CN211914383U - Feeding coating machine under long carrier of VOC - Google Patents

Abstract

The utility model discloses a feed coating machine under long carrier of VOC relates to the coating machine field, including the equipment cabinet, inside one side of equipment cabinet is provided with thick liquid basin elevating system, and thick liquid basin elevating system's drive end is provided with the coating thick liquid basin, outside the coating thick liquid basin extended to the top of equipment cabinet, the inside opposite side of equipment cabinet is provided with inhales thick liquid exhaust box, the bottom of inhaling thick liquid exhaust box is connected to single jar negative pressure through the pipe connection spare and inhales thick liquid mechanism, the jar front pipeline that single jar negative pressure was inhaled thick liquid mechanism is provided with the butterfly valve, and the drive end of butterfly valve is connected with pneumatic solenoid valve device, the upper end of inhaling thick liquid exhaust box is provided with the negative pressure and inhales thick liquid anchor. Has the advantages that: slurry of the VOC long carrier lower feeding coating machine is coated with slurry sucking and slurry pumping, so that the slurry is uniformly coated in micropores inside the carrier, the processing efficiency is improved, and meanwhile, the attractiveness is better; and the negative pressure slurry suction type coating is adopted, slurry dust cannot appear in the air, and the operation personnel and the environment are protected.

Description

Feeding coating machine under long carrier of VOC

Technical Field

The utility model relates to a coating machine field, in particular to feed coating machine under long carrier of VOC.

Background

At present, most of honeycomb ceramic carriers are cylindrical, and compact micropores penetrating through two end faces of the cylinder are arranged on the circular end faces, and the honeycomb ceramic carriers are of a structure like honeycomb briquettes. Catalyst slurry is required to be coated in micropores of the honeycomb ceramic carrier, and the coating of the catalyst slurry of the honeycomb ceramic carrier mainly adopts suction-blowing slurry coating, soaking coating and slurry-surging coating at present.

The suction-blowing slurry coating is to vertically immerse the lower end surface of the honeycomb ceramic carrier into the slurry, fix and seal the upper end of the honeycomb ceramic carrier by using a clamp, suck the slurry by using negative pressure, turn over the upper end surface and the lower end surface of the honeycomb ceramic after the slurry is sucked, and blow the slurry at the upper end of the honeycomb ceramic carrier into the inner surface of the carrier uniformly by using positive pressure from top to bottom. The soaking coating is to dip the honeycomb ceramic carrier into the slurry and make the slurry naturally flow into the micropores for coating. The slurry coating is that the carrier is vertically put into a clamp, then the lower end of the carrier is sealed by the clamp, and slurry is injected into the lower end of the carrier by a pump until the slurry overflows from the upper part of the carrier. After coating, the carrier is blown through the micropores by air blown to the blown carrier.

The three coating modes have the defects that the amount of coating slurry is difficult to control, the current six standard slurry values are high, the length of a VOC square mesh long carrier is too long, the depth of a slurry basin is higher than that of the VOC square mesh long carrier when the slurry basin is used for soaking coating and slurry gushing coating, so that a large amount of slurry needs to be used, the cost is too high, the waste is large, the cost is increased, the efficiency is low, the slurry is blown into the air due to air blowing of the carrier, the slurry waste is large, the dust in the air is large, and the workshop environment is bad.

In response to the problems in the related art, we propose a VOC long-carrier lower feed coater.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides a feed coating machine under the long carrier of VOC, and then solve the problem in the above-mentioned background art.

(II) technical scheme

In order to achieve the above object, the utility model adopts the following specific technical scheme:

a feeding coating machine under VOC long carrier comprises an equipment cabinet, wherein a slurry basin lifting mechanism is arranged on one side inside the equipment cabinet, a coating slurry basin is arranged at the driving end of the slurry basin lifting mechanism, the coating slurry basin extends out of the top end of the equipment cabinet, a slurry suction and air exhaust box is arranged on the other side inside the equipment cabinet, the bottom end of the slurry suction and air exhaust box is connected to a single-tank negative-pressure slurry suction mechanism through a pipeline connecting piece, a butterfly valve is arranged in a tank front pipeline of the single-tank negative-pressure slurry suction mechanism, the driving end of the butterfly valve is connected with a pneumatic solenoid valve device, a negative-pressure slurry suction clamp is arranged at the upper end of the slurry suction and air exhaust box, carrier supporting pieces are arranged on two sides of the negative-pressure slurry suction clamp, a turnover carrier clamp is arranged right above the coating slurry basin, a carrier supporting and positioning mechanism is arranged on one side of the turnover carrier clamp, and a, and one end of the slurry-sucking horn cylinder is provided with a horn cylinder lifting mechanism, and the upper end of the slurry-sucking horn cylinder is connected with a negative-pressure slurry-sucking fan through a slurry-sucking air pipe.

