CN215197988U - Honeycomb ceramic carrier catalyst coating drying device - Google Patents

Abstract

The utility model discloses a honeycomb ceramic carrier catalyst coating drying device, including the thick liquids case that is used for placing catalyst coating thick liquids, the top of this thick liquids case is provided with a elevating gear, and this elevating gear's lifter stretches out downwards, and the rod end of lifter installs the lifter plate, just a plurality of montant that stretches out downwards is still installed to the outside round of lifter plate, and in the montant moved down the back along with the lifter plate and can stretch into the thick liquids case, and the horizontal pole still all installed to the medial surface of each montant. When the honeycomb ceramic carrier moves upwards, the device can blow air to the aeration disc through the hot air device, heat flow is blown into the honeycomb ceramic carrier below from the aeration port, redundant slurry in the honeycomb ceramic carrier is gradually removed firstly, and then the coating is slowly dried; the honeycomb ceramic carrier is installed through the clamping sleeve, is through up and down, and is convenient for cleaning and drying slurry.

Description

Honeycomb ceramic carrier catalyst coating drying device

Technical Field

The utility model relates to the technical field of coating of honeycomb ceramic carrier catalysts; in particular to a honeycomb ceramic carrier catalyst coating and drying device.

Background

In the prior art, when a honeycomb ceramic carrier is coated with catalyst slurry, it is required that honeycomb holes in the honeycomb ceramic carrier are all coated in place, and after the honeycomb holes are coated in place, the catalyst slurry in the honeycomb ceramic carrier needs to be dried by arranging a drying device.

In the existing drying device for coating the honeycomb ceramic carrier catalyst, after the honeycomb ceramic carrier is coated, the honeycomb ceramic carrier is transferred to drying equipment for drying operation, the drying efficiency is poor, and the coating can fall off in the transfer process, so that the drying device is quite inconvenient.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: aiming at the defects existing in the prior art, the honeycomb ceramic carrier catalyst coating and drying device is provided.

The technical scheme is as follows: in order to realize the purpose of the utility model, the utility model discloses a technical scheme as follows: the utility model provides a honeycomb ceramic carrier catalyst coating drying device, is including the thick liquids case that is used for placing catalyst coating thick liquids, and the top of this thick liquids case is provided with a elevating gear, and this elevating gear's lifter stretches out downwards, and the rod end of lifter installs the lifter plate, just a plurality of montant that stretches out downwards is still installed to the outside round of lifter plate, and the montant can stretch into in the thick liquids case along with the lifter plate moves down the back, and the horizontal pole is still all installed to the medial surface of each montant to the corresponding clamp that installs the open type through the horizontal pole adorns the sleeve, and honeycomb ceramic carrier can correspondingly fix and press from both sides in the dress sleeve.

The lifting device is characterized in that electric pushing devices are further mounted on two sides of the lifting device, push rods of the electric pushing devices on the two sides are arranged downwards, the push rods on the two sides penetrate through the lifting plate downwards, an aeration disc is correspondingly mounted at the lower end of each push rod, the aeration disc corresponds to the lower clamping sleeve in the setting position, an aeration opening is correspondingly formed in the lower end face of the aeration disc, a hot air device is further mounted on the lifting plate, the hot air device is connected with the aeration disc through a hot air pipeline, and hot air in the hot air device can be introduced into the aeration disc to blow towards the clamping sleeve.

Furthermore, the upper opening and the lower opening of the clamping sleeve are provided, the inner side surface of each clamping sleeve is provided with a vertical notch, and the corresponding notches of the honeycomb ceramic carrier are embedded in the clamping sleeve.

Furthermore, the size of the gap is set to be one fourth of the whole clamping sleeve, and the inner diameter of the clamping sleeve is matched with the outer diameter of the honeycomb ceramic carrier, so that the honeycomb ceramic carrier can be correspondingly clamped in the clamping sleeve.

Furthermore, the number of the cross rods on each vertical rod is two, and the number of the clamping sleeves is five with uniform intervals.

Further, the aeration openings on the aeration disc are all arranged at the outer edge and correspond to the positions of the clamping sleeves arranged on the vertical rods.

Furthermore, hot air devices are correspondingly arranged on two sides of the lifting plate, and hot air pipelines connected with the hot air devices are correspondingly arranged to be spring tube structures.

