CN218501626U - Ceramic filler supporting structure of washing tower - Google Patents

Abstract

The utility model discloses a ceramic filler supporting structure of a washing tower, which relates to the technical field of washing tower structures and solves the problems that the supporting structure of the ceramic filler of the existing washing tower adopts the thickness of a supporting grid plate to enhance the supporting effect thereof, thus leading to the increase of air inlet resistance and increasing the manufacturing cost of equipment; the structure of the filler support grid plate comprises a spacing clamping plate, clamping grooves are formed in the spacing clamping plate, and a support plate of the filler support grid plate is connected into the clamping grooves; the thickness of the filler supporting grid plate is controlled, and the condition that the air inlet resistance is increased due to the fact that the filler supporting grid plate is too thick is avoided.

Description

Ceramic filler supporting structure of washing tower

Technical Field

The utility model relates to a washing tower structure technical field, more specifically are ceramic filler bearing structure technical field who relates to the washing tower.

Background

The washing tower is a gas purifying treatment device, which is produced by improving a floatable filler layer gas purifier, is widely applied to the pretreatment in the aspects of industrial waste gas purification, dust removal and the like, and has good purifying effect. The washing tower is a device for carrying out coarse separation, so the number of the tower plates is generally less and usually not more than ten stages, the washing tower is suitable for separating mixed gas containing a small amount of dust, components can not react, and the product is easy to liquefy.

The existing washing tower usually uses pall ring ceramic filler, the waste gas enters the pall ring ceramic filler layer and fully contacts with the neutralizing liquid sprayed by a spraying system, a neutralization reaction occurs, and the waste gas is exhausted after reaching the standard; the pall ring ceramic packing has the advantages of long service life, good chemical corrosion resistance, large flux, small resistance, high separation efficiency, large operation elasticity and the like, eight layers of rectangular small windows are arranged on the wall of a common raschig ring, small window blades are overlapped in the center of the ring, and the upper and lower layer window positions are overlapped with each other.

At present, in order to enhance the supporting strength of the supporting structure of the ceramic filler of the washing tower, the supporting structure is generally realized by increasing the thickness of the filler supporting grid plate, but the increase of the thickness of the filler supporting grid plate can result in the increase of the air inlet resistance, and the manufacturing cost of the whole equipment is also increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the ceramic packing's of current scrubbing tower bearing structure adopts to increase and supports grid tray thickness and strengthen its supporting effect and lead to the air resistance to strengthen, has also increased the manufacturing cost's of equipment problem simultaneously, in order to solve above-mentioned technical problem, the utility model provides a ceramic packing bearing structure of scrubbing tower.

The utility model discloses a realize above-mentioned purpose and specifically adopt following technical scheme:

a ceramic filler supporting structure of a washing tower comprises a filler supporting grid plate which is connected in the washing tower and formed by a plurality of supporting plates, wherein a # -shaped supporting frame and a circular supporting frame are connected below the filler supporting grid plate; the structure of the filler support grid plate comprises a distance clamping plate, clamping grooves are formed in the distance clamping plate, and a support plate of the filler support grid plate is connected into the clamping grooves.

The ceramic filler in the washing tower is supported by adopting a three-layer supporting structure, meanwhile, the structure of the filler supporting grid plate is set to be that the clamping grooves are formed in the spacing clamping plates, and then the supporting plate is connected to the structure in the clamping grooves, so that the thickness of the filler supporting grid plate is controlled, the phenomenon that the manufacturing cost is increased due to the fact that the filler supporting grid plate is too thick is avoided, the condition that the air inlet resistance is increased due to the fact that the filler supporting grid plate is too thick is also avoided, the grid plate spacing is controlled, and the filler is prevented from leaking; the cross-shaped support frame is connected below the filler support grid plate, although the structure is simple, the stability of the filler support grid plate can be better enhanced through four supporting points of the cross-shaped support frame; the supporting performance of the supporting structure is enhanced, and the service life of the supporting structure is prolonged.

Furthermore, four crossing points of the groined support frame are supporting points and are connected with upright post supporting rods.