Furthermore, the rear end of the equipment cabinet is provided with a support frame, and the overturning carrier fixture and the horn-shaped cylinder lifting mechanism are both arranged on the support frame.

Furthermore, a slurry dust collecting box is connected between the bottom end of the slurry suction air box and the single-tank negative pressure slurry suction mechanism, and an air outlet of the slurry dust collecting box is connected with the single-tank negative pressure slurry suction mechanism.

Furthermore, the single-tank negative-pressure slurry sucking mechanism and the slurry dust collecting box are both fixedly mounted on a movable supporting bottom plate, and the movable supporting bottom plate is positioned on one side of the equipment cabinet.

Furthermore, one side of the equipment cabinet is provided with a pre-coating weighing electronic scale, the other side of the equipment cabinet is provided with a post-coating weighing electronic scale, and the pre-coating weighing electronic scale and the post-coating weighing electronic scale are both arranged on the movable cabinet.

Furthermore, a movable step is arranged in front of the equipment cabinet.

(III) advantageous effects

Compared with the prior art, the utility model provides a feed coating machine under long carrier of VOC possesses following beneficial effect:

1. the slurry coating of feed coating machine under this long carrier of VOC inhales thick liquid and takes out thick liquid two steps, has guaranteed promptly that thick liquid evenly coats in the inside micropore of carrier, has also improved machining efficiency, simultaneously because the carrier surface does not soak completely in thick liquid, so a large amount of thick liquid residues can not be left to the carrier surface, and aesthetic measure is better.

2. The negative pressure slurry suction type coating is adopted, slurry is sucked into the negative pressure platform, and the slurry is not blown outwards, so that slurry dust cannot appear in the air, and operating personnel and the environment are protected.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic side view of a VOC long under-carrier feed coater according to an embodiment of the present invention;

FIG. 2 is a schematic front view of a VOC long under-carrier feed coater in accordance with an embodiment of the present invention;

fig. 3 is a schematic top view of a VOC long under-carrier feed coater according to an embodiment of the present invention.

In the figure:

1. an equipment cabinet; 2. moving the support base plate; 3. a support frame; 4. a pulp suction and air exhaust box; 5. a paddle basin lifting mechanism; 6. coating a slurry basin; 7. a negative pressure slurry suction clamp; 8. a carrier support; 9. turning over the carrier fixture; 10. a horn barrel lifting mechanism; 11. a slurry suction horn; 12. a carrier support positioning mechanism; 13. a negative pressure slurry suction fan; 14. a slurry suction air pipe; 15. a pneumatic solenoid valve device; 16. a slurry dust collection box; 17. a single-pot negative pressure slurry suction mechanism; 18. weighing an electronic scale before coating; 19. weighing an electronic scale after coating; 20. and (4) a step.

Detailed Description

For further explanation of the embodiments, the drawings are provided as part of the disclosure and serve primarily to illustrate the embodiments and, together with the description, to explain the principles of operation of the embodiments, and to provide further explanation of the invention and advantages thereof, it will be understood by those skilled in the art that various other embodiments and advantages of the invention are possible, and that elements in the drawings are not to scale and that like reference numerals are generally used to designate like elements.

According to the utility model discloses an embodiment provides a feed coating machine under long carrier of VOC.

The invention will now be further described with reference to the accompanying figures 1-3 and the detailed description:

feed coating machine under long carrier of VOC of this embodiment, inside one side of equipment cabinet 1 is provided with thick liquid basin elevating system 5, and the drive end of thick liquid basin elevating system 5 is provided with coating thick liquid basin 6, the elevating system principle is known, coating thick liquid basin 6 extends to outside the top of equipment cabinet 1, the inside opposite side of equipment cabinet 1 is provided with inhales thick liquid exhaust box 4, inhale the bottom of thick liquid exhaust box 4 and be connected to single jar negative pressure through the pipe connection spare and inhale thick liquid mechanism 17, the jar front pipeline that single jar negative pressure inhaled thick liquid mechanism 17 is provided with the butterfly valve, and the drive end of butterfly valve is connected with pneumatic solenoid valve device 15, the control principle is prior art, inhale the upper end of thick liquid exhaust box 4 and be provided with negative pressure and inhale thick liquid anchor clamps 7, the both sides that thick liquid anchor clamps 7 were inhaled to negative pressure all are provided with carrier support piece 8, be provided with upset carrier anchor clamps 9 directly over, rely on current tilting mechanism to realize, all be equipped with the gasbag and can press from both sides tight carrier in upset carrier anchor clamps 9 and the negative pressure inhale thick liquid anchor clamps 7, one side of upset carrier anchor clamps 9 is provided with carrier support positioning mechanism 12, is provided with directly over upset carrier anchor clamps 9 and inhales thick liquid horn section of thick bamboo 11, and the one end of inhaling thick liquid horn section of thick bamboo 11 is provided with horn section of thick bamboo elevating system 10, inhales the upper end of thick liquid horn section of thick bamboo 11 and is connected with the negative pressure through inhaling thick liquid tuber pipe 14 and inhales thick liquid.

