CN217698404U - Adsorption component of high-purity gas catalytic system - Google Patents

Abstract

The utility model belongs to the technical field of gas adsorption component, a high-purity gas catalytic system's adsorption component is disclosed, including the adsorption tower, the top left side fixedly connected with outlet duct of adsorption tower, adsorption tower left end downside fixedly connected with intake pipe, the inner wall fixedly connected with otter board of adsorption tower is one, the shifting chute has been seted up to the surface symmetry of adsorption tower, the inside upside of shifting chute is equipped with the baffle of looks adaptation, the active carbon discharge opening has been seted up to the surface downside of shifting chute, the surface fixedly connected with fixed block of baffle, the surface upside symmetry fixedly connected with electric putter of adsorption tower, electric putter's bottom and the top face fixed connection of fixed block, inconvenient dismantlement to the active carbon when needing to be changed after the long-time use of active carbon is solved in this application and is taken out, and then be not convenient for the operator to take out the active carbon through outside high temperature heating, make the adsorption capacity regeneration of active carbon, cause the problem of the waste of resource.

Description

Adsorption component of high-purity gas catalytic system

Technical Field

The application relates to the technical field of gas adsorption components, in particular to an adsorption component of a high-purity gas catalytic system.

Background

The adsorption method gas separation technology is widely applied to multiple fields of environmental protection, metallurgy, energy, chemical industry and medical energy, along with the continuous development and progress of the adsorption technology, the application scene is gradually diversified, and in order to meet the large-scale requirement of the oil refining and chemical industry, the adsorption technology develops towards large-scale and high-pressure directions so as to meet the development requirement of industrial tail gas purification and distributed hydrogen energy.

Utilize the active carbon to adsorb gas among the prior art, and the active carbon is inconvenient when needing to change after using for a long time takes out the dismantlement of active carbon, and then the operator of being inconvenient takes out the active carbon and passes through outside high-temperature heating, makes the adsorption efficiency regeneration of active carbon, causes the waste of resource.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems, the present application provides an adsorption module of a high purity gas catalytic system.

The application provides the following technical scheme: the utility model provides a high-purity gas catalytic system's adsorption component, includes the adsorption tower, the top left side fixedly connected with outlet duct of adsorption tower, adsorption tower left end downside fixedly connected with intake pipe, the inner wall fixedly connected with otter board of adsorption tower is first, the below of otter board is equipped with the otter board two with the inner wall fixed connection of adsorption tower, the inner wall fixedly connected with pan feeding pipe of otter board is first, the top of adsorption tower is run through and is extended to its top in the top of pan feeding pipe, the shifting chute has been seted up to the surface symmetry of adsorption tower, the inside upside of shifting chute is equipped with the baffle of looks adaptation, the active carbon discharge opening has been seted up to the surface downside of shifting chute, the surface fixed connection of baffle has the fixed block, the surface upside symmetry fixedly connected with electric putter of adsorption tower, electric putter's bottom and the top face fixed connection of fixed block.

Through above-mentioned technical scheme, inconvenient dismantlement to the active carbon when having solved long-time after using of active carbon and need changing is taken out, and then the operator of being not convenient for takes out the active carbon through outside high-temperature heating, makes the adsorption efficiency regeneration of active carbon, causes the problem of the waste of resource.

Further, the middle part of otter board two is rotated and is connected with the montant, the outside fixedly connected with motor of adsorption tower, the output of motor runs through adsorption tower and fixedly connected with bull stick, connect through drive mechanism between bull stick and the montant, the outside of montant is equipped with clearance mechanism.

Through the technical scheme, the two screen plates are conveniently cleaned, and the mesh of the screen plates is prevented from being blocked by sundries, so that the use of the active carbon is influenced.

Furthermore, the transmission mechanism comprises a second bevel gear and a first bevel gear, the first bevel gear is fixedly connected to the outer surface of the bottom end of the vertical rod, and the second bevel gear is fixedly connected to the outer surface of the right end of the rotating rod.

Further, clearance mechanism includes connecting rod, clearance brush and strip shaped plate, the top surface fixedly connected with connecting rod of montant, the equal fixedly connected with strip shaped plate of right-hand member of connecting rod and montant's surface, the top fixedly connected with clearance brush of strip shaped plate.

