CN214210543U - Catalyst carrier serialization saturating device - Google Patents

Abstract

The utility model discloses a catalyst carrier serialization saturating device relates to catalyst production technical field. The utility model discloses a structure includes the base, soaks bucket, goes out the bucket, collecting hopper, receives the storage bucket, base top side wall has placed soaking bucket, play bucket and received the storage bucket from a right side to a left side in proper order, the barrel trough bottom of soaking the bucket sets up the direction net that has declined left, be fixed with communicating pipe in the left side wall through-hole of soaking the bucket, be fixed with a motor on the end lateral wall of play bucket, the rotor top of a motor is fixed with the power shaft No. one, a power shaft arranges a storage bucket axis position in, and is fixed with the spiral plate on the lateral wall No. one, the bottom and the fixed intercommunication of play bucket lower right corner wall of communicating pipe, the collecting hopper cover is on a storage bucket top lateral wall, the barrel trough bottom of receiving bucket is provided with the filter screen. The utility model discloses be convenient for remove, but and automatic solution that adds.

Description

Catalyst carrier serialization saturating device

Technical Field

The utility model relates to a catalyst production technical field especially relates to a catalyst carrier serialization saturating device.

Background

A substance which can change the chemical reaction rate of a reactant without changing the chemical equilibrium in a chemical reaction and has no change in the quality and chemical properties of the substance itself before and after the chemical reaction is called a catalyst. Most catalysts have three distinguishable classes of components: active component, carrier and cocatalyst. The active component is the main component of the catalyst, the carrier is the dispersing agent, adhesive or support of the catalytic active component, and is the skeleton for loading the active component, and the cocatalyst is a small amount of material added into the catalyst and is the auxiliary component of the catalyst. The catalyst is prepared by the following steps: the traditional methods include mechanical mixing, precipitation, impregnation, solution evaporation, hot-melt, impregnation, ion exchange, and the like, and the new methods developed at present include chemical bonding, fiberization, and the like. The impregnation method is to soak the carrier in a solution of a soluble compound containing the active component so that the carrier absorbs the active component in the solution. The dipping device in the prior art can realize continuous automatic feeding and discharging by utilizing the conveyor belt, but the liquid level of the soaking pool cannot be too deep due to the limited supporting force of the conveyor belt, so that the occupied area of the soaking pool is large, the space is wasted, and the dipping pool is not easy to move.

Accordingly, one skilled in the art provides a subject to solve the problems set forth in the background above.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that, the holding power of overcoming prior art conveyer belt is limited, so the liquid level of fermentation vat can not be too dark for the big extravagant space of area of fermentation vat, and difficult removal.

In order to solve the above technical problems, the utility model provides a catalyst carrier continuous impregnation device, which comprises,

the base is of a rectangular plate-shaped structure, and four corners of the bottom side wall of the base are respectively provided with a universal self-locking wheel; the soaking barrel is of a cylindrical barrel-shaped structure, the soaking barrel is arranged on the top side wall of the right part of the base, a guide net which inclines leftwards and downwards is arranged at the bottom of a barrel groove of the soaking barrel, a communicating pipe is fixed in a through hole of the left side wall of the soaking barrel, the solution containing the active components and the carrier are poured into the soaking barrel, and the carrier slides into a connecting pipe along the guide net; the discharging barrel is of a cylindrical barrel-shaped structure, the discharging barrel is arranged on the top side wall of the middle part of the base, a first motor is fixed on the bottom side wall of the discharging barrel, a first power shaft is fixed at the top end of a rotor of the first motor, the first power shaft is arranged at the central axis part of the discharging barrel, a first spiral plate is fixed on the side wall, the bottom end of the communicating pipe is fixedly communicated with the lower right corner wall of the discharging barrel, a carrier in the soaking barrel flows into the discharging barrel from the communicating pipe, the first motor drives the first power shaft to rotate, the first power shaft drives the first spiral plate to rotate, and the first spiral plate rolls the carrier at the bottom of the discharging barrel upwards so that the carrier can be flushed out from the top port of the discharging barrel; the carrier pouring device comprises a collecting hopper, a discharging barrel and a conveying device, wherein the collecting hopper is of a U-shaped plate-like structure, the right part of the collecting hopper is sleeved and fixed on the side wall of the top of the discharging barrel, and carriers poured out of the discharging barrel fall into the collecting hopper and are led out from the lower left corner of the collecting hopper in a centralized manner; the material collecting barrel is of a cylindrical barrel-shaped structure, the material collecting barrel is arranged on the side wall of the top of the left part of the base, a filter screen is arranged at the bottom of a barrel groove of the material collecting barrel, the lower left corner of the material collecting hopper is inserted into the top port of the material collecting barrel, carriers are poured into the material collecting barrel in a concentrated mode and collected, and residual solution on the carriers is filtered out through the filter screen.