Has the advantages that: compared with the prior art, the utility model, have following advantage:

(1) in the device, a lifting plate and a lifting device are arranged above a slurry box, a vertical rod is arranged at the outer edge of the lifting plate and extends downwards, the vertical rod is provided with a vertical clamping sleeve through the arranged connecting rod, the upper end and the lower end of the clamping sleeve are both provided with openings, a vertical gap is also arranged at the position of the inner side end, the size and the position of the gap are correspondingly arranged, and the size of the clamping sleeve is also correspondingly arranged, so that the honeycomb ceramic carrier can be correspondingly clamped in the clamping sleeve, and is immersed into a slurry box under the drive of a lifting plate, catalyst coating slurry is arranged in the slurry box, after the honeycomb ceramic carrier is immersed, the honeycomb holes in the honeycomb ceramic carrier are correspondingly coated, then the honeycomb ceramic carrier is moved upwards, and the redundant slurry is removed completely, so that the catalyst coating work of the honeycomb ceramic carrier can be conveniently completed;

(2) the device is characterized in that electric pushing devices are arranged on two sides of the lifting device, a push rod penetrates through the lifting plate downwards and is provided with an aeration disc, an aeration port is arranged on the lower end face of the aeration disc, a hot air device is arranged on the lifting plate and is connected with the aeration disc through a hot air pipeline, after the arrangement is carried out, after the honeycomb ceramic carrier moves upwards, air can be blown to the aeration disc through the hot air device, heat flow is blown to the honeycomb ceramic carrier below the aeration port, redundant slurry in the honeycomb ceramic carrier is gradually removed, and then the coating is dried slowly; the honeycomb ceramic carrier is installed through the clamping sleeve and is through up and down, so that slurry is convenient to clean and dry; the upper position and the lower position of the aeration disc can be conveniently adjusted by arranging the electric pushing device, the position of the honeycomb ceramic carrier is adjusted according to the lower position, and the aeration disc is always positioned at a proper position above the honeycomb ceramic carrier, so that the aeration disc is reasonable in structure and convenient to use.

Drawings

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

fig. 2 is a top view of the middle lifting plate of the present invention.

Detailed Description

The present invention will be further clarified by the following embodiments with reference to the attached drawings, which are implemented on the premise of the technical solution of the present invention, and it should be understood that these embodiments are only used for illustrating the present invention and are not used for limiting the scope of the present invention.

As shown in fig. 1 and 2, a honeycomb ceramic carrier catalyst coating and drying device comprises a slurry tank 1 for placing catalyst coating slurry, wherein a lifting device 2 is arranged above the slurry tank 1, a lifting rod 3 of the lifting device 2 extends downwards, a lifting plate 4 is installed at the rod end of the lifting rod 3, a plurality of vertical rods 5 extending downwards are further installed on the outer circle of the lifting plate 4, the vertical rods 5 can extend into the slurry tank 1 after moving downwards along with the lifting plate 4, a cross rod 6 is further installed on the inner side end face of each vertical rod 5, an open type clamping sleeve 7 is correspondingly installed through the cross rod 6, and a honeycomb ceramic carrier 8 can be correspondingly fixed in the clamping sleeve 7.

In the device, a lifting plate and a lifting device are arranged above a slurry box, a vertical rod is arranged at the outer edge of the lifting plate and extends downwards, the vertical rod is provided with a vertical clamping sleeve through the arranged connecting rod, the upper end and the lower end of the clamping sleeve are both provided with openings, a vertical gap is also arranged at the position of the inner side end, the size and the position of the gap are correspondingly arranged, and the size of the clamping sleeve is also correspondingly arranged, so that the honeycomb ceramic carrier can be correspondingly clamped in the clamping sleeve, and is immersed into a slurry box under the drive of a lifting plate, catalyst coating slurry is arranged in the slurry box, after the honeycomb ceramic carrier is immersed, the honeycomb holes in the honeycomb ceramic carrier are correspondingly coated, then the honeycomb ceramic carrier is moved upwards, and redundant slurry is removed completely, so that the catalyst coating work of the honeycomb ceramic carrier can be conveniently completed.

Electric pushing devices 9 are further mounted on two sides of the lifting device 2, push rods 10 of the electric pushing devices 9 on the two sides are mounted downwards, the push rods 10 on the two sides penetrate the lifting plate 4 downwards, an aeration disc 11 is correspondingly mounted at the lower end of the push rods 10, the aeration disc 11 corresponds to the lower clamping sleeve 7 in the setting position, an aeration opening 12 is correspondingly formed in the lower end face of the aeration disc 11, a hot air device 13 is further mounted on the lifting plate 4, the hot air device 13 is connected with the aeration disc 11 through a hot air pipeline 14, and hot air in the hot air device 13 can be introduced into the aeration disc 11 and blown to the clamping sleeve 7.

The upper and lower openings of the clamping sleeve 7 are arranged, the inner side surface of each clamping sleeve 7 is provided with a vertical gap 15, and the corresponding gap 15 of the honeycomb ceramic carrier 8 is embedded in the clamping sleeve 7.