Through above-mentioned technical scheme, can clear up two otter boards, avoid the mesh of otter board to be blockked up, guarantee the transmissivity of otter board to gas.

Furthermore, the bottom of the adsorption tower is fixedly connected with a discharge pipe, and a control valve is installed on the discharge pipe.

Through above-mentioned technical scheme, open the control valve on the row material pipe, can be with the debris discharge that clears up from two otter boards.

Further, the bevel gear I and the bevel gear II are in meshed connection.

Through above-mentioned technical scheme, bevel gear two rotates and to drive bevel gear one and rotate, and then can drive the montant and rotate.

To sum up, the application comprises the following beneficial technical effects:

1. electric putter shortens and drives baffle rebound, thereby make the active carbon discharge opening open, again because otter board one and otter board two all are the funnel shape of inversion, so the active carbon between otter board one and the otter board two can pass through the inclined plane at otter board two tops through the landing of active carbon discharge opening and discharge, thereby be convenient for dismantle the active carbon and take out, the operator of being convenient for passes through outside high temperature heating with the active carbon, make the adsorption efficiency regeneration of active carbon, save the resource, make electric putter extension again and utilize the baffle to block the discharge opening, place the active carbon to the pan feeding pipe, the active carbon landing is to otter board one and otter board two between, thereby the convenient active carbon that more renews.

2. Under the circumstances that the active carbon between otter board one and the otter board two was dismantled and is taken out, motor work rotates and drives the connecting rod, bar shaped plate and cleaning brush rotate, thereby can be to the lower surface clearance of otter board one and otter board two, debris after the clearance fall into the bottom discharge of adsorption tower, can avoid otter board one and otter board two after using for a long time, the debris gathering is blockked up the mesh of otter board one and otter board two, thereby influence the use of active carbon, can guarantee the two gaseous trafficability rate of pair like this of otter board one and otter board.

Drawings

FIG. 1 is a schematic structural diagram of the present application;

FIG. 2 is a schematic view of the internal structure of a structured adsorbent column according to the present application;

the numbering in the figures illustrates:

1. an adsorption tower; 2. an active carbon discharge hole; 3. a moving groove; 4. a baffle plate; 5. an electric push rod; 6. a feeding pipe; 7. an air outlet pipe; 8. a fixed block; 9. a motor; 10. an air inlet pipe; 11. a connecting rod; 12. a first screen plate; 13. cleaning a brush; 14. a strip plate; 15. a first bevel gear; 16. a second bevel gear; 17. a discharge pipe; 18. a rotating rod; 19. a second screen plate; 20. a vertical rod.

Detailed Description

The technical solution in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application; it is obvious that the embodiments described are only a part of the embodiments of the present application, and not all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without making creative efforts based on the embodiments in the present application belong to the protection scope of the present application.

In the description of the present application, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present application. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses an adsorption component of a high-purity gas catalytic system, which comprises an adsorption tower 1, wherein an outlet pipe 7 is fixedly connected to the left side of the top of the adsorption tower 1, an inlet pipe 10 is fixedly connected to the lower side of the left end of the adsorption tower 1, a first screen plate 12 is fixedly connected to the inner wall of the adsorption tower 1, a second screen plate 19 fixedly connected to the inner wall of the adsorption tower 1 is arranged below the first screen plate 12, activated carbon is placed between the first screen plate 12 and the second screen plate 19, the first screen plate 12 and the second screen plate 19 are both in a circular shape, both the first screen plate 12 and the second screen plate 19 are in an inverted funnel shape, the aperture of the meshes of the first screen plate 12 and the second screen plate 19 is larger than the particle size of the activated carbon, a feeding pipe 6 is fixedly connected to the inner wall of the first screen plate 12, a cover body is sleeved on the top thread of the feeding pipe 6, the cover body is unscrewed, the activated carbon is placed in the feeding pipe 6, and the activated carbon slides between the first screen plate 12 and the second screen plate 19, thereby facilitating the replacement of new active carbon, the top end of the feeding pipe 6 penetrates through the top of the adsorption tower 1 and extends to the upper part of the adsorption tower 1, the outer surface of the adsorption tower 1 is symmetrically provided with a moving groove 3, the inner upside of the moving groove 3 is provided with a baffle 4 matched with the moving groove, the outer surface lower side of the moving groove 3 is provided with an active carbon discharge hole 2, the outer surface of the baffle 4 is fixedly connected with a fixed block 8, the outer surface upside of the adsorption tower 1 is symmetrically and fixedly connected with an electric push rod 5, the bottom end of the electric push rod 5 is fixedly connected with the top end surface of the fixed block 8, the electric push rod 5 is shortened to drive the baffle 4 to move upwards, so that the active carbon discharge hole 2 is opened, and because the first mesh plate 12 and the second mesh plate 19 are in inverted funnel shapes, the active carbon between the first mesh plate 12 and the second mesh plate 19 can be discharged through the inclined plane at the top of the second mesh plate 19 without the active carbon falling off, the staff can take out with the hand to be convenient for dismantle the active carbon and take out, the operator of being convenient for takes out the active carbon through outside high temperature heating, makes the adsorption efficiency regeneration of active carbon, saves the resource.