As a further aspect of the present invention: and a liquid discharge pipe is arranged in a through hole on the left lower corner wall of the material receiving barrel and discharges the filtered solution.

As a further aspect of the present invention: a plurality of through holes are arranged on the first spiral plate and are water through holes, so that the first spiral plate is prevented from pushing the solution out of the discharge barrel.

As a further aspect of the present invention: the right side of soaking the bucket is provided with the liquid feeding pipe, the liquid feeding pipe is L type tubular structure, the bottom and the soaking bucket bottom right side wall intercommunication of liquid feeding pipe, be fixed with the water pump on the top right side wall of soaking the bucket, the delivery port of water pump and the top of liquid feeding pipe intercommunication, the water pump leads to pipe and solution tank intercommunication, the water pump is gone into the liquid feeding pipe with the solution pump in the solution tank, the solution in the liquid feeding pipe flows in and soaks bucket and go out the storage bucket.

As a further aspect of the present invention: the liquid level sensor is arranged on the side wall of the top of the liquid adding pipe, and the liquid level sensor senses the liquid level in the liquid adding pipe, so that the liquid level in the soaking barrel and the liquid level in the discharging barrel can be calculated conveniently.

As a further aspect of the present invention: the rear side of soaking the bucket is provided with the pan feeding pipe, the pan feeding pipe is cylinder tubular structure, and the bottom is for closing the mouth, lateral wall is articulated with the back upper corner of soaking the bucket before the top of pan feeding pipe, be provided with No. two motors in the diapire cavity of pan feeding pipe, the rotor top of No. two motors is fixed with No. two power shafts, the axis position of pan feeding pipe is arranged in to No. two power shafts, and is fixed with No. two spiral plates on the lateral wall, No. two motor drive No. two power shafts rotate, No. two power shafts drive No. two spiral plates and rotate, No. two spiral plates upwards roll up the carrier of below for the carrier is followed the pan feeding pipe top and is shoved out, and falls into in the soaking bucket.

As a further aspect of the present invention: a cylindrical pipeline is fixed in a through hole in the bottom rear side wall of the feeding pipe and serves as a feeding opening, and the catalyst enters the feeding pipe from the feeding opening.

As a further aspect of the present invention: be provided with control panel on soaking bucket front side wall, control panel and level sensor, water pump, motor electric connection, control panel controlling means moves.

The utility model has the advantages that:

(1) the utility model discloses set up the pan feeding pipe, during the use, No. two power shaft of motor drive rotate, and No. two power shaft drive No. two spiral plates rotate, and No. two spiral plates upwards roll up the carrier of below for the carrier is followed the pan feeding pipe top and is gushed out, and falls into in the soaking bucket. The utility model discloses but automatic material conveying.

