CN213527698U - Centrifugal filter device and chemical reagent production platform - Google Patents

Abstract

The utility model provides a centrifugal filter device and chemical reagent production platform, centrifugal filter device is including having open-ended urceolus, setting and is in centrifugation bucket in the urceolus, be used for sheltering from the open-ended and keep off the lid, be used for driving centrifugation bucket pivoted drive arrangement, connect drive arrangement with the pivot of centrifugation bucket, be equipped with a plurality of discharge openings on the lateral wall of centrifugation bucket, keep off to cover and be equipped with protruding stretching into the puddler of centrifugation bucket, certainly the puddler is towards a plurality of stirring leaves of radial extension. The utility model discloses a centrifugal filter is through setting up puddler and stirring leaf to improve separation speed, improve the separation effect.

Description

Centrifugal filter device and chemical reagent production platform

Technical Field

The utility model relates to a centrifugal filter device and chemical reagent production platform.

Background

The existing centrifugal filter device for chemical reagents is not provided with a stirring device generally, so that the separation speed of solution and insoluble particulate matters in the solution is low, and the separation effect is poor.

In view of the above, there is a need for an improved centrifugal filter device to solve the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a centrifugal filter device to solve the problem that current filter device separating speed is slow, the effect is poor.

In order to achieve the above object, the utility model provides a centrifugal filter device, centrifugal filter device is including having open-ended urceolus, setting and is in centrifuge bucket in the urceolus, be used for sheltering from open-ended fender lid, be used for the drive centrifuge bucket pivoted drive arrangement, connect drive arrangement with the pivot of centrifuge bucket, be equipped with a plurality of discharge openings on the lateral wall of centrifuge bucket, keep off to cover and be equipped with protruding stretching into the puddler of centrifuge bucket, certainly a plurality of stirring leaves of puddler orientation radial extension.

As a further improvement of the utility model, the number of the stirring blades is three.

As a further improvement of the utility model, the included angle between any two stirring blades along the radial direction is 120 degrees.

As a further improvement of the utility model, the bottom of the centrifugal barrel is arranged at an interval with the outer barrel.

As a further improvement, the top of the side wall of the centrifugal barrel is provided with an upper baffle along the axial direction, the upper baffle encloses to establish the formation supply the stirring rod with the stirring port that the stirring blade got into.

As a further improvement of the utility model, the centrifugal filter device is provided with a base platform, the outer barrel is fixed on the base platform, and the driving device is arranged in the base platform.

As a further improvement of the present invention, the centrifugal filter device further comprises a cover switch for driving the hydraulic drive assembly of the outer tube, wherein the hydraulic drive assembly is adjacent to the outer tube.

The utility model also provides a chemical reagent production platform, chemical reagent production platform includes the mesa, encircles the mesa just is equipped with the open-ended cabinet body, is used for the switch the window form, the setting of the cabinet body are in operation instrument, setting on the mesa are in the exhaust emission device at cabinet body top, operation instrument includes such as above-mentioned centrifugal filter equipment.

As a further improvement of the utility model, be provided with a plurality of circular shape handle holes on the window form and pass with the confession hand.

As a further improvement of the utility model, the operation hole is provided with two semicircular air cushions to isolate the cabinet body and the outside air.

The utility model has the advantages that: the utility model discloses a centrifugal filter is through setting up puddler and stirring leaf to improve separation speed, improve the separation effect.

Drawings

FIG. 1 is a schematic structural view of a chemical reagent production station of the present invention;

FIG. 2 is a schematic top view of the chemical reagent production station of the present invention;

FIG. 3 is an enlarged schematic view of region A of FIG. 1;

FIG. 4 is a schematic structural view of an exhaust gas treatment device of a chemical reagent production station according to the present invention;

FIG. 5 is a schematic view of the operation hole and the air cushion of the chemical reagent production station of the present invention;

FIG. 6 is a centrifugal filter assembly of the chemical reagent production station of the present invention;

FIG. 7 is a schematic top view of the outer tube and the centrifugal barrel of the centrifugal filter device of the chemical reagent production station according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 to 7, the chemical reagent production platform 100 of the present invention comprises a platform surface 1, a surrounding table surface 1, a cabinet body 2 with an opening, a storage cabinet 3 arranged below the cabinet body 2, a window 4 for opening and closing the cabinet body 2, an operation instrument 5 arranged on the platform surface 1, a production platform exhaust emission component 6, an air pressure adjusting device 7, and a waste liquid collecting device.

