CN213609867U - High-efficient spiral fractionating tower bottom of tower deslags adsorption equipment - Google Patents
High-efficient spiral fractionating tower bottom of tower deslags adsorption equipment Download PDFInfo
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- CN213609867U CN213609867U CN202022225174.1U CN202022225174U CN213609867U CN 213609867 U CN213609867 U CN 213609867U CN 202022225174 U CN202022225174 U CN 202022225174U CN 213609867 U CN213609867 U CN 213609867U
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Abstract
The utility model discloses a high-efficient spiral fractionating tower removes sediment adsorption equipment at bottom of tower, including the fractionating tower body, fractionating tower body bottom one side is equipped with adsorbs the storehouse, it is equipped with the intake pipe to adsorb storehouse one side, the intake pipe is kept away from one side and is linked together with the fractionating tower body that adsorb the storehouse, it is equipped with the outlet duct to adsorb the storehouse top, the outlet duct both sides are equipped with the backup pad, backup pad bottom and adsorption storehouse fixed connection, it is equipped with the collection storehouse to adsorb the storehouse bottom, it is equipped with steam and advances the pipe to collect storehouse one side. The utility model discloses a cooperation between adsorption plate and the driving motor can make the adsorption plate expand and rotatory when carrying out volatile organic gas's absorption, is favorable to improving device's adsorption efficiency, can make driving motor reverse rotation through setting up the diversion mechanism, can make the adsorption plate closure cylindric like this, is favorable to the abundant contact of high temperature steam and adsorption plate, is favorable to improving the desorption efficiency of adsorption plate.
Description
Technical Field
The utility model relates to an adsorption equipment field, concretely relates to high-efficient spiral fractionating tower bottom of tower takes off sediment adsorption equipment.
Background
The fractionating tower is a tower type vapor-liquid device for distillation, can separate gas, and can generate volatile organic gas when the fractionating tower separates gas possibly, and most of the gas has toxicity, is accompanied by malodor, can partially cause cancer, and has a destructive effect on the ozone layer, so that the gas is adsorbed.
However, when the adsorption device is used in practice, the adsorption structure of the existing adsorption device is generally simpler, the adsorption device mainly adsorbs gas by self-flowing, the adsorption efficiency is low, and meanwhile, after the adsorption device is saturated by activated carbon, the steam heating desorption efficiency of the activated carbon is low, so that the repeated use of the adsorption device is influenced.
Therefore, it is necessary to invent a high-efficiency spiral fractionating tower bottom deslagging adsorption device to solve the problems.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a high-efficient spiral fractionating tower bottom of tower deslag adsorption equipment, through the cooperation between adsorption plate and the driving motor, can make the adsorption plate expand and rotate when carrying out volatile organic gas's absorption, be favorable to improving device's adsorption efficiency, can make driving motor reverse rotation through diversion mechanism, can make the adsorption plate closed cylindricly, be favorable to the abundant contact of high temperature steam and adsorption plate, be favorable to improving the desorption efficiency of adsorption plate to solve the above-mentioned weak point in the technique.
In order to achieve the above object, the present invention provides the following technical solutions: a high-efficiency spiral fractionating tower bottom deslagging adsorption device comprises a fractionating tower body, wherein an adsorption bin is arranged on one side of the bottom of the fractionating tower body, an air inlet pipe is arranged on one side of the adsorption bin, one side, away from the adsorption bin, of the air inlet pipe is communicated with the fractionating tower body, an air outlet pipe is arranged at the top of the adsorption bin, support plates are arranged on two sides of the air outlet pipe, the bottom of each support plate is fixedly connected with the adsorption bin, a collection bin is arranged at the bottom of the adsorption bin, a steam inlet pipe is arranged on one side of the collection bin, a rotating sleeve is rotatably connected to the top of the collection bin, a rotating ring is rotatably connected to the top of the rotating sleeve, an adsorption plate is arranged at the top of the rotating ring, a limiting rod is arranged between the adsorption plate and the rotating ring, the bottom of the limiting rod is fixedly connected with the rotating ring, a clamping block is arranged inside the clamping groove, the bottom of the clamping block is fixedly connected with a limiting rod, a driven gear is fixedly connected to the top of the adsorption plate, one side of the driven gear is meshed with a driving gear, the top of the driving gear is provided with a rotating shaft, the outer side of the rotating shaft is rotatably connected with the top of the adsorption bin, the bottom of the rotating shaft is fixedly connected with the driving gear, the top of the rotating shaft is fixedly connected with a first steering gear, the top of the first steering gear is provided with a second steering gear, the top of the second steering gear is provided with a driving motor, both sides of the driving motor are fixedly connected with fixing rods, one side of each fixing rod, far away from the driving motor, is fixedly connected with an adjacent supporting plate, an output shaft of the driving motor is in transmission connection with the second steering gear;
diversion mechanism includes the dwang, the dwang both ends run through two respectively the backup pad, the dwang middle part outside is rotated and is connected with the diversion gear, two backup pad one side all is equipped with the spacing ring, the fixed cover of spacing ring connects in the dwang outside.