(2) The utility model is provided with a base, a soaking barrel, a discharging barrel and a material receiving barrel, a carrier slides into a connecting pipe along a guide net and flows into the discharging barrel from a communicating pipe, a motor drives a power shaft to rotate, the power shaft drives a spiral plate to rotate, and the spiral plate rolls the carrier at the bottom of the discharging barrel upwards so that the carrier is discharged from the top port of the discharging barrel; the carriers gushing out of the discharging barrel fall into the collecting hopper and are led out from the left lower corner of the collecting hopper in a centralized manner, the carriers are poured into the collecting barrel to be collected, and the filter screen filters residual solution on the carriers. The utility model discloses area is little and be convenient for remove.

(3) The utility model discloses set up the filling tube, when the liquid level in the level sensor response liquid feeding pipe is less than the setting value, the liquid feeding pipe is gone into with the solution pump in the solution tank to the water pump, and the solution in the liquid feeding pipe flows in and soaks in bucket and the play storage bucket. The utility model discloses can add solution automatically.

Drawings

Fig. 1 is a schematic view of the structure of the present invention;

fig. 2 is a right side view of the present invention.

Wherein: the device comprises a soaking barrel 10, a guide net 11, a communicating pipe 12, a liquid feeding pipe 13, a liquid level sensor 14, a water pump 15, a discharging barrel 16, a first motor 17, a first power shaft 18, a first spiral plate 19, a water through hole 20, a collecting hopper 21, a collecting barrel 22, a filter screen 23, a liquid discharging pipe 24, a base 25, a universal self-locking wheel 26, a feeding pipe 27, a feeding port 28, a second motor 29, a second power shaft 30 and a second spiral plate 31.

Detailed Description

The continuous impregnation device for the catalyst carrier provided by the embodiment has a structure as shown in fig. 1-2, and comprises,

the base 25 is of a rectangular plate-shaped structure, and four corners of the bottom side wall of the base 25 are respectively provided with a universal self-locking wheel 26; the soaking device comprises a soaking barrel 10, wherein the soaking barrel 10 is of a cylindrical barrel-shaped structure, the soaking barrel 10 is arranged on the top side wall of the right part of a base 25, a guide net 11 which inclines leftwards and downwards is arranged at the bottom of a barrel groove of the soaking barrel 10, a communicating pipe 12 is fixed in a through hole of the left side wall of the soaking barrel 10, a solution containing active components and a carrier are poured into the soaking barrel 10, and the carrier slides into a connecting pipe 12 along the guide net 11; the discharging barrel 16 is of a cylindrical barrel-shaped structure, the discharging barrel 16 is arranged on the top side wall of the middle part of the base 10, a first motor 17 is fixed on the bottom side wall of the discharging barrel 16, a first power shaft 18 is fixed at the top end of a rotor of the first motor 17, the first power shaft 18 is arranged on the central axis of the discharging barrel 16, a first spiral plate 19 is fixed on the side wall, the bottom end of the communicating pipe 12 is fixedly communicated with the lower right corner wall of the discharging barrel 16, a carrier in the soaking barrel 10 flows into the discharging barrel 16 from the communicating pipe 12, the first motor 17 drives the first power shaft 18 to rotate, the first power shaft 18 drives the first spiral plate 19 to rotate, and the first spiral plate 19 rolls the carrier at the bottom of the discharging barrel 16 upwards so that the carrier is discharged from the top end opening of the discharging barrel 16; the collecting hopper 21 is of a U-shaped plate-like structure, the right part of the collecting hopper 21 is sleeved and fixed on the side wall of the top of the discharging barrel 16, and carriers gushing out from the discharging barrel 16 fall into the collecting hopper 21 and are led out from the lower left corner of the collecting hopper 21 in a centralized manner; receive storage bucket 22, receive storage bucket 22 and be cylinder tubbiness structure, receive storage bucket 22 and arrange base 25 left part top lateral wall in on, receive storage bucket 22's tank bottom is provided with filter screen 23, the lower left corner of collecting hopper 21 inserts and receives storage bucket 22 top port to concentrate the carrier and pour into in the storage bucket 22 and collect, filter screen 23 filters remaining solution on the carrier.