This application all connects the stand bracing piece in four crosspoints department of groined type support frame, transmits the running weight that ceramic packed to the tower bottom, then transmits to the concrete foundation on, makes groined type support frame bear on glass steel stand bracing piece, has strengthened the stability of groined type support frame, and then has strengthened the stability of filler support grid tray, and the stand bracing piece that adopts the glass steel preparation has improved the corrosion resistance of stand bracing piece, has reduced manufacturing cost.

Further, the diameter of the ceramic filler is 50mm, and the spacing distance between two adjacent clamping grooves on the spacing clamping plate is 48-49 mm.

This application sets up 48mm ~ 49mm with the spacing distance between two adjacent draw-in grooves on the interval cardboard, avoids ceramic packing to fall down between the gap of filler support grid plate, has further strengthened the supporting effect of filler support grid plate to ceramic packing, has reduced the risk that ceramic packing leaked.

The diameter of the ceramic filler is 75mm, 38mm and 25mm, the ceramic filler with the diameter of 50mm is referred, and the spacing distance between two adjacent clamping grooves on the spacing clamping plate is designed according to the specific ceramic filler.

Furthermore, the outer sides of the steel plates for manufacturing the filler supporting grid plate, the groined supporting frame and the circular ring supporting frame are all connected with glass fiber reinforced plastic protective layers.

And drilling a plurality of grooves on the steel plate, and bonding the glass fiber reinforced plastics on the steel plate.

According to the method, the glass fiber reinforced plastic protective layers are connected to the outer sides of the steel plates for manufacturing the packing support grid plate, the groined support frame and the circular support frame, so that the corrosion resistance of the packing support grid plate, the groined support frame and the circular support frame is enhanced, the service lives of the packing support grid plate, the groined support frame and the circular support frame are prolonged, the maintenance frequency of workers on the whole equipment is reduced, and the maintenance cost is reduced; meanwhile, grooves are formed in steel plates for manufacturing the packing support grid plate, the groined support frame and the circular support frame, so that the steel plates and the glass fiber reinforced plastics are bonded more firmly, and the strength and the rigidity of the manufactured packing support grid plate, the groined support frame and the circular support frame are higher.

Furthermore, the ring support frame is made of glass fiber reinforced plastics, and is 210mm high and 50mm thick.

This application adopts the glass steel preparation with the ring support frame, has strengthened the corrosion resisting property of ring support frame, also makes the intensity of ring support frame high simultaneously, and the supporting effect is better.

The beneficial effects of the utility model are as follows:

(1) The ceramic filler in the washing tower is supported by adopting a three-layer supporting structure, meanwhile, the structure of the filler supporting grid plate is set to be that the clamping grooves are formed in the spacing clamping plates, and then the supporting plate is connected to the structure in the clamping grooves, so that the thickness of the filler supporting grid plate is controlled, the phenomenon that the manufacturing cost is increased due to the fact that the filler supporting grid plate is too thick is avoided, the condition that the air inlet resistance is increased due to the fact that the filler supporting grid plate is too thick is also avoided, the grid plate spacing is controlled, and the filler is prevented from leaking; the cross-shaped support frame is connected below the filler support grid plate, although the structure is simple, the stability of the filler support grid plate can be better enhanced through four supporting points of the cross-shaped support frame; the supporting performance of the supporting structure is enhanced, and the service life of the supporting structure is prolonged;

(2) According to the vertical column support, the vertical column support rods are connected to four intersection points of the groined support frame, the running weight of the ceramic filler is transmitted to the bottom of the tower and then transmitted to the concrete foundation, so that the groined support frame is borne on the glass fiber reinforced plastic vertical column support rods, the stability of the groined support frame is enhanced, the stability of the filler support grid plate is further enhanced, the corrosion resistance of the vertical column support rods is improved by adopting the vertical column support rods made of the glass fiber reinforced plastics, and the manufacturing cost is reduced;

(3) According to the ceramic filler spacing clamp plate, the spacing distance between two adjacent clamping grooves on the spacing clamp plate is set to be 48-49 mm, so that ceramic fillers are prevented from falling from gaps of the filler supporting grid plate, the supporting effect of the filler supporting grid plate on the ceramic fillers is further enhanced, and the risk of leakage of the ceramic fillers is reduced;