Preferably, the cross-sectional shape of the adsorption plate is arc-shaped, a first sealing strip is arranged on one side of the adsorption plate, and a second sealing strip is arranged on the other side of the adsorption plate.
Preferably, the number of the adsorption plates is multiple, the adsorption plates are distributed around the center of the rotating ring, two adjacent adsorption plates are matched with each other, and the adsorption plates are made of activated carbon materials.
Preferably, the direction changing gear is matched with the first steering gear, the direction changing gear is matched with the second steering gear, and the first steering gear and the second steering gear are coaxially distributed.
Preferably, one of them backup pad one side is equipped with stop device, stop device includes the stopper, the stopper sets up in the dwang outside, stopper one side and backup pad fixed connection, the inside spout of having seted up of stopper, the spout top is equipped with the elasticity card with the bottom, elasticity card quantity is established to two, two be equipped with the snap ring between the elasticity card.
Preferably, the length of the elastic clamping piece is the same as the diameter of the first steering gear, the elastic clamping piece is made of stainless steel materials, and the limiting rod and the driven gear are distributed coaxially.
In the technical scheme, the utility model provides a technological effect and advantage:
through the cooperation between adsorption plate and the driving motor, can make the adsorption plate expand and rotate when carrying out volatile organic gas's absorption, be favorable to improving the adsorption efficiency of device, can make driving motor reverse rotation through the steering mechanism, can make the adsorption plate closed for cylindric, be favorable to the abundant contact of high temperature steam and adsorption plate, be favorable to improving the desorption efficiency of adsorption plate.
Drawings
In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed 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 described in the present invention, and other drawings can be obtained by those skilled in the art according to these drawings.
Fig. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a cross-sectional view of the adsorption bin of the present invention;
FIG. 3 is a top view of the adsorption bin of the present invention;
fig. 4 is a schematic view of the closed structure of the adsorption plate of the present invention;
fig. 5 is a schematic view of the expanded structure of the adsorption plate of the present invention;
fig. 6 is a sectional view of the limiting slot of the present invention;
FIG. 7 is a cross-sectional view of the limiting groove of the present invention;
fig. 8 is a sectional view of the limiting mechanism of the present invention;
fig. 9 is a schematic view of the connection structure between the limiting rod and the clamping block of the present invention.
Description of reference numerals:
the device comprises a distillation tower body 1, an adsorption bin 2, an air inlet pipe 3, an air outlet pipe 4, a supporting plate 5, a collection bin 6, a steam inlet pipe 7, a rotating sleeve 8, a rotating ring 9, an adsorption plate 10, a limiting rod 11, a limiting groove 12, a clamping groove 13, a clamping block 14, a driven gear 15, a driving gear 16, a first steering gear 17, a second steering gear 18, a direction changing mechanism 19, a rotating rod 20, a limiting ring 21, a limiting device 22, a limiting block 23, an elastic clamping piece 24, a clamping ring 25, a driving motor 26 and a direction changing gear 27.
Detailed Description
In order to make the technical solution of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings.