A liquid discharge pipe 24 is arranged in a through hole on the left lower corner wall of the material receiving barrel 22, and the filtered solution is discharged by the liquid discharge pipe 24.

The first spiral plate 19 is provided with a plurality of through holes which are water through holes 20 so as to prevent the first spiral plate 19 from pushing the solution out of the discharge barrel 16.

The right side of soaking bucket 10 is provided with liquid feeding pipe 13, liquid feeding pipe 13 is L type tubular structure, the bottom and the soaking bucket 10 bottom right side wall intercommunication of liquid feeding pipe 13, be fixed with water pump 15 on the top right side wall of soaking bucket 10, the delivery port of water pump 15 and the top of liquid feeding pipe 13 intercommunication, water pump 15 leads to pipe and solution tank intercommunication, water pump 15 is gone into liquid feeding pipe 13 with the solution pump in the solution tank, the solution in the liquid feeding pipe 13 flows in soaking bucket 10 and goes out the storage bucket 16.

The liquid level sensor 14 is arranged on the side wall of the top of the liquid feeding pipe 13, and the liquid level sensor 14 senses the liquid level in the liquid feeding pipe 13, so that the liquid levels in the soaking barrel 10 and the discharging barrel 16 can be calculated conveniently.

The rear side of soaking bucket 10 is provided with pan feeding pipe 27, pan feeding pipe 27 is cylinder tubular structure, and the bottom is for closing the mouth, lateral wall is articulated with the back upper corner of soaking bucket 10 before the top of pan feeding pipe 27, be provided with No. two motors 29 in the diapire cavity of pan feeding pipe 27, No. two motors 29's rotor top is fixed with No. two power shafts 30, No. two power shafts 30 arrange the axis position of pan feeding pipe in, and be fixed with No. two spiral plates 31 on the lateral wall, No. two power shafts 30 of No. 29 drive rotate, No. two power shafts 30 drive No. two spiral plates 31 and rotate, No. two spiral plates 31 upwards roll up the carrier of below for the carrier gushes out from pan feeding pipe 27 top, and falls into in the soaking bucket 10.

A cylindrical pipeline is fixed in a through hole in the bottom rear side wall of the feeding pipe 27 to serve as a feeding port 28, and the catalyst enters the feeding pipe 27 from the feeding port 28.

The soaking barrel 10 is characterized in that a control panel is arranged on the front side wall of the soaking barrel 10, the control panel is electrically connected with the liquid level sensor 14, the water pump 15 and the motor, and the control panel controls the device to run.

The utility model discloses a theory of operation: when the device is used, the second motor 29 drives the second power shaft 30 to rotate, the second power shaft 30 drives the second spiral plate 31 to rotate, and the second spiral plate 31 rolls the carrier below upwards, so that the carrier is gushed out from the top end of the feeding pipe 27 and falls into the soaking barrel 10; the carrier slides into the connecting pipe 12 along the guide net 11 and flows into the discharging barrel 16 from the communicating pipe 12, the first motor 17 drives the first power shaft 18 to rotate, the first power shaft 18 drives the first spiral plate 19 to rotate, and the first spiral plate 19 rolls the carrier at the bottom of the discharging barrel 16 upwards, so that the carrier is flushed out from a top port of the discharging barrel 16; the carriers gushing out from the discharging barrel 16 fall into the collecting hopper 21, are intensively led out from the lower left corner of the collecting hopper 21, are poured into the collecting barrel 22 for collection, and the residual solution on the carriers is filtered by the filter screen 23; when the liquid level sensor 14 senses that the liquid level in the liquid feeding pipe 13 is lower than a set value, the water pump 15 pumps the solution in the solution tank into the liquid feeding pipe 13, and the solution in the liquid feeding pipe 13 flows into the soaking barrel 10 and the discharging barrel 16. The utility model discloses be convenient for remove, but and automatic solution that adds.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (5)