As shown in fig. 1 to 5, the cabinet 2 includes a side wall 21 and a top wall 22 provided on the side wall 21.

The production table exhaust gas discharge assembly 6 comprises an exhaust gas discharge device 61 and an exhaust gas treatment device 65 connected with the exhaust gas discharge device 61.

The exhaust emission device 61 comprises an annular air inlet channel 62 arranged around the top of the cabinet body 2, an exhaust duct 63 connected with the annular air inlet channel 62, and a connecting duct 64 connected with the annular air inlet channel 62 and the exhaust duct 63.

The number of the connecting passages 64 is four, and the four connecting passages 64 are connected to the annular intake passages 62 in different directions.

The annular inlet passage 62 is provided in the top wall 22. The annular inlet passage 62 is disposed adjacent the side wall 21. The annular air inlet channel 62 arranged in this way can adsorb waste gas at each position and is hidden, so that the whole chemical reagent production table 100 is more attractive and can be suitable for a larger production table.

The exhaust duct 63 is vertically disposed in the middle of the top wall 22. The end of the exhaust duct 63 away from the annular intake passage 62 is connected to the exhaust gas treatment device 65. The exhaust gas treatment device 65 is used for treating various exhaust gases generated in the chemical reaction to reach the emission standard.

An exhaust fan 631, a particulate matter filter screen 632, a particulate matter collecting device 633 and an air volume sensor 634 are arranged in the exhaust duct 63.

The suction fan 631 operates to generate suction so that exhaust gas can enter the connecting duct 64 from the annular inlet duct 62 and then the exhaust duct 63.

The particulate filter screen 632 is disposed between the blower and the connecting passage 64. The particulate filter screen 632 can be drawn and pulled, and the exhaust duct 63 is provided with a take-out port for the particulate filter screen 632 to be drawn out. When the generated exhaust gas contains particles, the particles can be removed through the particle filter screen 632, and after the particle filter screen 632 is drawn out, the particles on the surface can be removed.

Particulate matter collection device 633 sets up in exhaust duct 63 and is located take out the below of mouth, in this embodiment, when pull particulate matter filter screen 632, particulate matter filter screen 632 contacts with exhaust duct 63's lateral wall 21 to make the particulate matter be scraped off by exhaust duct 63's lateral wall 21, the particulate matter of scraping falls into particulate matter collection device 633 takes out particulate matter collection device 633 when collecting enough and clears up.

Air volume sensor 634 sets up particulate matter filter screen 632's below, works as when particulate matter on the particulate matter filter screen 632 is more, air volume sensor 634 detects the amount of wind and diminishes, reminds the user to clear up particulate matter filter screen 632 this moment.

As shown in fig. 4, the exhaust gas treatment device 65 includes a first water tank 651, a second water tank 652, a third water tank 653, a reaction tower 654, and a water injection tank 655, which are connected in this order.

The first water tank 651 is connected with the exhaust gas discharging device through a first air inlet pipe 6511, water is filled in the first water tank 651, and the outlet end of the first air inlet pipe 6511 is positioned below the water surface in the first water tank 651. The air discharged from the exhaust gas discharge device 61 is directly introduced into the first water tank 651, so that the particulate matter not removed by the particulate matter filter 632 and some soluble contaminating gases can be removed.

The second water tank 652 is connected with the first water tank 651 through a second air inlet pipe 6521, acid liquor is filled in the second water tank 652, and the outlet end of the second air inlet pipe 6521 is positioned below the acid liquor level in the second water tank 652. The acid solution may react with the alkaline contaminant gases in the exhaust gas to remove these alkaline contaminant gases.