The utility model provides a high-efficiency spiral fractionating tower bottom deslagging adsorption device as shown in figures 1-9, which comprises a fractionating tower body 1, wherein one side of the bottom of the fractionating tower body 1 is provided with an adsorption bin 2, one side of the adsorption bin 2 is provided with an air inlet pipe 3, one side of the air inlet pipe 3, which is far away from the adsorption bin 2, is communicated with the fractionating tower body 1, the top of the adsorption bin 2 is provided with an air outlet pipe 4, two sides of the air outlet pipe 4 are provided with supporting plates 5, the bottom of the supporting plates 5 is fixedly connected with the adsorption bin 2, the bottom of the adsorption bin 2 is provided with a collection bin 6, one side of the collection bin 6 is provided with a steam inlet pipe 7, the top of the collection bin 6 is rotatably connected with a rotating sleeve 8, the top of the rotating sleeve 8 is rotatably connected with a rotating ring 9, the top of the rotating ring 9 is provided with an adsorption plate 10, a limiting rod 11 is, the top of the limiting rod 11 is provided with a limiting groove 12, the limiting groove 12 is arranged at the bottom of the adsorption plate 10, the top of the limiting groove 12 is provided with a clamping groove 13, a clamping block 14 is arranged inside the clamping groove 13, the bottom of the clamping block 14 is fixedly connected with the limiting rod 11, the top of the adsorption plate 10 is fixedly connected with a driven gear 15, one side of the driven gear 15 is engaged and connected with a driving gear 16, the top of the driving gear 16 is provided with a rotating shaft, the outer side of the rotating shaft is rotatably connected with the top of the adsorption bin 2, the bottom of the rotating shaft is fixedly connected with the driving gear 16, the top of the rotating shaft is fixedly connected with a first steering gear 17, the top of the first steering gear 17 is provided with a second steering gear 18, the top of the second steering gear 18 is provided with a driving motor 26, both sides of the driving motor 26 are fixedly, an output shaft of the driving motor 26 is in transmission connection with a second steering gear 18, and a direction changing mechanism 19 is arranged between the first steering gear 17 and the second steering gear 18;
Further, in above-mentioned technical scheme, adsorption plate 10 cross sectional shape establishes to the arc, adsorption plate 10 one side is equipped with first sealing strip, adsorption plate 10 opposite side is equipped with the second sealing strip, is favorable to improving the leakproofness between the adsorption plate 10 through setting up the sealing strip.
Further, in the above technical solution, the number of the adsorption plates 10 is set to be a plurality, the plurality of adsorption plates 10 are distributed around the center of the rotating ring 9, two adjacent adsorption plates 10 are matched with each other, and the adsorption plates are made of activated carbon material.
Further, in the above technical solution, the direction changing gear 27 is matched with the first steering gear 17, the direction changing gear 27 is matched with the second steering gear 18, the first steering gear 17 and the second steering gear 18 are coaxially distributed, and the coaxial distribution of the first steering gear 17 and the second steering gear 18 is beneficial to improving the transmission stability of the driving motor 26 and the driving gear 16.
Further, in above-mentioned technical scheme, one of them backup pad 5 one side is equipped with stop device 22, stop device 22 includes stopper 23, stopper 23 sets up in the dwang 20 outside, stopper 23 one side and backup pad 5 fixed connection, the spout has been seted up to stopper 23 inside, the spout top is equipped with elasticity card 24 with the bottom, elasticity card 24 quantity is established to two, two be equipped with snap ring 25 between the elasticity card 24, stop device 22 is favorable to improving the meshing stability of change gear 27 and second steering gear 18.
Further, in the above technical solution, the length of the elastic clamping piece 24 is the same as the diameter length of the first steering gear 17, the elastic clamping piece 24 is made of stainless steel material, and the limiting rod 11 and the driven gear 15 are coaxially distributed.
This practical theory of operation:
referring to the attached drawings 1-9 of the specification, the volatile organic gas generated by the fractionating tower body 1 is introduced into the adsorption bin 2 through the gas inlet pipe 3, then the driving motor 26 is started, the second steering gear 18 drives the direction change gear 27 to rotate, the direction change gear 27 drives the first steering gear 17 to drive the connecting rod and the driving gear 16 to rotate, the driving gear 16 drives the driven gear 15 to drive the adsorption plate 10 to rotate, the adsorption plate 10 rotates to drive the limiting rod 11 to rotate in the limiting groove 12, after the adsorption plate 10 rotates 90 degrees, the adsorption plate 10 stops rotating through the clamping of the clamping block 14 and the clamping groove 13, the limiting rod 11 drives the bottom rotating ring 9 to rotate at the top of the rotating sleeve 8, the adsorption plate 10 is unfolded and rotates, the contact area and the contact frequency of the volatile organic gas and the adsorption plate 10 can be increased, after harmful substances in the volatile gas are adsorbed, surplus gas passes through outlet duct 4 and discharges, when needing to carry out steam heating desorption to adsorption plate 10, pull dwang 20 through the traction ring, make dwang 20 surface change gear 27 remove to second change gear 18 opposite side in second change gear 18 one side, thereby change first change gear 17's direction of rotation, driving gear 16 counter rotation simultaneously makes a plurality of adsorption plates 10 closed for cylindricly, later let in high temperature steam through steam admission pipe 7 in to the cavity that forms between a plurality of adsorption plates 10, thereby carry out desorption treatment to its surface.
While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.
