back is in butt joint with the discharging end of the cooling conveying roller set at the front. And the cooling conveying roller group close to one side of the waste heat recovery tank 400 is butted with the waste heat tank conveying roller group. The cooling box conveying roller group is provided with a plurality of cooling box conveying roller bodies 110, the cooling box conveying roller bodies 110 extend in the Y direction, and the plurality of cooling box conveying roller bodies 110 are arranged in the X direction. The plurality of cooling tank conveying roller bodies 110 are synchronously rotated by chain transmission, and are provided with a driving motor which is fixedly installed at the lower portion of the waste heat recovery tank 400 and drives the chains to rotate.

The sealing door assembly 200 is disposed at one end of the cooling seal box 100 close to the waste heat recovery box 400, and the sealing door assembly 200 is used for sealing the cooling storage material passing opening 120. The sealing door assembly 200 includes a door panel assembly 210 and a door panel drive 220.

Door plant subassembly 210 includes drive plate body 211 and sealed plate body 212, drive plate body 211 and sealed plate body 212 are parallel to each other, be provided with door plant connecting rod 213 between drive plate body 211 and the sealed plate body 212, door plant connecting rod 213 remains throughout to keep away from the state of drive plate body 211 downward sloping, door plant connecting rod 213's both ends are articulated with drive plate body 211 and sealed plate body 212 respectively, door plant connecting rod 213's quantity sets up to four, two a set of two of four door plant connecting rods 213 set up respectively in drive plate body 211 both ends in the Y side, sealed plate body 212, be formed with parallelogram link mechanism between two door plant connecting rods 213 of drive plate body 211 and lie in same end, make sealed plate body 212 and drive plate body 211 remain throughout and parallel. A sealing strip 214 is fixedly connected to the periphery of the sealing plate body 212 near the end surface of the cooling storage through hole 120.

The door panel driving member 220 is fixedly installed on the upper end surface of the cooling seal box 100, the door panel driving member 220 is configured as a linear cylinder (in other embodiments, the door panel driving member 220 may also be configured as a linear driving device such as a linear hydraulic cylinder and a linear motor), and an output rod of the door panel driving member 220 extends into the cooling seal box 100 and is fixedly connected with the driving plate 211. The door panel driving member 220 drives the driving plate 211 to move along the Z direction. The inner sidewall of the cooling seal box 100 is fixedly connected with a limiting member 130, the limiting member 130 is disposed below the cooling storage material passing opening 120, and the limiting member 130 extends along the Y direction. After the door panel driving member 220 drives the driving plate body 211 to move downward to a specific position, the sealing plate body 212 abuts against the limiting member 130, the sealing plate body 212 is limited by the limiting member 130, cannot move downward and can only move along the X direction, along with the downward movement of the driving plate body 211, the sealing plate body 212 moves towards the direction close to the cooling storage material feeding port 120, and the pressing force between the sealing plate body 212 and the inner wall of the cooling seal box 100 can be adjusted through the door panel driving member 220, so that the sealing performance of the cooling seal box 100 is stronger. In other embodiments, the door driving member 220 may be installed on a side wall of the cooling seal box 100 in the Y direction, the door driving member 220 drives the driving plate 211 to move along the Y direction, and the limiting member 130 is disposed on a side of the cooling storage material passing opening 120 away from the door driving member 220 in the Y direction.