The third water tank 653 is connected with the second water tank 652 through a third gas inlet pipe 6531, alkaline liquid is filled in the third water tank 653, and the outlet end of the third gas inlet pipe 6531 is positioned below the alkaline liquid level in the third water tank 653. The alkali liquor may react with the acid contaminant gases in the exhaust gas to remove these acid contaminant gases.

The reaction tower 654 is internally provided with a spraying layer 6542, a dehydration layer 6543, an SCR reaction layer 6544 and an activated carbon layer 6545 from bottom to top, and the top of the reaction tower 654 is provided with an exhaust port 6546.

The reaction tower 654 is connected to the third water tank 653 through a fourth air inlet pipe 6541, and an outlet end of the fourth air inlet pipe 6541 is located below the spray layer 6542.

The spraying layer 6542 is sprayed to remove the particles and soluble pollutants in the exhaust gas again, and the sprayed water is periodically recycled at the bottom of the reaction tower 654.

The water injection tank 655 is disposed outside the reaction tower 654 and connected to the spray layer 6542 to supply water to the spray layer 6542.

The dehydration layer 6543 can remove moisture from the sprayed exhaust gas.

The SCR reaction layer 6544 can effectively remove nitrogen oxides in the exhaust gas.

The activated carbon layer 6545 can remove other polluted gases, and the air passing through the activated carbon layer 6545 reaches the emission standard, namely, can be directly discharged to the outside.

Such an exhaust treatment device 65 may treat a substantial portion of the pollutants such that the exhaust gas meets emission standards.

As shown in fig. 1 and 5, the window 4 is provided with a circular operation hole 41 for allowing a hand to pass through. The bottom of window 4 is provided with a sealing strip 43 to prevent exhaust gas from leaking. A handle 42 is provided on window 4 to facilitate opening and closing of window 4 by a user.

Two semicircular air cushions 44 are arranged at the operating hole 41, and the air pressure adjusting device 7 is connected with the air cushions 44 through an air pipe 45. The air pads 44 are pressed against each other when filled with air to close the operation hole 41, thereby preventing the exhaust gas from leaking from the operation hole 41. The diameter of the operation hole 41 is set to 10-15 cm so that a user can insert a hand into the cabinet 2.

The air cushions 44 are made of rubber material and have a certain elasticity so that the user's hands can pass between the two air cushions 44.

The air pressure adjusting device 7 adopts a voice-operated switch, and the air pressure adjusting device 7 is used for adjusting the air pressure in the air cushion 44 so as to pass through the operation hole 41 when a user holds the instrument. And a voice control switch is adopted, so that a user can operate the voice control switch by one person.

As shown in fig. 1, the number of the operation instruments 5 is plural, and each operation instrument 5 is provided with two operation holes 41. A plurality of the operating instruments 5 are arranged side by side. A plurality of the operation holes 41 are arranged side by side, and the number of the operation holes 41 is one more than the number of the operation instruments 5.

In this embodiment, the number of the operation instruments 5 is five, and the number of the operation holes 41 is six.

Specifically, the operation apparatus 5 comprises a mixing, heating and stirring device 51, a quenching device 52, a standing and layering device 53, an evaporation and dissolution device 54 and a centrifugal filtering device 55, and is arranged to complete one-time production.

In other embodiments, the handling apparatus 5 may also comprise a freeze filtration device. These devices are common instruments in chemical production, most of which generate harmful gases, and are integrated in one chemical production station 100, which saves space and resources and correspondingly requires only one set of station exhaust gas discharge assemblies 6.

The waste liquid collecting device is connected to the operation instrument 5 to collect waste liquid generated during the reaction, and the waste liquid collecting device is disposed in the storage cabinet 3.

As shown in fig. 6 and 7, the centrifugal filter device 55 includes an outer cylinder 551 having an opening, a centrifugal barrel 552 disposed in the outer cylinder 551, a cover 553 for covering the opening, a driving device for driving the centrifugal barrel 552 to rotate, a rotating shaft 555 for connecting the driving device and the centrifugal barrel 552, a bottom plate 556, and a hydraulic driving assembly 554 for driving the cover 553 to open and close the outer cylinder 551.