1. A continuous impregnation device for catalyst carriers is characterized by comprising,

the device comprises a base (25), wherein the base (25) is of a rectangular plate-shaped structure, and four corners of the bottom side wall of the base (25) are respectively provided with a universal self-locking wheel (26); the soaking device comprises a soaking barrel (10), wherein the soaking barrel (10) is of a cylindrical barrel-shaped structure, the soaking barrel (10) is arranged on the top side wall of the right part of a base (25), a guide net (11) which inclines leftwards and downwards is arranged at the bottom of a barrel groove of the soaking barrel (10), a communicating pipe (12) is fixed in a through hole of the left side wall of the soaking barrel (10), a solution containing active components and a carrier are poured into the soaking barrel (10), and the carrier slides into the communicating pipe (12) along the guide net (11); go out storage bucket (16), go out storage bucket (16) and be cylinder tubbiness structure, go out storage bucket (16) and arrange base (25) middle part top lateral wall in, be fixed with motor (17) on the bottom lateral wall of storage bucket (16), the rotor top of motor (17) is fixed with power shaft (18) No. one, power shaft (18) are arranged in and are gone out storage bucket (16) axis position, and are fixed with spiral board (19) No. one on the lateral wall, the bottom and the lower right corner wall of storage bucket (16) of communicating pipe (12) are fixed and are linked together, the carrier in the soaks bucket (10) flows into in the storage bucket (16) from communicating pipe (12), motor (17) drive power shaft (18) rotate No. one, power shaft (18) drive spiral board (19) and rotate, spiral board (19) upwards roll up the carrier of storage bucket (16) bottom, so that the carrier can be gushed out from the top port of the discharging barrel (16); the carrier collection device comprises a collection hopper (21), wherein the collection hopper (21) is of a U-shaped plate-like structure, the right part of the collection hopper (21) is sleeved and fixed on the side wall of the top of a discharge barrel (16), and carriers gushed out of the discharge barrel (16) fall into the collection hopper (21) and are led out from the lower left corner of the collection hopper (21) in a centralized manner; receive storage bucket (22), receive storage bucket (22) and be cylinder tubbiness structure, receive storage bucket (22) arrange base (25) left part top lateral wall in, the barrel trough bottom of receiving storage bucket (22) is provided with filter screen (23), the lower left corner of collecting hopper (21) inserts in receiving storage bucket (22) top port mouth to concentrate the carrier and pour into in receiving storage bucket (22) and collect, filter screen (23) filters remaining solution on the carrier.

2. The continuous impregnation device for the catalyst carrier according to claim 1, wherein: a liquid discharge pipe (24) is arranged in a through hole on the left lower corner wall of the material receiving barrel (22), and the filtered solution is discharged by the liquid discharge pipe (24).

3. The continuous impregnation device for the catalyst carrier according to claim 1, wherein: the first spiral plate (19) is provided with a plurality of through holes which are water through holes (20) so as to prevent the first spiral plate (19) from pushing the solution out of the discharge barrel (16).

4. The continuous impregnation device for the catalyst carrier according to claim 1, wherein: the right side of soaking bucket (10) is provided with liquid feeding pipe (13), liquid feeding pipe (13) are L type tubular structure, the bottom and the soaking bucket (10) bottom right side wall intercommunication of liquid feeding pipe (13), be fixed with water pump (15) on the top right side wall of soaking bucket (10), the delivery port of water pump (15) and the top intercommunication of liquid feeding pipe (13), water pump (15) lead to pipe and solution tank intercommunication, during liquid feeding pipe (13) were gone into to solution pump in the solution tank in water pump (15), the solution in the liquid feeding pipe (13) flows into and soaks bucket (10) and ejection of compact bucket (16).

5. The continuous impregnation device for the catalyst carrier according to claim 4, wherein: a liquid level sensor (14) is arranged on the side wall of the top of the liquid adding pipe (13), and the liquid level sensor (14) senses the liquid level in the liquid adding pipe (13) so as to calculate the liquid levels in the soaking barrel (10) and the discharging barrel (16) conveniently.

Images