The lifting and lowering assembly 300 is disposed between two cooling box conveyor roller sets. The lifting and lowering layered assembly 300 includes a lifting frame 310 and a lifting and lowering driving device 320. The crane 310 includes at least two layered support members 311, in this embodiment, the number of the layered support members 311 is set to two, and the two layered support members 311 are arranged along the X direction, in other embodiments, the number of the layered support members 311 may be set to three, four, etc. to better support the saggar. The layered bearing assembly 311 comprises two layered connectors 312 and three bottom bearings 313, the number of the layered connectors 312 of each layered bearing assembly 311 is two, the number of the bottom bearings 313 is three, the two layered connectors 312 are arranged along the Y direction, and the three bottom bearings 313 are arranged along the Z direction. The layered connecting pieces 312 extend along the Z direction, the bottom supporting pieces 313 extend along the Y direction, and two ends of the bottom supporting pieces 313 in the Y direction are fixedly connected with the two layered connecting pieces 312 respectively. Be provided with structure reinforcement 314 between two layering supporting member, the quantity of structure reinforcement 314 is four, four structure reinforcement 314 matrix distributions, and structure reinforcement 314 extends along the X direction, and the both ends of structure reinforcement 314 respectively with two layering supporting component 311's layering connecting piece 312 fixed connection, make crane 310 wholly be cuboid frame construction.

The lifting driving device 320 includes a lifting driving member 321, a lifting sprocket 322, a lifting chain 323, and a weight 324. The lifting driving member 321 is configured as a rotary motor, and in other embodiments, other common rotary driving devices such as a rotary air cylinder or a rotary hydraulic cylinder may be used. The lifting driving member 321 is fixedly installed on the upper end surface of the cooling seal box 100, the lifting driving member 321 is fixedly connected with the lifting chain wheel 322, and the lifting driving member 321 drives the lifting chain wheel 322 to rotate. One end of the lifting chain 323 is fixedly connected with the lifting frame 310, and the other end of the lifting chain 323 bypasses the lifting chain wheel 322 to be fixedly connected with the balancing weight 324, so that the force applied to the lifting driving member 321 when the lifting frame 310 is lifted can be reduced, and the service life of the lifting driving member 321 is indirectly prolonged.

While the preferred embodiments of the present invention have been illustrated and described, it will be understood by those skilled in the art that the present invention is not limited to the details of the embodiments shown and described, but is capable of numerous equivalents and substitutions without departing from the spirit of the utility model as set forth in the claims appended hereto.

Claims (10)

1. Sealing box is stored to drier kiln export, its characterized in that: has X direction, Y direction and Z direction which are mutually orthogonal; the desiccant kiln outlet storage seal box comprises:

a cooling seal box (100) provided with a cooling storage feed port (120);

a sealing door assembly (200), said sealing door assembly (200) for closing said cooling enclosure (100);

the material conveying assembly comprises a material conveying line arranged in the cooling seal box (100), the material conveying line is provided with a feeding end and a discharging end, and the feeding end is in butt joint with the cooling storage material through hole (120);

the lifting and layering assembly (300) comprises a lifting frame (310) and a lifting driving device (320), the lifting frame (310) is arranged in the cooling seal box (100), and the lifting driving device (320) drives the lifting frame (310) to move along the Z direction; the lifting frame (310) comprises at least two bottom supporting pieces (313), the bottom supporting pieces (313) are arranged at intervals along the Z direction, and the bottom supporting pieces (313) are used for bearing materials at the discharging end.

2. The desiccant kiln exit storage seal box of claim 1, wherein: the lifting frame (310) further comprises a layered connecting piece (312), a plurality of bottom bearing pieces (313) arranged along the Z direction are fixed relative to the layered connecting piece (312), and the layered connecting piece (312) and the plurality of bottom bearing pieces (313) are combined to form a layered bearing component (311); the number of the layered bearing components (311) is at least two, and a plurality of the layered bearing components (311) are arranged at intervals along the X direction; be provided with between two adjacent layering supporting subassembly (311) structural reinforcement (314), the both ends of structural reinforcement (314) respectively with two layering connecting piece (312) fixed connection, the quantity of structural reinforcement (314) is at least two, a plurality of structural reinforcement (314) equipartition in the both ends of layering connecting piece (312).

3. The desiccant kiln exit storage seal box of claim 2, wherein: the number of the layered connecting pieces (312) of each layered bearing component (311) is two, the two layered connecting pieces (312) are arranged along the Y direction, and two ends of the bottom bearing piece (313) in the Y direction are respectively fixedly connected with the two layered connecting pieces (312).