Claims (6)
1. The utility model provides a high-efficient spiral fractionating tower bottom of tower deslag adsorption equipment, includes fractionating tower body (1), its characterized in that: the device is characterized in that an adsorption bin (2) is arranged on one side of the bottom of the fractionating tower body (1), an air inlet pipe (3) is arranged on one side of the adsorption bin (2), one side, far away from the adsorption bin (2), of the air inlet pipe (3) is communicated with the fractionating tower body (1), an air outlet pipe (4) is arranged on the top of the adsorption bin (2), support plates (5) are arranged on two sides of the air outlet pipe (4), the bottom of each support plate (5) is fixedly connected with the adsorption bin (2), a collection bin (6) is arranged on the bottom of the adsorption bin (2), a steam inlet pipe (7) is arranged on one side of the collection bin (6), a rotating sleeve (8) is rotatably connected to the top of the collection bin (6), a rotating ring (9) is rotatably connected to the top of the rotating sleeve (8), an adsorption plate (10) is arranged on the top of the rotating ring (9, the bottom of the limiting rod (11) is fixedly connected with the rotating ring (9), a limiting groove (12) is arranged at the top of the limiting rod (11), the limiting groove (12) is arranged at the bottom of the adsorption plate (10), a clamping groove (13) is formed in the top of the limiting groove (12), a clamping block (14) is arranged inside the clamping groove (13), the bottom of the clamping block (14) is fixedly connected with the limiting rod (11), a driven gear (15) is fixedly connected with the top of the adsorption plate (10), a driving gear (16) is meshed and connected with one side of the driven gear (15), a rotating shaft is arranged at the top of the driving gear (16), the outer side of the rotating shaft is rotatably connected with the top of the adsorption bin (2), the bottom of the rotating shaft is fixedly connected with the driving gear (16), a first steering gear (17) is fixedly connected with the top of the rotating shaft, a second steering gear (18, a driving motor (26) is arranged at the top of the second steering gear (18), fixing rods are fixedly connected to two sides of the driving motor (26), one sides of the two fixing rods, far away from the driving motor (26), are fixedly connected with the adjacent supporting plates (5), an output shaft of the driving motor (26) is in transmission connection with the second steering gear (18), and a steering mechanism (19) is arranged between the first steering gear (17) and the second steering gear (18);
diversion mechanism (19) are including dwang (20), dwang (20) both ends run through two respectively backup pad (5), dwang (20) middle part outside is rotated and is connected with change gear (27), two backup pad (5) one side all is equipped with spacing ring (21), spacing ring (21) fixed cover is connected in the dwang (20) outside.
2. The bottom deslagging adsorption equipment of the high-efficiency spiral fractionating tower is characterized in that: the cross-sectional shape of the adsorption plate (10) is arc-shaped, a first sealing strip is arranged on one side of the adsorption plate (10), and a second sealing strip is arranged on the other side of the adsorption plate (10).
3. The bottom deslagging adsorption equipment of the high-efficiency spiral fractionating tower is characterized in that: the quantity of adsorption plate (10) is established to a plurality ofly, and is a plurality of adsorption plate (10) encircle rotating ring (9) central distribution, adjacent two match each other between adsorption plate (10), adsorption plate is made by the active carbon material.
4. The bottom deslagging adsorption equipment of the high-efficiency spiral fractionating tower is characterized in that: the direction changing gear (27) is matched with the first steering gear (17), the direction changing gear (27) is matched with the second steering gear (18), and the first steering gear (17) and the second steering gear (18) are coaxially distributed.
5. The bottom deslagging adsorption equipment of the high-efficiency spiral fractionating tower is characterized in that: one of them backup pad (5) one side is equipped with stop device (22), stop device (22) include stopper (23), stopper (23) set up in dwang (20) outside, stopper (23) one side and backup pad (5) fixed connection, the spout has been seted up to stopper (23) inside, the spout top is equipped with elasticity card (24) with the bottom, elasticity card (24) quantity is established to two, two be equipped with snap ring (25) between elasticity card (24).
6. The bottom deslagging adsorption equipment of the high-efficiency spiral fractionating tower is characterized in that: the length of the elastic clamping piece (24) is the same as the diameter of the first steering gear (17), the elastic clamping piece (24) is made of stainless steel materials, and the limiting rod (11) and the driven gear (15) are coaxially distributed.
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CN202022225174.1U CN213609867U (en) | 2020-10-09 | 2020-10-09 | High-efficient spiral fractionating tower bottom of tower deslags adsorption equipment |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113877364A (en) * | 2021-11-12 | 2022-01-04 | 安阳工学院 | Backflow type pollution prevention and control system based on atmospheric organic matter treatment |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113877364A (en) * | 2021-11-12 | 2022-01-04 | 安阳工学院 | Backflow type pollution prevention and control system based on atmospheric organic matter treatment |
CN113877364B (en) * | 2021-11-12 | 2024-05-03 | 安阳工学院 | Backflow type pollution control system based on atmospheric organic matter treatment |
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