The rear end of the equipment cabinet 1 is provided with a support frame 3, the overturning carrier fixture 9 and the horn-shaped cylinder lifting mechanism 10 are both installed on the support frame 3, the support frame 3 has a certain height, so that the horn-shaped cylinder lifting mechanism 10 can drive the slurry-sucking horn-shaped cylinder 11 to lift within a certain height range, and the horn-shaped cylinder lifting mechanism 10 adopts a common lifting mechanism.

Inhale thick liquid dust collecting box 16 that is connected with between thick liquid mechanism 17 is inhaled to thick liquid suction box 4's bottom and single jar negative pressure, and thick liquid mechanism 17 is inhaled to the single jar negative pressure of gas outlet connection of thick liquid dust collecting box 16, and some thick liquids are inhaled thick liquid suction box 4 and are inhaled then reach the box of thick liquid dust collecting box 16, filter through filter screen in thick liquid dust collecting box 16, and the atomizing thick liquid dust that adheres to in the air is filtered by middle filter screen, can effectual effective absorption and filter atomizing thick liquid dust.

The single-tank negative-pressure slurry sucking mechanism 17 and the slurry dust collecting box 16 are fixedly mounted on the movable supporting base plate 2, the movable supporting base plate 2 is located on one side of the equipment cabinet 1, and the pipeline distance of the single-tank negative-pressure slurry sucking mechanism 17 can be adjusted conveniently according to equipment on the equipment cabinet 1 while the movable supporting base plate is convenient to move.

The single-tank negative-pressure slurry suction mechanism 17 comprises a negative-pressure air blower and an air tank, and a butterfly valve at the front end of the air tank is controlled by a pneumatic electromagnetic valve device 15.

One side of the equipment cabinet 1 is provided with a pre-coating weighing electronic scale 18, the other side of the equipment cabinet 1 is provided with a post-coating weighing electronic scale 19, and the pre-coating weighing electronic scale 18 and the post-coating weighing electronic scale 19 are both arranged on a movable cabinet and are convenient to move.

The movable steps 20 are arranged in front of the equipment cabinet 1, so that operators with different heights can operate on the equipment cabinet 1 conveniently.