4. The desiccant kiln exit storage seal box of claim 2, wherein: the material conveying assembly comprises a plurality of cooling box conveying roller bodies (110), the cooling box conveying roller bodies (110) extend along the Y direction, and the cooling box conveying roller bodies (110) are linearly arranged along the X direction; the layered bearing component (311) is arranged between two adjacent cooling box conveying roller bodies (110) in a penetrating mode.

5. The desiccant kiln exit storage seal box of claim 1, wherein: the sealing door assembly (200) comprises a door panel assembly (210) and a door panel driving part (220), the door panel driving part (220) is fixed on the cooling sealing box (100), and the door panel driving part (220) drives the door panel assembly (210) to be close to or far away from the cooling storage material passing opening (120).

6. The desiccant kiln exit storage seal box of claim 5, wherein: door plant subassembly (210) are including drive plate body (211) and sealing plate body (212), drive plate body (211) with door plant driving piece (220) are connected, drive plate body (211) with be provided with two at least door plant connecting rod (213) of parallel arrangement each other between sealing plate body (212), the both ends of door plant connecting rod (213) respectively with drive plate body (211) and sealing plate body (212) are articulated, sealing plate body (212) set up in drive plate body (211) are close to one side of cooling storage feed through mouth (120), cooling seal box (100) are provided with locating part (130), sealing plate body (212) are kept away from the terminal surface of door plant driving piece (220) with locating part (130) butt.

7. The desiccant kiln exit storage seal box of claim 1, wherein: the drying agent kiln outlet storage sealing box also comprises a waste heat recovery box (400); the waste heat recovery box (400) is provided with a waste heat box conveying assembly, a sagger conveying channel (411) extending along the X direction is arranged above the waste heat box conveying assembly, and the waste heat box conveying assembly is in butt joint with the cooling box conveying roller set; the waste heat recovery tank (400) is provided with a waste heat recovery pipeline (420), and the waste heat recovery pipeline (420) is communicated with the waste heat recovery tank (400); waste heat recovery case (400) with cooling seal case (100) fixed connection, waste heat recovery case (400) with cooling storage leads to material mouth (120) and is linked together, waste heat recovery case (400) are equipped with the waste heat recovery feed inlet, the waste heat recovery feed inlet set up in waste heat recovery case (400) are kept away from the one end that the material mouth (120) led to is stored in the cooling.

8. The desiccant kiln exit storage seal box of claim 7, wherein: the waste heat recovery tank (400) is further provided with a material blocking assembly (430), the material blocking assembly (430) is arranged below the waste heat recovery pipeline (420), and the material blocking assembly (430) is arranged at one end, close to the cooling sealing tank (100), of the waste heat recovery tank (400); the material blocking assembly (430) comprises a material blocking driving part (431) and a material blocking part (432) for blocking sagger transportation, the material blocking driving part (431) is relatively fixed with the waste heat recovery box (400), and the material blocking driving part (431) drives the material blocking part (432) to enter or be separated from the sagger transportation channel (411).

9. The desiccant kiln exit storage seal box of claim 8, wherein: the waste heat box conveying assembly comprises a plurality of waste heat box conveying roller bodies (412), and the plurality of waste heat box conveying roller bodies (412) are arranged along the X direction; keep off material assembly (430) and set up in adjacent two waste heat tank carries between the roll body (412), keep off material driving piece (431) with waste heat recovery case (400) is relatively fixed at the terminal surface of Z direction, keep off material driving piece (431) drive keep off material piece (432) and move along the Z direction.

10. The desiccant kiln exit storage seal box of claim 1, wherein: the lifting driving device (320) comprises a lifting driving piece (321), a lifting chain wheel (322) and a lifting chain (323), the lifting driving piece (321) is relatively fixed with the cooling sealing box (100), the lifting driving piece (321) drives the lifting chain wheel (322) to rotate, the lifting chain wheel (322) is meshed with the lifting chain (323), the lifting chain (323) is connected with the lifting frame (310), and the lifting chain (323) drives the lifting frame (310) to move along the Z direction.

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