(4) According to the method, the glass fiber reinforced plastic protective layers are connected to the outer sides of the steel plates for manufacturing the packing support grid plate, the groined support frame and the circular support frame, so that the corrosion resistance of the packing support grid plate, the groined support frame and the circular support frame is enhanced, the service lives of the packing support grid plate, the groined support frame and the circular support frame are prolonged, the maintenance frequency of workers on the whole equipment is reduced, and the maintenance cost is reduced; meanwhile, grooves are formed in the steel plates for manufacturing the packing support grid plate, the groined support frame and the circular support frame, so that the steel plates and the glass fiber reinforced plastics are bonded more firmly, and the strength and the rigidity of the packing support grid plate, the groined support frame and the circular support frame are higher;

(5) This application adopts the glass steel preparation with the ring support frame, has strengthened the corrosion resisting property of ring support frame, also makes the intensity of ring support frame high simultaneously, and the supporting effect is better.

Drawings

FIG. 1 is a schematic structural view of a ceramic packing support structure of a scrubber tower according to the present invention;

FIG. 2 is a top view of the packing support grid attachment structure of the present invention;

FIG. 3 is a schematic structural view of the middle-distance clamping plate of the present invention;

fig. 4 is a top view of the cross-shaped support frame connecting structure of the present invention;

FIG. 5 is a cross-sectional view of the external connection glass fiber reinforced plastic of the steel plate for manufacturing the packing support grid plate, the groined support frame and the circular ring support frame of the present invention;

fig. 6 is an enlarged view of a in fig. 5.

Reference numerals: 01-upright post supporting rods, 02-circular ring supporting frames, 03-groined supporting frames, 04-ceramic fillers, 05-filler supporting grid plates, 06-tower bodies, 07-spacing clamping plates, 08-supporting plates, 09-clamping grooves, 10-supporting points, 11-grooves, 12-glass fiber reinforced plastics and 13-steel plates.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings in the embodiments of the present invention are combined below to clearly and completely describe the technical solutions in the embodiments of the present invention.

Example 1

Referring to fig. 1 to 6, the embodiment provides a ceramic packing 04 supporting structure of a washing tower, which includes a packing support grid 05 connected to the inside of the washing tower and formed by a plurality of support plates 08, a # -shaped support frame 03 and a circular support frame 02 are connected below the packing support grid 05, the circumference of the packing support grid 05 is supported on the circular support frame 02, the circular support frame 02 is connected to a tower body 06, the middle part of the packing support grid 05 is supported on the # -shaped support frame 03, and a column support rod 01 is connected below the # -shaped support frame 03; the structure of the filler support grid plate 05 comprises a spacing clamping plate 07, a clamping groove 09 is formed in the spacing clamping plate 07, and a support plate 08 of the filler support grid plate 05 is connected in the clamping groove 09.

According to the method, a three-layer supporting structure is adopted to support ceramic fillers 04 in a washing tower, meanwhile, the structure of the filler supporting grid plate 05 is set to be that the clamping grooves 09 are formed in the spacing clamping plate 07, and then the supporting plate 08 is connected into the clamping grooves 09, so that the thickness of the filler supporting grid plate 05 is controlled, the increase of the manufacturing cost caused by the excessive thickness of the filler supporting grid plate 05 is avoided, the increase of the air inlet resistance caused by the excessive thickness of the filler supporting grid plate 05 is also avoided, the grid plate spacing is controlled, and the fillers are prevented from leaking; meanwhile, the # -shaped support frame 03 connected below the filler support grid plate 05 is simple in structure, but the stability of the filler support grid plate 05 can be better enhanced through four supporting points of the # -shaped support frame 03; the supporting performance of the supporting structure is enhanced, and the service life of the supporting structure is prolonged.

Example 2

Referring to fig. 1 to 6, based on embodiment 1, four intersection points of a # -shaped support frame 03 of this embodiment are support points 10, and are connected with upright support rods 01.

This application all connects stand bracing piece 01 at four intersection points department of groined type support frame 03, with the operation weight transmission of ceramic filler 04 to the tower bottom, then transmit to the concrete foundation on, make groined type support frame 03 bear on glass steel 12 stand bracing piece 01, the stability of groined type support frame 03 has been strengthened, and then the stability of filler support grid plate 05 has been strengthened, the corrosion resistance that adopts glass steel 12 to make stand bracing piece 01 has improved stand bracing piece 01 has reduced manufacturing cost.