Please refer to fig. 2, the middle part of the second net plate 19 is rotatably connected with a vertical rod 20, the vertical rod 20 is installed with the middle part of the second net plate 19 through a bearing, the outer fixed connection of the adsorption tower 1 is provided with a motor 9, the outer fixed connection of the motor 9 is provided with a support rod, the right end of the support rod is connected with the outer fixed surface of the adsorption tower 1, the stabilizing effect of the motor 9 is ensured, the output end of the motor 9 penetrates through the adsorption tower 1 and the fixedly connected rotating rod 18, the rotating rod 18 is connected with the vertical rod 20 through a transmission mechanism, and a cleaning mechanism is arranged outside the vertical rod 20.

Referring to fig. 2, the transmission mechanism includes a second bevel gear 16 and a first bevel gear 15, the first bevel gear 15 is fixedly connected to the outer surface of the bottom end of the vertical rod 20, the second bevel gear 16 is fixedly connected to the outer surface of the right end of the rotating rod 18, the first bevel gear 15 and the second bevel gear 16 are engaged, and the rotation of the second bevel gear 16 can drive the rotation of the first bevel gear 15, and further can drive the rotation of the vertical rod 20.

Referring to fig. 1-2, the cleaning mechanism comprises a connecting rod 11, a cleaning brush 13 and a strip-shaped plate 14, the connecting rod 11 is fixedly connected to the outer surface of the top end of a vertical rod 20, the strip-shaped plate 14 is fixedly connected to the right end of the connecting rod 11 and the outer surface of the vertical rod 20, the cleaning brush 13 is fixedly connected to the top of the strip-shaped plate 14, a motor 9 rotates to drive a rotating rod 18 to rotate, the rotating rod 18 rotates to drive a bevel gear II 16 to rotate, the bevel gear II 16 rotates to drive a bevel gear I15 to rotate, so that the vertical rod 20 rotates, the connecting rod 11, the strip-shaped plate 14 and the cleaning brush 13 are driven to rotate by the vertical rod 20, the lower surfaces of a first mesh plate 12 and a second mesh plate 19 can be cleaned, and impurities after cleaning fall into the bottom of the adsorption tower 1, so that the phenomenon that the impurities are gathered to block the meshes of the first mesh plate 12 and the second mesh plate 19 after long-time use can be avoided, and the use of the activated carbon can be influenced, and thus the gas passing rate of the first mesh plate 12 and the second mesh plate 19 can be ensured.

Referring to fig. 2, a discharge pipe 17 is fixedly connected to the bottom of the adsorption tower 1, and a control valve is installed on the discharge pipe 17, and the impurities cleaned from the two mesh plates can be discharged by opening the control valve.