The working principle is as follows: firstly, placing a VOC square mesh long carrier on a weighing electronic scale 18 before coating, weighing and recording data, after weighing, an operator flatly places the VOC square mesh long carrier on a first group of carrier supporting pieces 8 on the left side, pushing the VOC square mesh long carrier into a turning carrier clamp 9 leftwards until a preset finger-leaning positioning surface of a carrier supporting and positioning mechanism 12 is reached, after the weighing is finished, the extending part of the carrier supporting and positioning mechanism 12 returns to the original point leftwards, and the air bag in the turning carrier clamp 9 clamps the VOC square mesh long carrier and rotates 90 degrees to keep the lower end surface of the VOC square mesh long carrier horizontal with the table surface of an equipment cabinet 1, after the extending part reaches the horizontal position, a slurry-sucking slurry basin 6 and a slurry-basin lifting mechanism 5 are controlled to lift until the lower end of the VOC square mesh long carrier is immersed into a certain depth below the slurry level, and when the slurry-sucking slurry basin 6 rises, the slurry-sucking horn cylinder 11, then a negative pressure slurry suction fan 13 is started to form a certain negative pressure on the upper surface of the VOC square mesh long carrier, slurry in a slurry basin is sucked into micropores of the VOC square mesh long carrier under the action of atmospheric pressure, the amount of the slurry sucked into the VOC square mesh long carrier can be controlled through the size of the negative pressure, after the negative pressure slurry suction fan 13 is stopped, a slurry suction horn 11 is lifted, a coating slurry basin 6 is lowered simultaneously, a turnover carrier clamp 9 clamps the VOC square mesh long carrier and rotates 90 degrees leftwards, the lower end surface of the VOC square mesh long carrier faces rightwards and forms 90 degrees with the table top of an equipment cabinet 1, a carrier supporting and positioning mechanism 12 extends out to support the VOC square mesh long carrier, then an air bag of the turnover carrier clamp 9 loosens the carrier supporting and positioning mechanism 12 to push the VOC square mesh long carrier out rightwards, an operator holds the VOC square mesh long carrier and places the VOC square mesh long carrier on a second group of carrier, then the upper end surface and the lower end surface of the VOC square mesh long carrier are adjusted and placed on a negative pressure pulp absorption clamp 7, the air bag clamps the VOC square mesh long carrier tightly, a single-tank negative pressure pulp absorption mechanism 17 sucks air in the tank through a vacuum negative pressure fan to form a vacuum negative pressure state, when the air pressure in the tank reaches the set vacuum negative pressure value, the negative pressure fan is closed, the butterfly valve at the front end of the air tank is opened, the slurry at the upper end of the VOC square mesh long carrier is automatically and evenly pumped into the inner surface of the VOC square mesh long carrier through the slurry sucking and pumping box 4, the butterfly valve at the front end of the gas tank is closed through the pneumatic electromagnetic valve device 15 after the slurry pumping is finished, then the air bag of the negative pressure slurry suction clamp 7 is loosened, an operator takes the VOC square mesh long carrier out of the negative pressure slurry suction clamp 7, places the VOC square mesh long carrier on a weighing electronic scale after coating, weighs 19 the VOC square mesh long carrier, records data, compares the data, and finishes the whole coating process.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "disposed," "connected," "fixed," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, and may be connected through the inside of two elements or in an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art according to specific situations.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a feed coating machine under long carrier of VOC, includes equipment cabinet (1), its characterized in that: a slurry basin lifting mechanism (5) is arranged on one side inside the equipment cabinet (1), a coating slurry basin (6) is arranged at the driving end of the slurry basin lifting mechanism (5), the coating slurry basin (6) extends out of the top end of the equipment cabinet (1), a slurry sucking and air extracting box (4) is arranged on the other side inside the equipment cabinet (1), the bottom end of the slurry sucking and air extracting box (4) is connected to a single-tank negative-pressure slurry sucking mechanism (17) through a pipeline connecting piece, a butterfly valve is arranged in front of a tank of the single-tank negative-pressure slurry sucking mechanism (17), a pneumatic electromagnetic valve device (15) is connected to the driving end of the butterfly valve, a negative-pressure slurry sucking clamp (7) is arranged at the upper end of the slurry sucking and air extracting box (4), carrier supporting pieces (8) are arranged on two sides of the negative-pressure slurry sucking clamp (7), and a turnover carrier clamp (9) is arranged right above, one side of upset carrier anchor clamps (9) is provided with carrier support positioning mechanism (12), be provided with directly over upset carrier anchor clamps (9) and inhale thick liquid horn section of thick bamboo (11), just the one end of inhaling thick liquid horn section of thick bamboo (11) is provided with horn section of thick bamboo elevating system (10), the upper end of inhaling thick liquid horn section of thick bamboo (11) is connected with negative pressure through inhaling thick liquid tuber pipe (14) and inhales thick liquid fan (13).

2. The VOC long carrier lower feed coating machine according to claim 1, characterized in that a support frame (3) is arranged at the rear end of the equipment cabinet (1), and the overturning carrier clamp (9) and the horn lifting mechanism (10) are both mounted on the support frame (3).

3. The VOC long carrier lower feed coating machine according to claim 1, characterized in that a slurry dust collection box (16) is connected between the bottom end of the slurry suction box (4) and the single-tank negative pressure slurry suction mechanism (17), and the air outlet of the slurry dust collection box (16) is connected with the single-tank negative pressure slurry suction mechanism (17).

4. A VOC long carrier lower feed coating machine according to claim 3, characterized in that said single tank negative pressure slurry suction mechanism (17) and slurry dust collection box (16) are both fixedly mounted on a mobile support base plate (2), said mobile support base plate (2) being located at one side of the equipment cabinet (1).

5. The VOC long carrier lower feed coating machine according to claim 1, characterized in that one side of said equipment cabinet (1) is provided with a pre-coating weighing electronic scale (18) and the other side of said equipment cabinet (1) is provided with a post-coating weighing electronic scale (19), said pre-coating weighing electronic scale (18) and said post-coating weighing electronic scale (19) being both arranged on a movable cabinet.

6. A VOC long carrier lower feed coater according to claim 1, characterized in that the equipment cabinet (1) is provided with a movable step (20) in front.

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