Example 3

Referring to fig. 1 to 6, based on embodiment 1, the spacing distance between two adjacent card slots 09 on the spacing card 07 is 48mm to 49mm.

This application sets up 48mm ~ 49mm with the interval distance between two adjacent draw-in grooves 09 on the interval cardboard 07, avoids ceramic packing 04 to fall down between the gap of packing support grid plate 05, has further strengthened the support effect of packing support grid plate 05 to ceramic packing 04, has reduced the risk that ceramic packing 04 leaked.

Example 4

Referring to fig. 1 to 6, according to example 1, glass fiber reinforced plastic 12 protective layers are connected to the outer sides of steel plates 13 used for manufacturing the filler support grid 05, the # -shaped support frame 03 and the circular ring support frame 02.

Wherein, a plurality of grooves 11 are drilled on the steel plate 13, and then the glass fiber reinforced plastics 12 are bonded on the steel plate 13.

According to the method, the outer sides of the steel plates 13 for manufacturing the filler support grid plate 05, the # -shaped support frame 03 and the circular support frame 02 are all connected with the glass fiber reinforced plastic 12 protective layer, so that the corrosion resistance of the filler support grid plate 05, the # -shaped support frame 03 and the circular support frame 02 is enhanced, the service lives of the filler support grid plate 05, the # -shaped support frame 03 and the circular support frame 02 are prolonged, the maintenance frequency of workers on the whole equipment is reduced, and the maintenance cost is reduced; meanwhile, the grooves 11 are formed in the steel plates 13 for manufacturing the packing support grid plate 05, the # -shaped support frame 03 and the circular support frame 02, so that the steel plates 13 and the glass fiber reinforced plastics 12 are bonded more firmly, and the strength and the rigidity for manufacturing the packing support grid plate 05, the # -shaped support frame 03 and the circular support frame 02 are higher.

Example 5

Referring to fig. 1 to 6, in example 1, the circular ring support frame 02 of this example is made of glass fiber reinforced plastic 12, and has a height of 210mm and a thickness of 50mm.

This application adopts 12 preparation of glass steel with ring support frame 02, has strengthened ring support frame 02's corrosion resisting property, also makes ring support frame 02's intensity high simultaneously, and the support effect is better.

Claims (6)

1. A ceramic filler supporting structure of a washing tower comprises a filler supporting grid plate (05) which is connected in the washing tower and formed by a plurality of supporting plates (08), and is characterized in that a # -shaped supporting frame (03) and a circular supporting frame (02) are connected below the filler supporting grid plate (05), the circumference of the filler supporting grid plate (05) is borne on the circular supporting frame (02), the circular supporting frame (02) is connected on a tower body (06), the middle part of the filler supporting grid plate (05) is borne on the # -shaped supporting frame (03), and a column supporting rod (01) is connected below the # -shaped supporting frame (03); the structure of the filler support grid plate (05) comprises a spacing clamping plate (07), a clamping groove (09) is formed in the spacing clamping plate (07), and a support plate (08) of the filler support grid plate (05) is connected into the clamping groove (09).

2. The ceramic packing support structure of a washing tower as claimed in claim 1, wherein the four intersections of the cross-shaped support frame (03) are all support points (10) and are all connected with upright support rods (01).

3. The ceramic packing support structure of claim 1, wherein the diameter of the ceramic packing is 50mm, and the spacing distance between two adjacent slots (09) on the spacing chuck plate (07) is 48mm to 49mm.

4. The ceramic packing support structure of a scrubbing tower of claim 1, wherein the outer sides of the steel plates (13) used for making the packing support grid (05), the groined support frame (03) and the circular support frame (02) are all connected with a glass fiber reinforced plastic (12) protective layer.

5. The ceramic packing support structure of a washing tower according to claim 4, wherein a plurality of grooves (11) are drilled in the steel plate (13), and the glass fiber reinforced plastic (12) is bonded to the steel plate (13).

6. The ceramic packing support structure of a washing tower according to claim 1, characterized in that the circular ring support frame (02) is made of glass fiber reinforced plastic (12), and has a height of 210mm and a thickness of 50mm.

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