The implementation principle of the embodiment of the application is as follows: when the device is used, gas enters the inside of the adsorption tower 1 through the gas inlet pipe 10, the gas continuously rises after entering the inside of the adsorption tower 1, the activated carbon between the first screen plate 12 and the second screen plate 19 can be subjected to adsorption treatment on the gas in the rising process, the treated gas is discharged through the gas outlet pipe 7, when the activated carbon needs to be disassembled and replaced, the electric push rod 5 is shortened to drive the baffle 4 to move upwards, so that the activated carbon discharge holes 2 are opened, and the activated carbon between the first screen plate 12 and the second screen plate 19 can be discharged through the inclined plane at the top of the second screen plate 19 through the activated carbon discharge holes 2 because the first screen plate 12 and the second screen plate 19 are in inverted funnel shapes, so that the activated carbon is conveniently disassembled and taken out, the electric push rod 5 is extended to block the activated carbon discharge holes 2 through the baffle 4, the activated carbon is placed into the material inlet pipe 6, and the activated carbon slides between the first screen plate 12 and the second screen plate 19, and the replacement of the activated carbon is convenient; when the activated carbon between the first screen plate 12 and the second screen plate 19 is detached and taken out, the motor 9 works and rotates to drive the rotating rod 18 to rotate, the rotating rod 18 rotates to drive the bevel gear 16 to rotate, the bevel gear 16 rotates to drive the bevel gear 15 to rotate, so that the vertical rod 20 rotates, the vertical rod 20 rotates to drive the connecting rod 11, the strip-shaped plates 14 and the cleaning brushes 13 to rotate, the lower surfaces of the first screen plate 12 and the second screen plate 19 can be cleaned, the cleaned impurities fall into the bottom of the adsorption tower 1, the control valve is opened, the impurities cleaned from the two screen plates can be discharged through the discharge pipe 17, the situation that after the first screen plate 12 and the second screen plate 19 are used for a long time, the situation that the impurities are gathered to block meshes of the first screen plate 12 and the second screen plate 19 can be avoided, the use of the activated carbon is influenced, and the gas passing rate of the first screen plate 12 and the second screen plate 19 can be guaranteed.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (6)

1. An adsorption module of a high-purity gas catalytic system, comprising an adsorption tower (1), characterized in that: the utility model discloses an adsorption tower, including adsorption tower (1), inner wall fixedly connected with pan feeding pipe (6), the top of pan feeding pipe (6) runs through the top of adsorption tower (1) and extends to its top, sliding groove (3) have been seted up to the surface symmetry of adsorption tower (1), the inside upside of sliding groove (3) is equipped with baffle (4) of looks adaptation, active carbon discharge opening (2) have been seted up to the surface downside of sliding groove (3), the surface fixedly connected with fixed block (8) of baffle (4), the surface upside symmetry fixedly connected with electric putter (5) of adsorption tower (1), the bottom of electric putter (5) and the top face fixed connection of fixed block (8).

2. The adsorbent assembly of a high purity gas catalytic system as set forth in claim 1 wherein: the middle part of otter board two (19) is rotated and is connected with montant (20), the outside fixedly connected with motor (9) of adsorption tower (1), the output of motor (9) runs through adsorption tower (1) and fixedly connected with bull stick (18), connect through drive mechanism between bull stick (18) and montant (20), the outside of montant (20) is equipped with clearance mechanism.

3. The adsorbent module of a high purity gas catalytic system as set forth in claim 2 wherein: the transmission mechanism comprises a second bevel gear (16) and a first bevel gear (15), the first bevel gear (15) is fixedly connected to the outer surface of the bottom end of the vertical rod (20), and the second bevel gear (16) is fixedly connected to the outer surface of the right end of the rotating rod (18).

4. The adsorbent module of a high purity gas catalytic system as set forth in claim 2 wherein: clearance mechanism includes connecting rod (11), clearance brush (13) and strip shaped plate (14), the top surface fixedly connected with connecting rod (11) of montant (20), the equal fixedly connected with strip shaped plate (14) of the right-hand member of connecting rod (11) and the surface of montant (20), the top fixedly connected with clearance brush (13) of strip shaped plate (14).

5. The adsorbent assembly of a high purity gas catalytic system as set forth in claim 1 wherein: the bottom fixedly connected with of adsorption tower (1) arranges material pipe (17), arrange and install the control valve on material pipe (17).

6. A sorption assembly for a high purity gas catalytic system according to claim 3, wherein: the first bevel gear (15) is in meshed connection with the second bevel gear (16).

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