The size of the gap 15 is set to be one fourth of the whole clamping sleeve 7, and the inner diameter of the clamping sleeve 7 is matched with the outer diameter of the honeycomb ceramic carrier 8, so that the honeycomb ceramic carrier 8 can be correspondingly clamped in the clamping sleeve 7; the number of the cross rods 6 on each vertical rod 5 is two, and the number of the clamping sleeves 7 is five with even intervals.

The aeration openings 12 on the aeration disc 11 are all arranged at the outer edge and correspond to the positions of the clamping sleeves 7 arranged on the vertical rods 5; both sides of the lifting plate 4 are correspondingly provided with hot air devices 13, and hot air pipes 14 connected with the hot air devices 13 are correspondingly arranged to be spring pipe structures.

The device is characterized in that electric pushing devices are arranged on two sides of the lifting device, a push rod penetrates through the lifting plate downwards and is provided with an aeration disc, an aeration port is arranged on the lower end face of the aeration disc, a hot air device is arranged on the lifting plate and is connected with the aeration disc through a hot air pipeline, after the arrangement is carried out, after the honeycomb ceramic carrier moves upwards, air can be blown to the aeration disc through the hot air device, heat flow is blown to the honeycomb ceramic carrier below the aeration port, redundant slurry in the honeycomb ceramic carrier is gradually removed, and then the coating is dried slowly; the honeycomb ceramic carrier is installed through the clamping sleeve and is through up and down, so that slurry is convenient to clean and dry; the upper position and the lower position of the aeration disc can be conveniently adjusted by arranging the electric pushing device, the position of the honeycomb ceramic carrier is adjusted according to the lower position, and the aeration disc is always positioned at a proper position above the honeycomb ceramic carrier, so that the aeration disc is reasonable in structure and convenient to use.

The detailed description is to be construed as exemplary only and is not intended to limit the scope of the invention, which is defined by the appended claims, and all changes and modifications that come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims (6)

1. The utility model provides a honeycomb ceramic carrier catalyst coating drying device which characterized in that: the device comprises a slurry box (1) for placing catalyst coating slurry, wherein a lifting device (2) is arranged above the slurry box (1), a lifting rod (3) of the lifting device (2) extends downwards, a lifting plate (4) is installed at the rod end of the lifting rod (3), a plurality of vertical rods (5) extending downwards are further installed on one circle of the outer side of the lifting plate (4), the vertical rods (5) can extend into the slurry box (1) after moving downwards along with the lifting plate (4), a cross rod (6) is further installed on the end face of the inner side of each vertical rod (5), an open clamping sleeve (7) is correspondingly installed through the cross rod (6), and a honeycomb ceramic carrier (8) can be correspondingly fixed in the clamping sleeve (7);

the electric pushing device (9) is further installed on two sides of the lifting device (2), push rods (10) of the electric pushing devices (9) on the two sides are installed downwards, the push rods (10) on the two sides penetrate through the lifting plate (4) downwards, an aeration disc (11) is correspondingly installed at the lower end of each push rod (10), the aeration disc (11) corresponds to the setting position of the clamping sleeve (7) below, an aeration opening (12) is correspondingly formed in the lower end face of each aeration disc (11), a hot air device (13) is further installed on each lifting plate (4), the hot air device (13) is connected with the aeration disc (11) through a hot air pipeline (14), and hot air in the hot air device (13) can be introduced into the aeration disc (11) and blown to the clamping sleeve (7).

2. The honeycomb ceramic carrier catalyst coating and drying device of claim 1, wherein: the upper opening and the lower opening of the clamping sleeve (7), the inner side surface of each clamping sleeve (7) is provided with a vertical gap (15), and the corresponding gap (15) of the honeycomb ceramic carrier (8) is embedded in the clamping sleeve (7).

3. The honeycomb ceramic carrier catalyst coating and drying device of claim 2, wherein: the size of the gap (15) is set to be one fourth of the whole clamping sleeve (7), and the inner diameter of the clamping sleeve (7) is matched with the outer diameter of the honeycomb ceramic carrier (8), so that the honeycomb ceramic carrier (8) can be correspondingly clamped in the clamping sleeve (7).

4. The honeycomb ceramic carrier catalyst coating and drying device of claim 1, wherein: the number of the cross rods (6) on each vertical rod (5) is two, and the number of the clamping sleeves (7) is five with even intervals.

5. The honeycomb ceramic carrier catalyst coating and drying device of claim 4, wherein: aeration openings (12) in the aeration disc (11) are arranged at the outer edge and correspond to the positions of clamping sleeves (7) arranged on the vertical rods (5).

6. The honeycomb ceramic carrier catalyst coating and drying device of claim 4, wherein: both sides of the lifting plate (4) are correspondingly provided with hot air devices (13), and hot air pipelines (14) connected with the hot air devices (13) are correspondingly arranged to be spring pipe structures.

Images