The outer cylinder 551 is fixed to the base plate 556, and the driving device is disposed in the base plate 556.

A plurality of discharge holes 5521 are formed in the side wall 21 of the centrifugal barrel 552, so that liquid can be centrifugally thrown out of the centrifugal barrel 552. An upper baffle 5522 is arranged on the top of the side wall 21 of the centrifugal barrel 552 along the axial direction, and the upper baffle 5522 encloses a stirring opening 5523 for the stirring rod 5541 and the stirring blade 5542 to enter.

The baffle cover 553 is provided with a stirring rod 5541 protruding into the centrifugal tub 552, and a plurality of stirring vanes 5542 extending from the stirring rod 5541 in a radial direction. When the centrifugal barrel 552 rotates, the liquid in the centrifugal barrel 552 rotates relative to the stirring blade 5542, thereby facilitating centrifugal filtration.

The number of the stirring vanes 5542 is three. The included angle between any two stirring blades 5542 along the radial direction is 120 degrees.

The bottom of the spin basket 552 is spaced apart from the outer tub 551 to facilitate placement of a filter bag outside the spin basket 552.

The hydraulic drive assembly 554 is disposed adjacent the outer barrel 551.

The chemical reagent production table 100 of the present invention can reduce the cost of waste gas treatment by integrating a plurality of operation instruments 5; by providing the operation hole 41 and the air pad 44 provided in the operation hole 41, the leakage of the exhaust gas from the operation hole 41 can be prevented; by arranging the production table exhaust gas discharge assembly 6, exhaust gas can be safely discharged.

The above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solutions of the present invention can be modified or replaced equivalently without departing from the spirit and scope of the technical solutions of the present invention.

Claims (10)

1. A centrifugal filter device characterized by: centrifugal filter equipment is in including having open-ended urceolus, setting centrifugation bucket in the urceolus, be used for sheltering from open-ended fender lid, be used for driving centrifugation bucket pivoted drive arrangement, connection drive arrangement with the pivot of centrifugation bucket, be equipped with a plurality of discharge openings on the lateral wall of centrifugation bucket, the fender is covered and is equipped with protruding stretching into centrifugation bucket's puddler, certainly a plurality of stirring leaves of puddler orientation radial extension.

2. The centrifugal filter device of claim 1, wherein: the number of the stirring blades is three.

3. A centrifugal filter device according to claim 2, wherein: the included angle between any two stirring blades along the radial direction is 120 degrees.

4. The centrifugal filter device of claim 1, wherein: the bottom of the centrifugal barrel and the outer barrel are arranged at intervals.

5. The centrifugal filter device of claim 4, wherein: the top of the side wall of the centrifugal barrel is provided with an upper baffle inwards along the axial direction, and the upper baffle is surrounded to form a stirring port for the stirring rod and the stirring blades to enter.

6. The centrifugal filter device of claim 5, wherein: the centrifugal filter device is provided with a bottom platform, the outer barrel is fixed on the bottom platform, and the driving device is arranged in the bottom platform.

7. The centrifugal filter device of claim 6, wherein: the centrifugal filter device further comprises a hydraulic driving assembly for driving the blocking cover to open and close the outer barrel, and the hydraulic driving assembly is adjacent to the outer barrel.

8. A chemical reagent production platform which characterized in that: the chemical reagent production table comprises a table top, a cabinet body which surrounds the table top and is provided with an opening, a window body used for opening and closing the cabinet body, an operating instrument arranged on the table top, and an exhaust gas discharge device arranged at the top of the cabinet body, wherein the operating instrument comprises the centrifugal filter device as claimed in any one of claims 1 to 7.

9. The chemical reagent production station of claim 8, wherein: the window body is provided with a plurality of round operating holes for hands to pass through.

10. The chemical reagent production station of claim 9, wherein: two semicircular air cushions are arranged at the operating hole to isolate the cabinet body from outside air.

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